Non-coding RNAs and macrophage interaction in tumor progression.
暂无分享,去创建一个
G. Sethi | M. Ashrafizadeh | A. Zarrabi | M. Hashemi | N. Rabiee | Sepideh Mirzaei | K. Hushmandi | M. Entezari | M. Rashidi | A. Taheriazam | Mehrdokht Sadrkhanloo | Sholeh Etehad Asnaf | Kiavash Hushmandi | Navid Rabiee | Sepideh Mirzaei
[1] Yuzhuo Wang,et al. The long and short non-coding RNAs modulating EZH2 signaling in cancer , 2022, Journal of Hematology & Oncology.
[2] Jing Zhong,et al. Exosomes in triple negative breast cancer: From bench to bedside. , 2021, Cancer letters.
[3] Xiaoqian Wang,et al. Exosomes-derived miR-154-5p attenuates esophageal squamous cell carcinoma progression and angiogenesis by targeting kinesin family member 14 , 2022, Bioengineered.
[4] B. Goh,et al. The potential role of exosomal circRNAs in the tumor microenvironment: insights into cancer diagnosis and therapy , 2022, Theranostics.
[5] G. Sethi,et al. Reiterating the Emergence of Noncoding RNAs as Regulators of the Critical Hallmarks of Gall Bladder Cancer , 2021, Biomolecules.
[6] G. Sethi,et al. Pre-Clinical and Clinical Applications of Small Interfering RNAs (siRNA) and Co-Delivery Systems for Pancreatic Cancer Therapy , 2021, Cells.
[7] Michael R Hamblin,et al. Hyaluronic acid-based nanoplatforms for Doxorubicin: A review of stimuli-responsive carriers, co-delivery and resistance suppression. , 2021, Carbohydrate polymers.
[8] Michael R Hamblin,et al. Curcumin and its derivatives in cancer therapy: Potentiating antitumor activity of cisplatin and reducing side effects , 2021, Phytotherapy research : PTR.
[9] G. Sethi,et al. Circular RNAs in cell cycle regulation: Mechanisms to clinical significance , 2021, Cell proliferation.
[10] L. Xin,et al. Transfer of LncRNA CRNDE in TAM‐derived exosomes is linked with cisplatin resistance in gastric cancer , 2021, EMBO reports.
[11] A. Goldman,et al. Advances in understanding the role of P-gp in doxorubicin resistance: molecular pathways, therapeutic strategies, and prospects. , 2021, Drug discovery today.
[12] G. Sethi,et al. Use of Gallic acid for cancer treatment: Molecular mechanisms and improvement of efficacy by nanoformulations. , 2021, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.
[13] Zhijie Xu,et al. Exosomes: A New Pathway for Cancer Drug Resistance , 2021, Frontiers in Oncology.
[14] M. Ashrafizadeh,et al. Long non-coding RNAs as new players in bladder cancer: Lessons from pre-clinical and clinical studies. , 2021, Life sciences.
[15] Z. Zeng,et al. Circular RNA circRNF13 inhibits proliferation and metastasis of nasopharyngeal carcinoma via SUMO2 , 2021, Molecular Cancer.
[16] Zheyan Liu,et al. Exosomal transfer of tumor-associated macrophage-derived hsa_circ_0001610 reduces radiosensitivity in endometrial cancer , 2021, Cell Death & Disease.
[17] L. Bai,et al. Circular noncoding RNA circ_0007334 sequestrates miR-577 to derepress KLF12 and accelerate colorectal cancer progression , 2021, Anti-cancer drugs.
[18] Xingang Li,et al. Silencing lncRNA LINC01410 suppresses cell viability yet promotes apoptosis and sensitivity to temozolomide in glioblastoma cells by inactivating PTEN/AKT pathway via targeting miR-370-3p , 2021, Immunopharmacology and immunotoxicology.
[19] Hao Song,et al. LncRNA CTD-3252C9.4 modulates pancreatic cancer cell survival and apoptosis through regulating IFI6 transcription , 2021, Cancer cell international.
[20] Li Li,et al. circ_C20orf11 enhances DDP resistance by inhibiting miR-527/YWHAZ through the promotion of extracellular vesicle-mediated macrophage M2 polarization in ovarian cancer , 2021, Cancer biology & therapy.
[21] M. Najafi,et al. Targeting of the tumor microenvironment by curcumin , 2021, BioFactors.
[22] Mei Xu,et al. Exosomal lncRNA LINC01711 facilitates metastasis of esophageal squamous cell carcinoma via the miR-326/FSCN1 axis , 2021, Aging.
[23] Wenjun Shao,et al. LncRNA IGFL2-AS1 Promotes the Proliferation, Migration, and Invasion of Colon Cancer Cells and is Associated with Patient Prognosis , 2021, Cancer management and research.
[24] Jing Liu,et al. Prognostic Value of miR-1826 in Prostate Cancer and Its Regulatory Effect on Tumor Progression , 2021, OncoTargets and therapy.
[25] Zhengming Zhu,et al. N6-Methyladenosine Related Long Non-Coding RNAs and Immune Cell Infiltration in the Tumor Microenvironment of Gastric Cancer , 2021, Biological Procedures Online.
[26] X. Duan,et al. Esophageal Cancer-Derived Extracellular Vesicle miR-21-5p Contributes to EMT of ESCC Cells by Disorganizing Macrophage Polarization , 2021, Cancers.
[27] Paul Martin,et al. Macrophage regulation of angiogenesis in health and disease. , 2021, Seminars in cell & developmental biology.
[28] B. Liu,et al. MiR-181a promotes cell proliferation and migration through targeting KLF15 in papillary thyroid cancer , 2021, Clinical and Translational Oncology.
[29] K. Ying,et al. Exosomal lncRNA SCIRT/miR-665 Transferring Promotes Lung Cancer Cell Metastasis through the Inhibition of HEYL , 2021, Journal of oncology.
[30] U. Pastorino,et al. Circulating extracellular vesicles from individuals at high-risk of lung cancer induce pro-tumorigenic conversion of stromal cells through transfer of miR-126 and miR-320 , 2021, Journal of experimental & clinical cancer research : CR.
[31] M. Najafi,et al. Modulation of the tumor microenvironment (TME) by melatonin. , 2021, European journal of pharmacology.
[32] Rong Li,et al. miR-543 impairs cell proliferation, migration, and invasion in breast cancer by suppressing VCAN. , 2021, Biochemical and biophysical research communications.
[33] M. Ashrafizadeh,et al. The involvement of epithelial-to-mesenchymal transition in doxorubicin resistance: Possible molecular targets. , 2021, European journal of pharmacology.
[34] Xiaofeng Li,et al. Circular RNA TAF4B Promotes Bladder Cancer Progression by Sponging miR-1298-5p and Regulating TGFA Expression , 2021, Frontiers in Oncology.
[35] Ying Gao,et al. Exosomal long non-coding RNA SOX2 overlapping transcript enhances the resistance to EGFR-TKIs in non-small cell lung cancer cell line H1975 , 2021, Human Cell.
[36] Seyyed Mahmoud Hashemi,et al. Transfer of miRNA in tumor-derived exosomes suppresses breast tumor cell invasion and migration by inducing M1 polarization in macrophages. , 2021, Life sciences.
[37] Yong Huang,et al. MicroRNA-223 modulates the IL-4-medicated macrophage M2-type polarization to control the progress of sepsis. , 2021, International immunopharmacology.
[38] Baiqiu Wang,et al. Circular RNA Circ_0003221 Promotes Cervical Cancer Progression by Regulating miR-758-3p/CPEB4 Axis , 2021, Cancer management and research.
[39] Zhenjun Wang,et al. Exosomal miR-183-5p Shuttled by M2 Polarized Tumor-Associated Macrophage Promotes the Development of Colon Cancer via Targeting THEM4 Mediated PI3K/AKT and NF-κB Pathways , 2021, Frontiers in Oncology.
[40] M. Ashrafizadeh,et al. New insight towards development of paclitaxel and docetaxel resistance in cancer cells: EMT as a novel molecular mechanism and therapeutic possibilities. , 2021, Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.
[41] M. Guzman,et al. Macrophages in Acute Myeloid Leukaemia: Significant Players in Therapy Resistance and Patient Outcomes , 2021, Frontiers in Cell and Developmental Biology.
[42] N. Tyagi,et al. Exosomal lncRNA-H19 promotes osteogenesis and angiogenesis through mediating Angpt1/Tie2-NO signaling in CBS-heterozygous mice , 2021, Theranostics.
[43] M. Najafi,et al. Resveratrol for targeting the tumor microenvironment and its interactions with cancer cells. , 2021, International immunopharmacology.
[44] Hua Chen,et al. Tumor Cell-Derived Exosomal miR-770 Inhibits M2 Macrophage Polarization via Targeting MAP3K1 to Inhibit the Invasion of Non-small Cell Lung Cancer Cells , 2021, Frontiers in Cell and Developmental Biology.
[45] Ye-Ting Lu,et al. miR-934 promotes breast cancer metastasis by regulation of PTEN and epithelial-mesenchymal transition. , 2021, Tissue & cell.
[46] Shishan Deng,et al. miR-498 inhibits autophagy and M2-like polarization of tumor-associated macrophages in esophageal cancer via MDM2/ATF3. , 2021, Epigenomics.
[47] G. Sethi,et al. Long noncoding RNAs in triple‐negative breast cancer: A new frontier in the regulation of tumorigenesis , 2021, Journal of cellular physiology.
[48] Fen Fu,et al. MiR-200b is upregulated in plasma-derived exosomes and functions as an oncogene by promoting macrophage M2 polarization in ovarian cancer , 2021, Journal of Ovarian Research.
[49] C. Bailly,et al. Soluble Programmed Death Ligand-1 (sPD-L1): A Pool of Circulating Proteins Implicated in Health and Diseases , 2021, Cancers.
[50] G. Sethi,et al. Paradoxical functions of long noncoding RNAs in modulating STAT3 signaling pathway in hepatocellular carcinoma. , 2021, Biochimica et biophysica acta. Reviews on cancer.
[51] Jessica L. Christenson,et al. MicroRNA-200c restoration reveals a cytokine profile to enhance M1 macrophage polarization in breast cancer , 2021, NPJ breast cancer.
[52] Shu Yang,et al. Circ_0084615 is an oncogenic circular RNA in colorectal cancer and promotes DNMT3A expression via repressing miR-599. , 2021, Pathology, research and practice.
[53] G. Sethi,et al. A comprehensive review of the multifaceted role of the microbiota in human pancreatic carcinoma. , 2021, Seminars in cancer biology.
[54] Bing Hu,et al. LINC00467 Promotes Prostate Cancer Progression via M2 Macrophage Polarization and the miR-494-3p/STAT3 Axis , 2021, Frontiers in Oncology.
[55] Jin-huan Xu,et al. Circ_0009910 shuttled by exosomes regulates proliferation, cell cycle and apoptosis of acute myeloid leukemia cells by regulating miR‐5195‐3p/GRB10 axis , 2021, Hematological oncology.
[56] Michael R Hamblin,et al. Interplay between SOX9 transcription factor and microRNAs in cancer. , 2021, International journal of biological macromolecules.
[57] R. Xiang,et al. Cancer-derived exosomal miR-138-5p modulates polarization of tumor-associated macrophages through inhibition of KDM6B , 2021, Theranostics.
[58] Jing Yi,et al. SENP3 loss promotes M2 macrophage polarization and breast cancer progression , 2021, Molecular oncology.
[59] Yongbing Chen,et al. M2 macrophage-derived exosomal long non-coding RNA AGAP2-AS1 enhances radiotherapy immunity in lung cancer by reducing microRNA-296 and elevating NOTCH2 , 2021, Cell Death & Disease.
[60] Hongwei Li,et al. Macrophage-Derived Exosomal miR-31-5p Promotes Oral Squamous Cell Carcinoma Tumourigenesis Through the Large Tumor Suppressor 2-Mediated Hippo Signalling Pathway. , 2021, Journal of biomedical nanotechnology.
[61] Chih-Yang Huang,et al. Hsa-miR-107 regulates chemosensitivity and inhibits tumor growth in hepatocellular carcinoma cells , 2021, Aging.
[62] A. Mehta,et al. Macrophage Biology and Mechanisms of Immune Suppression in Breast Cancer , 2021, Frontiers in Immunology.
[63] P. Marcato,et al. LncRNA-miRNA axes in breast cancer: Novel points of interaction for strategic attack. , 2021, Cancer letters.
[64] G. Sethi,et al. Regulation of Nuclear Factor-KappaB (NF-κB) signaling pathway by non-coding RNAs in cancer: Inhibiting or promoting carcinogenesis? , 2021, Cancer letters.
[65] Jiamei Yang,et al. miR-93 regulates liver tumor initiating cells expansion and predicts chemotherapeutic response of patients. , 2021, Archives of biochemistry and biophysics.
[66] Wence Zhou,et al. miR‐365 secreted from M2 Macrophage‐derived extracellular vesicles promotes pancreatic ductal adenocarcinoma progression through the BTG2/FAK/AKT axis , 2021, Journal of cellular and molecular medicine.
[67] T. Tan,et al. Cytoskeletal Dynamics in Epithelial-Mesenchymal Transition: Insights into Therapeutic Targets for Cancer Metastasis , 2021, Cancers.
[68] Wei Wang,et al. Macrophages-derived exosomal lncRNA LIFR-AS1 promotes osteosarcoma cell progression via miR-29a/NFIA axis , 2021, Cancer cell international.
[69] M. Ashrafizadeh,et al. Employing siRNA tool and its delivery platforms in suppressing cisplatin resistance: Approaching to a new era of cancer chemotherapy. , 2021, Life sciences.
[70] W. Lv,et al. CircRNA_100395 Carried by Exosomes From Adipose-Derived Mesenchymal Stem Cells Inhibits the Malignant Transformation of Non-Small Cell Lung Carcinoma Through the miR-141-3p-LATS2 Axis , 2021, Frontiers in Cell and Developmental Biology.
[71] M. Ashrafizadeh,et al. Nrf2 signaling pathway in cisplatin chemotherapy: Potential involvement in organ protection and chemoresistance. , 2021, Pharmacological research.
[72] Michael R Hamblin,et al. Long non-coding RNA in the doxorubicin resistance of cancer cells. , 2021, Cancer letters.
[73] Henry W. Long,et al. EZH2 inhibition activates a dsRNA–STING–interferon stress axis that potentiates response to PD-1 checkpoint blockade in prostate cancer , 2021, Nature Cancer.
[74] Chenyang Han,et al. The mechanism of lncRNA‐CRNDE in regulating tumour‐associated macrophage M2 polarization and promoting tumour angiogenesis , 2021, Journal of cellular and molecular medicine.
[75] San-Gang Wu,et al. Identification of MEG8/miR‐378d/SOBP axis as a novel regulatory network and associated with immune infiltrates in ovarian carcinoma by integrated bioinformatics analysis , 2021, Cancer medicine.
[76] Yun Feng,et al. miR-369 inhibits Liver Cancer progression by targeting ZEB1 pathway and predicts the prognosis of HCC patients , 2021, Journal of Cancer.
[77] J. Y. Lee,et al. Exosomal miR-1305 in the oncogenic activity of hypoxic multiple myeloma cells: a biomarker for predicting prognosis , 2021, Journal of Cancer.
[78] Shahid Hussain,et al. The role of exosomes derived miRNAs in cancer. , 2021, JPMA. The Journal of the Pakistan Medical Association.
[79] Christine E. Brown,et al. Harnessing and Enhancing Macrophage Phagocytosis for Cancer Therapy , 2021, Frontiers in Immunology.
[80] Ligang Chen,et al. ceRNA Network Analysis Shows That lncRNA CRNDE Promotes Progression of Glioblastoma Through Sponge mir-9-5p , 2021, Frontiers in Genetics.
[81] P. Gissen,et al. Clinical applications for exosomes: Are we there yet? , 2021, British journal of pharmacology.
[82] Aimin Li,et al. MiR-452-5p promotes colorectal cancer progression by regulating an ERK/MAPK positive feedback loop , 2021, Aging.
[83] Michael R Hamblin,et al. The role of SOX family transcription factors in gastric cancer. , 2021, International journal of biological macromolecules.
[84] M. Ashrafizadeh,et al. Nrf2 Signaling Pathway in Chemoprotection and Doxorubicin Resistance: Potential Application in Drug Discovery , 2021, Antioxidants.
[85] Yu Song,et al. MSC-derived exosomal lncRNA SNHG7 suppresses endothelial-mesenchymal transition and tube formation in diabetic retinopathy via miR-34a-5p/XBP1 axis. , 2021, Life sciences.
[86] Xinxiang Li,et al. Invited review article: Cancer letters long non-coding RNAs in colorectal cancer: Novel oncogenic mechanisms and promising clinical applications. , 2021, Cancer letters.
[87] A. Singh,et al. Long non-coding RNA regulating androgen receptor signaling in breast and prostate cancer. , 2021, Cancer letters.
[88] Min Zhang,et al. lncRNA XIST regulates cell proliferation, migration and invasion via regulating miR-30b and RECK in nasopharyngeal carcinoma , 2021, Oncology letters.
[89] Lei Wu,et al. Circular RNA hsa_circ_0009172 suppresses gastric cancer by regulation of microRNA-485-3p-mediated NTRK3 , 2021, Cancer Gene Therapy.
[90] M. Ashrafizadeh,et al. Crosstalk of long non-coding RNAs and EMT: Searching the missing pieces of an incomplete puzzle for lung cancer therapy. , 2021, Current cancer drug targets.
[91] Wenli Zhou,et al. LncRNA HLA-F-AS1 promotes colorectal cancer metastasis by inducing PFN1 in colorectal cancer-derived extracellular vesicles and mediating macrophage polarization , 2021, Cancer Gene Therapy.
[92] M. Ashrafizadeh,et al. Small in Size, but Large in Action: microRNAs as Potential Modulators of PTEN in Breast and Lung Cancers , 2021, Biomolecules.
[93] Xiangcai Zou,et al. Exosomal circ_IFT80 Enhances Tumorigenesis and Suppresses Radiosensitivity in Colorectal Cancer by Regulating miR-296-5p/MSI1 Axis , 2021, Cancer management and research.
[94] Xudong Yin,et al. Circular RNA circ_103820 suppresses lung cancer tumorigenesis by sponging miR-200b-3p to release LATS2 and SOCS6 , 2021, Cell Death & Disease.
[95] J. Ji,et al. Long Non-Coding RNA PCAT6 Induces M2 Polarization of Macrophages in Cholangiocarcinoma via Modulating miR-326 and RhoA-ROCK Signaling Pathway , 2021, Frontiers in Oncology.
[96] Qiwei Yang,et al. Circular RNAs: Expression, Localization, and Therapeutic Potentials. , 2021, Molecular therapy : the journal of the American Society of Gene Therapy.
[97] Bingqiang Ma,et al. miR-365 inhibits the progression of gallbladder carcinoma and predicts the prognosis of Gallbladder carcinoma patients , 2021, Cell cycle.
[98] M. Grounds,et al. Macrophage function in the elderly and impact on injury repair and cancer , 2021, Immunity & Ageing.
[99] Hamed Haghi-Aminjan,et al. Synergic effects of nanoparticles-mediated hyperthermia in radiotherapy/chemotherapy of cancer. , 2021, Life sciences.
[100] Yaping Tang,et al. Exosomal LncRNA LINC00659 transferred from cancer-associated fibroblasts promotes colorectal cancer cell progression via miR-342-3p/ANXA2 axis , 2021, Journal of translational medicine.
[101] Michael R Hamblin,et al. The role of microRNA-338-3p in cancer: growth, invasion, chemoresistance, and mediators. , 2021, Life sciences.
[102] K. Ahn,et al. Dual relationship between long non-coding RNAs and STAT3 signaling in different cancers: New insight to proliferation and metastasis. , 2021, Life sciences.
[103] Qilong Zhao,et al. Circular RNA circ_0020123 Promotes Non-Small Cell Lung Cancer Progression Through miR-384/TRIM44 Axis , 2021, Cancer management and research.
[104] Bo Zhang,et al. Circular RNA in pancreatic cancer: a novel avenue for the roles of diagnosis and treatment , 2021, Theranostics.
[105] Feng Xue,et al. Circular RNA CircCDYL Regulates Proliferation and Apoptosis in Non-Small Cell Lung Cancer Cells by Sponging miR-185-5p and Upregulating TNRC6A , 2021, Cancer management and research.
[106] J. Fournié,et al. Cancer Cells Resistance Shaping by Tumor Infiltrating Myeloid Cells , 2021, Cancers.
[107] Meng Ding,et al. LncRNA LINC00511 Acts as an Oncogene in Colorectal Cancer via Sponging miR-29c-3p to Upregulate NFIA , 2021, OncoTargets and therapy.
[108] M. Datta,et al. LncRNAs in cancer: Regulatory and therapeutic implications. , 2020, Cancer letters.
[109] Shanchun Guo,et al. TRPM7 Induces Tumorigenesis and Stemness Through Notch Activation in Glioma , 2020, Frontiers in Pharmacology.
[110] Jiong Wu,et al. FOXM1D potentiates PKM2‐mediated tumor glycolysis and angiogenesis , 2020, Molecular oncology.
[111] V. Adam,et al. The role of hypoxia‐inducible factor 1 in tumor immune evasion , 2020, Medicinal research reviews.
[112] Jia Bi,et al. lncRNA-Xist/miR-101-3p/KLF6/C/EBPα axis promotes TAM polarization to regulate cancer cell proliferation and migration , 2020, Molecular therapy. Nucleic acids.
[113] M. Ashrafizadeh,et al. Lung cancer cells and their sensitivity/resistance to cisplatin chemotherapy: Role of microRNAs and upstream mediators. , 2020, Cellular signalling.
[114] R. Bai,et al. Tumor‐Associated Macrophage and Tumor‐Cell Dually Transfecting Polyplexes for Efficient Interleukin‐12 Cancer Gene Therapy , 2020, Advanced materials.
[115] H. Moses,et al. Soluble VCAM-1 promotes gemcitabine resistance via macrophage infiltration and predicts therapeutic response in pancreatic cancer , 2020, Scientific Reports.
[116] Hong-yan Li,et al. RETRACTED ARTICLE: M1 Macrophage-Derived Exosomal MicroRNA-326 Suppresses Hepatocellular Carcinoma Cell Progression Via Mediating NF-κB Signaling Pathway , 2020, Nanoscale Research Letters.
[117] R. Cui,et al. Glycometabolic rearrangements--aerobic glycolysis in pancreatic cancer: causes, characteristics and clinical applications , 2020, Journal of Experimental & Clinical Cancer Research.
[118] Q. Guo,et al. Forkhead Box Q1 Is Critical to Angiogenesis and Macrophage Recruitment of Colorectal Cancer , 2020, Frontiers in Oncology.
[119] Li Fan,et al. Oncogenic miR-27a delivered by exosomes binds to SFRP1 and promotes angiogenesis in renal clear cell carcinoma , 2020, Molecular therapy. Nucleic acids.
[120] M. Bandehpour,et al. Exosome-mediated miR-33 transfer induces M1 polarization in mouse macrophages and exerts antitumor effect in 4T1 breast cancer cell line. , 2020, International immunopharmacology.
[121] Huijie Gao,et al. Exosomal Transfer of Macrophage-Derived miR-223 Confers Doxorubicin Resistance in Gastric Cancer , 2020, OncoTargets and therapy.
[122] B. Xia,et al. Long non-coding RNAs: Emerging regulators for chemo/immunotherapy resistance in cancer stem cells. , 2020, Cancer letters.
[123] S. Hewitt,et al. Tumor-associated macrophage, angiogenesis and lymphangiogenesis markers predict prognosis of non-small cell lung cancer patients , 2020, Journal of translational medicine.
[124] Xiaokun Zhao,et al. The long noncoding RNA LINC01140/miR-140-5p/FGF9 axis modulates bladder cancer cell aggressiveness and macrophage M2 polarization , 2020, Aging.
[125] Jiani Chen,et al. Hypoxia Correlates With Poor Survival and M2 Macrophage Infiltration in Colorectal Cancer , 2020, Frontiers in Oncology.
[126] Xinxiang Li,et al. Tumor-derived exosomal miR-934 induces macrophage M2 polarization to promote liver metastasis of colorectal cancer , 2020, Journal of Hematology & Oncology.
[127] Xuesen Dong,et al. Perspectives on Circular RNAs as Prostate Cancer Biomarkers , 2020, Frontiers in Cell and Developmental Biology.
[128] B. Goh,et al. The double-edged sword of H19 lncRNA: Insights into cancer therapy. , 2020, Cancer letters.
[129] B. Goh,et al. Targeting HIF-1-mediated Metastasis for Cancer Therapy. , 2020, Antioxidants & redox signaling.
[130] M. Najafi,et al. Immune system in cancer radiotherapy: Resistance mechanisms and therapy perspectives. , 2020, Critical reviews in oncology/hematology.
[131] Wei Zhao,et al. Long non‐coding RNA GAS5 overexpression inhibits M2‐like polarization of tumour‐associated macrophages in SMCC‐7721 cells by promoting PTEN expression , 2020, International journal of experimental pathology.
[132] A. Psyrri,et al. Tumor Microenvironment and Immunotherapy Response in Head and Neck Cancer , 2020, Cancers.
[133] Shoujun Bai,et al. Exosomal circ_DLGAP4 promotes diabetic kidney disease progression by sponging miR-143 and targeting ERBB3/NF-κB/MMP-2 axis , 2020, Cell Death & Disease.
[134] M. Ashrafizadeh,et al. Polychemotherapy with Curcumin and Doxorubicin via Biological Nanoplatforms: Enhancing Antitumor Activity , 2020, Pharmaceutics.
[135] Xuemei Ji,et al. Tumor necrosis factor α inhibition overcomes immunosuppressive M2b macrophage-induced bevacizumab resistance in triple-negative breast cancer , 2020, Cell Death & Disease.
[136] Hai-Tao Wu,et al. Exosomal lncRNA ROR1-AS1 Derived from Tumor Cells Promotes Glioma Progression via Regulating miR-4686 , 2020, International journal of nanomedicine.
[137] E. Sverdlov,et al. Expression of EMT-Related Genes in Hybrid E/M Colorectal Cancer Cells Determines Fibroblast Activation and Collagen Remodeling , 2020, International journal of molecular sciences.
[138] Xiaowei Wang,et al. Exosomal lncRNA HEIH promotes cisplatin resistance in tongue squamous cell carcinoma via targeting miR-3619-5p/HDGF axis. , 2020, Acta histochemica.
[139] Juan-Ying Xu,et al. Circ_0001421 facilitates glycolysis and lung cancer development by regulating miR-4677-3p/CDCA3 , 2020, Diagnostic Pathology.
[140] M. Ashrafizadeh,et al. MicroRNA-mediated autophagy regulation in cancer therapy: The role in chemoresistance/chemosensitivity. , 2020, European journal of pharmacology.
[141] X. Yang,et al. ALKBH5 Inhibited Cell Proliferation and Sensitized Bladder Cancer Cells to Cisplatin by m6A-CK2α-Mediated Glycolysis , 2020, Molecular therapy. Nucleic acids.
[142] Xiaoyuan Chen,et al. Activating Macrophage‐Mediated Cancer Immunotherapy by Genetically Edited Nanoparticles , 2020, Advanced materials.
[143] Fachao Zhi,et al. M2 macrophage-derived exosomal-miR-590-3p attenuates DSS-induced mucosal damage and promotes epithelial repair via the LATS1/YAP/β-catenin signalling axis. , 2020, Journal of Crohn's & colitis.
[144] Li-Long Pan,et al. Glutathione S-transferases P1-mediated interleukin-6 in tumor-associated macrophages augments drug-resistance in MCF-7 breast cancer. , 2020, Biochemical pharmacology.
[145] C. Lutz,et al. miR-708-5p enhances erlotinib/paclitaxel efficacy and overcomes chemoresistance in lung cancer cells , 2020, Oncotarget.
[146] M. Ashrafizadeh,et al. Apigenin as Tumor Suppressor in Cancers: Biotherapeutic Activity, Nanodelivery, and Mechanisms With Emphasis on Pancreatic Cancer , 2020, Frontiers in Chemistry.
[147] G. Sethi,et al. Pharmacological significance of the non-canonical NF-κB pathway in tumorigenesis. , 2020, Biochimica et biophysica acta. Reviews on cancer.
[148] Ge-fei Guan,et al. Profiling pro-neural to mesenchymal transition identifies a lncRNA signature in glioma , 2020, Journal of translational medicine.
[149] Jian Sun,et al. PRKAR2B‐HIF‐1α loop promotes aerobic glycolysis and tumour growth in prostate cancer , 2020, Cell proliferation.
[150] Kazuhiro Yoshida,et al. M1 Macrophage and M1/M2 ratio defined by transcriptomic signatures resemble only part of their conventional clinical characteristics in breast cancer , 2020, Scientific Reports.
[151] J. Meyerhardt,et al. The Prognostic Role of Macrophage Polarization in the Colorectal Cancer Microenvironment , 2020, Cancer Immunology Research.
[152] Ming Liu,et al. M2 Macrophage-Derived Exosomal lncRNA AFAP1-AS1 and MicroRNA-26a Affect Cell Migration and Metastasis in Esophageal Cancer , 2020, Molecular therapy. Nucleic acids.
[153] H. Cui,et al. LncRNA LINC01116 Promotes the Development of Colorectal Cancer by Targeting miR-9-5p/STMN1 , 2020, OncoTargets and therapy.
[154] W. Xiao,et al. The Tumor-Associated Macrophage-M2-Cancer Cell Complex and the Observation of Heterogeneous Modification of the Morphological Structure of Lung Adenocarcinoma , 2020, OncoTargets and therapy.
[155] R. Xiang,et al. Mouse 4T1 Breast Cancer Cell–Derived Exosomes Induce Proinflammatory Cytokine Production in Macrophages via miR-183 , 2020, The Journal of Immunology.
[156] A. Griffioen,et al. Oncometabolites lactate and succinate drive pro-angiogenic macrophage response in tumors. , 2020, Biochimica et biophysica acta. Reviews on cancer.
[157] Fan Lin,et al. Seven-Gene Signature Based on Glycolysis Is Closely Related to the Prognosis and Tumor Immune Infiltration of Patients With Gastric Cancer , 2020, Frontiers in Oncology.
[158] Q. Xue,et al. Blocking P2X7-Mediated Macrophage Polarization Overcomes Treatment Resistance in Lung Cancer , 2020, Cancer Immunology Research.
[159] M. Ashrafizadeh,et al. Sensing the scent of death: Modulation of microRNAs by curcumin in gastrointestinal cancers. , 2020, Pharmacological research.
[160] M. Qian,et al. Long non-coding RNA SNHG12 promotes immune escape of ovarian cancer cells through their crosstalk with M2 macrophages , 2020, Aging.
[161] Yan Zhao,et al. CtBP1 promotes tumour‐associated macrophage infiltration and progression in non–small‐cell lung cancer , 2020, Journal of cellular and molecular medicine.
[162] L. Mao,et al. Circular RNA Circ_0000442 Acts as a Sponge of MiR-148b-3p to Suppress Breast Cancer via PTEN/PI3K/Akt Signaling Pathway. , 2020, Gene.
[163] Tetsuya Yamamoto,et al. Macrophage-derived exosomes attenuate the susceptibility of oral squamous cell carcinoma cells to chemotherapeutic drugs through the AKT/GSK-3β pathway , 2020, Oncology reports.
[164] Hongmei Zhou,et al. Macrophage-derived exosomes in cancers: Biogenesis, functions and therapeutic applications. , 2020, Immunology letters.
[165] Z. Asemi,et al. Circular RNAs as diagnostic biomarker in pancreatic cancer. , 2020, Pathology, research and practice.
[166] L. A. Al Kury,et al. Resveratrol and Tumor Microenvironment: Mechanistic Basis and Therapeutic Targets , 2020, Molecules.
[167] Kehao Le,et al. M2 macrophage-induced lncRNA PCAT6 facilitates tumorigenesis and angiogenesis of triple-negative breast cancer through modulation of VEGFR2 , 2020, Cell Death & Disease.
[168] Da-Li Sun,et al. LncRNA MCM3AP-AS1 Upregulates CDK4 by Sponging miR-545 to Suppress G1 Arrest in Colorectal Cancer , 2020, Cancer management and research.
[169] J. Pérez-Morales,et al. Zoledronic Acid Abrogates Restraint Stress-Induced Macrophage Infiltration, PDGF-AA Expression, and Ovarian Cancer Growth , 2020, Cancers.
[170] Guanghua Chen,et al. miR-148a Affects Polarization of THP-1-Derived Macrophages and Reduces Recruitment of Tumor-Associated Macrophages via Targeting SIRPα , 2020, Cancer management and research.
[171] G. Sethi,et al. The implication of long non-coding RNAs in the diagnosis, pathogenesis and drug resistance of pancreatic ductal adenocarcinoma and their possible therapeutic potential. , 2020, Biochimica et biophysica acta. Reviews on cancer.
[172] Yue Zhang,et al. Lnc-FAM84B-4 acts as an oncogenic lncRNA by interacting with protein hnRNPK to restrain MAPK phosphatases-DUSP1 expression. , 2020, Cancer letters.
[173] Jian Liu,et al. LncRNA HOTTIP promotes the proliferation and invasion of ovarian cancer cells by activating the MEK/ERK pathway , 2020, Molecular medicine reports.
[174] Yibin Kang,et al. E-cigarette promotes breast carcinoma progression and lung metastasis: Macrophage-tumor cells crosstalk and the role of CCL5 and VCAM-1. , 2020, Cancer letters.
[175] Liangcai Zhao,et al. S100A2 promotes glycolysis and proliferation via GLUT1 regulation in colorectal cancer , 2020, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.
[176] Xiaohui Fang,et al. Exosomal lncRNA UCA1 from cancer‐associated fibroblasts enhances chemoresistance in vulvar squamous cell carcinoma cells , 2020, The journal of obstetrics and gynaecology research.
[177] M. Ashrafizadeh,et al. Cancer and SOX proteins: New insight into their role in ovarian cancer progression/inhibition. , 2020, Pharmacological research.
[178] Roshini Sathiaseelan,et al. Long non-coding RNA FENDRR regulates IFNγ-induced M1 phenotype in macrophages , 2020, Scientific Reports.
[179] W. Xing,et al. HDAC2 inhibits EMT-mediated cancer metastasis by downregulating the long noncoding RNA H19 in colorectal cancer , 2020, Journal of Experimental & Clinical Cancer Research.
[180] Miao Zhang,et al. LncRNA AY343892 inhibits breast cancer development by positively regulating BRCA1-mediated transcription of PTEN. , 2020, Histology and histopathology.
[181] M. Ashrafizadeh,et al. PTEN, a Barrier for Proliferation and Metastasis of Gastric Cancer Cells: From Molecular Pathways to Targeting and Regulation , 2020, Biomedicines.
[182] M. Akbari,et al. Role of microRNA/Epithelial-to-Mesenchymal Transition Axis in the Metastasis of Bladder Cancer , 2020, Biomolecules.
[183] Ying Huang,et al. Long non-coding RNA FAM83H-AS1 acts as a potential oncogenic driver in human ovarian cancer , 2020, Journal of Ovarian Research.
[184] Aimin Li,et al. The DDX39B/FUT3/TGFβR-I axis promotes tumor metastasis and EMT in colorectal cancer , 2020, Cell death & disease.
[185] M. Ashrafizadeh,et al. The interactions and communications in tumor resistance to radiotherapy: Therapy perspectives. , 2020, International immunopharmacology.
[186] X. Zhang,et al. EZH2-mediated Epigenetic Silencing of miR-29/miR-30 targets LOXL4 and contributes to Tumorigenesis, Metastasis, and Immune Microenvironment Remodeling in Breast Cancer , 2020, Theranostics.
[187] Santoshi Muppala,et al. Hyperglycemia-Induced miR-467 Drives Tumor Inflammation and Growth in Breast Cancer , 2020, bioRxiv.
[188] R. Mohammadinejad,et al. MicroRNAs and Their Influence on the ZEB Family: Mechanistic Aspects and Therapeutic Applications in Cancer Therapy , 2020, Biomolecules.
[189] Steven H. Lin,et al. Cancer associated macrophage-like cells and prognosis of esophageal cancer after chemoradiation therapy , 2020, Journal of Translational Medicine.
[190] Ting Huang,et al. Macrophages confer resistance to BET inhibition in triple-negative breast cancer by upregulating IKBKE. , 2020, Biochemical pharmacology.
[191] M. Ashrafizadeh,et al. MicroRNAs in cancer therapy: Their involvement in oxaliplatin sensitivity/resistance of cancer cells with a focus on colorectal cancer. , 2020, Life sciences.
[192] C. Hong,et al. Extracellular vesicles derived from macrophage promote angiogenesis In vitro and accelerate new vasculature formation In vivo. , 2020, Experimental cell research.
[193] Zhiyang Zhou,et al. LncRNA GNAS-AS1 facilitates ER+ breast cancer cells progression by promoting M2 macrophage polarization via regulating miR-433-3p/GATA3 axis , 2020, Bioscience reports.
[194] S. Nagashima,et al. IL-4/IL-13 remodeling pathway of COVID-19 lung injury , 2020, Scientific Reports.
[195] David T. W. Tzeng,et al. Ovatodiolide, isolated from Anisomeles indica, suppresses bladder carcinogenesis through suppression of mTOR/β-catenin/CDK6 and exosomal miR-21 derived from M2 tumor-associated macrophages. , 2020, Toxicology and applied pharmacology.
[196] M. Ashrafizadeh,et al. Dual role of quercetin in enhancing the efficacy of cisplatin in chemotherapy and protection against its side effects: a review , 2020, Archives of physiology and biochemistry.
[197] M. Ashrafizadeh,et al. Abscopal effect in radioimmunotherapy. , 2020, International immunopharmacology.
[198] M. Ashrafizadeh,et al. PD-1/PD-L1 axis regulation in cancer therapy: The role of long non-coding RNAs and microRNAs. , 2020, Life sciences.
[199] Ju Zhang,et al. The STAT3‐miR‐223‐TGFBR3/HMGCS1 axis modulates the progression of cervical carcinoma , 2020, Molecular oncology.
[200] Shan Liao,et al. Epstein-Barr virus-encoded miR-BART11 promotes tumor-associated macrophage-induced epithelial-mesenchymal transition via targeting FOXP1 in gastric cancer. , 2020, Virology.
[201] G. Sethi,et al. Mechanistic Involvement of Long Non-Coding RNAs in Oncotherapeutics Resistance in Triple-Negative Breast Cancer , 2020, Cells.
[202] G. Sethi,et al. Association of the Epithelial–Mesenchymal Transition (EMT) with Cisplatin Resistance , 2020, International journal of molecular sciences.
[203] Z. Yao,et al. Restoration of miR-340 controls pancreatic cancer cell CD47 expression to promote macrophage phagocytosis and enhance antitumor immunity , 2020, Journal for immunotherapy of cancer.
[204] M. Ashrafizadeh,et al. PTEN: What we know of the function and regulation of this onco-suppressor factor in bladder cancer? , 2020, European journal of pharmacology.
[205] W. Liang,et al. Research progress of tumor microenvironment and tumor-associated macrophages , 2020, Clinical and Translational Oncology.
[206] Jing Liu,et al. Emerging Role of Circular RNAs in Cancer , 2020, Frontiers in Oncology.
[207] Wei Zhao,et al. Let-7d inhibits intratumoral macrophage M2 polarization and subsequent tumor angiogenesis by targeting IL-13 and IL-10 , 2020, Cancer Immunology, Immunotherapy.
[208] Xiaoyan Li,et al. LncRNA BCRT1 promotes breast cancer progression by targeting miR-1303/PTBP3 axis , 2020, Molecular Cancer.
[209] G. Ying,et al. TM4SF1 promotes EMT and cancer stemness via Wnt/β-catenin/SOX2 pathway in colorectal cancer , 2020 .
[210] Lu Guo,et al. UTMD inhibit EMT of breast cancer through the ROS/miR-200c/ZEB1 axis , 2020, Scientific Reports.
[211] Chuanzhao Zhang,et al. Down‐regulated lncRNA SBF2‐AS1 in M2 macrophage‐derived exosomes elevates miR‐122‐5p to restrict XIAP, thereby limiting pancreatic cancer development , 2020, Journal of cellular and molecular medicine.
[212] M. Ashrafizadeh,et al. Targeting of cellular redox metabolism for mitigation of radiation injury. , 2020, Life sciences.
[213] Xiaobo Zhou,et al. MiR-4458/human antigen R (HuR) modulates PBX3 mRNA stability in melanoma tumorigenesis , 2020, Archives of Dermatological Research.
[214] Fei Xie,et al. The clinical prognostic value of lncRNA FAM83H-AS1 in cancer patients: a meta-analysis , 2020, Cancer Cell International.
[215] Lanlan Wei,et al. HPV+ HNSCC-Derived Exosomal miR-9 Induces Macrophage M1 Polarization and Increases Tumor Radiosensitivity. , 2020, Cancer letters.
[216] K. Mäder,et al. Melanoma-Derived Exosomal miR-125b-5p Educates Tumor Associated Macrophages (TAMs) by Targeting Lysosomal Acid Lipase A (LIPA) , 2020, Cancers.
[217] A. Mantovani,et al. Diversity, Mechanisms, and Significance of Macrophage Plasticity. , 2020, Annual review of pathology.
[218] D. Klionsky,et al. Autophagy-dependent ferroptosis drives tumor-associated macrophage polarization via release and uptake of oncogenic KRAS protein , 2020, Autophagy.
[219] Monilola A. Olayioye,et al. miR-149 suppresses breast cancer metastasis by blocking paracrine interactions with macrophages. , 2020, Cancer research.
[220] Ling Lin,et al. Circular RNA circ‐EGLN3 promotes renal cell carcinoma proliferation and aggressiveness via miR‐1299‐mediated IRF7 activation , 2020, Journal of cellular biochemistry.
[221] Xiaoping Zhang,et al. LncRNA RP11-361F15.2 promotes osteosarcoma tumorigenesis by inhibiting M2-Like Polarization of Tumor-Associated Macrophages of CPEB4. , 2020, Cancer letters.
[222] A. McCann,et al. Exosomes in Triple Negative Breast Cancer: Garbage Disposals or Trojan Horses? , 2020, Cancer letters.
[223] Wei Wang,et al. LncRNA SNHG4 regulates miR-10a/PTEN to inhibit the proliferation of acute myeloid leukemia cells , 2020, Hematology.
[224] Yanyan Guo,et al. LncRNA ANCR Promotes Invasion and Migration of Gastric Cancer by Regulating FoxO1 Expression to Inhibit Macrophage M1 Polarization , 2020, Digestive Diseases and Sciences.
[225] G. Sethi,et al. The Emerging Role of Long Non-Coding RNAs in the Metastasis of Hepatocellular Carcinoma , 2019, Biomolecules.
[226] Jing Luo,et al. EZH2 enhances expression of CCL5 to promote recruitment of macrophages and invasion in lung cancer , 2019, Biotechnology and applied biochemistry.
[227] Chung-Pei Li,et al. miR-200c/PAI-2 promotes the progression of triple negative breast cancer via M1/M2 polarization induction of macrophage. , 2019, International immunopharmacology.
[228] G. Sethi,et al. Farnesol abrogates epithelial to mesenchymal transition process through regulating Akt/mTOR pathway. , 2019, Pharmacological research.
[229] S. Zahler,et al. Inducible microRNA-200c decreases motility of breast cancer cells and reduces filamin A , 2019, PloS one.
[230] Y. Reshetnyak,et al. Suppressing miR-21 activity in tumor-associated macrophages promotes an antitumor immune response , 2019, The Journal of clinical investigation.
[231] Z. Hou,et al. Long Non-coding RNA MALAT1 Promotes Angiogenesis and Immunosuppressive Properties of HCC Cells by sponging miR-140. , 2019, American journal of physiology. Cell physiology.
[232] D. Xie,et al. LncRNA RPPH1 promotes colorectal cancer metastasis by interacting with TUBB3 and by promoting exosomes-mediated macrophage M2 polarization , 2019, Cell Death & Disease.
[233] Yuan Yuan,et al. CircRNAs and its relationship with gastric cancer , 2019, Journal of Cancer.
[234] Yanbin Sun,et al. TCF-4 Regulated lncRNA-XIST Promotes M2 Polarization Of Macrophages And Is Associated With Lung Cancer , 2019, OncoTargets and therapy.
[235] Mengzhong Liu,et al. Long noncoding RNA LINC02582 acts downstream of miR-200c to promote radioresistance through CHK1 in breast cancer cells , 2019, Cell Death & Disease.
[236] G. Sethi,et al. Insights into Biological Role of LncRNAs in Epithelial-Mesenchymal Transition , 2019, Cells.
[237] Q. Fu,et al. LncRNA NR2F2-AS1 positively regulates CDK4 to promote cancer cell proliferation in prostate carcinoma , 2019, The aging male : the official journal of the International Society for the Study of the Aging Male.
[238] Hailin Tang,et al. The Role of Circular RNA CDR1as/ciRS-7 in Regulating Tumor Microenvironment: A Pan-Cancer Analysis , 2019, Biomolecules.
[239] Qi Zhang,et al. NF-κB inhibitor, BAY11-7082, suppresses M2 tumor-associated macrophage induced EMT potential via miR-30a/NF-κB/Snail signaling in bladder cancer cells. , 2019, Gene.
[240] Huiyin Lan,et al. Tumor-associated macrophages in tumor metastasis: biological roles and clinical therapeutic applications , 2019, Journal of Hematology & Oncology.
[241] Xinhua Jiang,et al. Metformin mediates induction of miR‐708 to inhibit self‐renewal and chemoresistance of breast cancer stem cells through targeting CD47 , 2019, Journal of cellular and molecular medicine.
[242] D. Xie,et al. GNAS-AS1/miR-4319/NECAB3 axis promotes migration and invasion of non-small cell lung cancer cells by altering macrophage polarization , 2019, Functional & Integrative Genomics.
[243] F. Wang,et al. Endoplasmic Reticulum Stress Causes Liver Cancer Cells to Release Exosomal miR‐23a‐3p and Up‐regulate Programmed Death Ligand 1 Expression in Macrophages , 2019, Hepatology.
[244] C. Lutz,et al. miR‐146a‐5p: Expression, regulation, and functions in cancer , 2019, Wiley interdisciplinary reviews. RNA.
[245] Hui Xie,et al. M2-like tumor-associated macrophages-secreted EGF promotes epithelial ovarian cancer metastasis via activating EGFR-ERK signaling and suppressing lncRNA LIMT expression , 2019, Cancer biology & therapy.
[246] Shuhao Zhu,et al. MiR-217 Inhibits M2-Like Macrophage Polarization by Suppressing Secretion of Interleukin-6 in Ovarian Cancer , 2019, Inflammation.
[247] Dongqing Xu,et al. SALL4-mediated upregulation of exosomal miR-146a-5p drives T-cell exhaustion by M2 tumor-associated macrophages in HCC , 2019, Oncoimmunology.
[248] F. Su,et al. Extracellular vesicle-packaged HIF-1α-stabilizing lncRNA from tumour-associated macrophages regulates aerobic glycolysis of breast cancer cells , 2019, Nature Cell Biology.
[249] G. Sethi,et al. Brassinin Represses Invasive Potential of Lung Carcinoma Cells through Deactivation of PI3K/Akt/mTOR Signaling Cascade , 2019, Molecules.
[250] H. Hsu,et al. MCT-1/miR-34a/IL-6/IL-6R signaling axis promotes EMT progression, cancer stemness and M2 macrophage polarization in triple-negative breast cancer , 2019, Molecular Cancer.
[251] G. Sethi,et al. The expanding roles of long non-coding RNAs in the regulation of cancer stem cells. , 2019, The international journal of biochemistry & cell biology.
[252] Shuyi Wang,et al. miR-195-5p/NOTCH2-mediated EMT modulates IL-4 secretion in colorectal cancer to affect M2-like TAM polarization , 2019, Journal of Hematology & Oncology.
[253] Yueqin Liu,et al. Macrophages derived exosomes deliver miR-223 to epithelial ovarian cancer cells to elicit a chemoresistant phenotype , 2019, Journal of experimental & clinical cancer research : CR.
[254] Han-Chow Wang,et al. Extracellular vesicles secreted by hypoxia pre-challenged mesenchymal stem cells promote non-small cell lung cancer cell growth and mobility as well as macrophage M2 polarization via miR-21-5p delivery , 2019, Journal of experimental & clinical cancer research : CR.
[255] G. Sethi,et al. FBXW7 in Cancer: What Has Been Unraveled Thus Far? , 2019, Cancers.
[256] C. Gong,et al. Circular RNA hsa_circ_001783 regulates breast cancer progression via sponging miR-200c-3p , 2019, Cell Death & Disease.
[257] B. Goh,et al. Role of tumor-derived exosomes in cancer metastasis. , 2019, Biochimica et biophysica acta. Reviews on cancer.
[258] Hongchao Zhao,et al. RETRACTED ARTICLE: TGF-β secreted by tumor-associated macrophages promotes proliferation and invasion of colorectal cancer via miR-34a-VEGF axis , 2018, Cell cycle.
[259] R. Huang,et al. Thymoquinone Inhibits Bone Metastasis of Breast Cancer Cells Through Abrogation of the CXCR4 Signaling Axis , 2018, Front. Pharmacol..
[260] G. Sethi,et al. Dysregulation of Nrf2 in Hepatocellular Carcinoma: Role in Cancer Progression and Chemoresistance , 2018, Cancers.
[261] Jie Shen,et al. Long non-coding RNA NIFK-AS1 inhibits M2 polarization of macrophages in endometrial cancer through targeting miR-146a. , 2018, The international journal of biochemistry & cell biology.
[262] J. Pollard,et al. Targeting macrophages: therapeutic approaches in cancer , 2018, Nature Reviews Drug Discovery.
[263] Wenqi Wang,et al. LncRNA CamK-A Regulates Ca2+-Signaling-Mediated Tumor Microenvironment Remodeling. , 2018, Molecular cell.
[264] Yi-Xun Liu,et al. A miR-125b/CSF1-CX3CL1/tumor-associated macrophage recruitment axis controls testicular germ cell tumor growth , 2018, Cell Death & Disease.
[265] T. Du,et al. Long non‐coding RNA CCAT1/miR‐148a/PKCζ prevents cell migration of prostate cancer by altering macrophage polarization , 2018, The Prostate.
[266] G. Sethi,et al. The Role of Signal Transducer and Activator of Transcription 3 (STAT3) and Its Targeted Inhibition in Hematological Malignancies , 2018, Cancers.
[267] G. Sethi,et al. Formononetin-induced oxidative stress abrogates the activation of STAT3/5 signaling axis and suppresses the tumor growth in multiple myeloma preclinical model. , 2018, Cancer letters.
[268] G. Sethi,et al. Novel tumor necrosis factor-α induced protein eight (TNFAIP8/TIPE) family: Functions and downstream targets involved in cancer progression. , 2018, Cancer letters.
[269] G. Sethi,et al. Evidence for the Involvement of the Master Transcription Factor NF-κB in Cancer Initiation and Progression , 2018, Biomedicines.
[270] G. Sethi,et al. Bergamottin Suppresses Metastasis of Lung Cancer Cells through Abrogation of Diverse Oncogenic Signaling Cascades and Epithelial-to-Mesenchymal Transition , 2018, Molecules.
[271] Chen Huang,et al. Hypoxic Tumor-Derived Exosomal miR-301a Mediates M2 Macrophage Polarization via PTEN/PI3Kγ to Promote Pancreatic Cancer Metastasis. , 2018, Cancer research.
[272] G. Sethi,et al. Anti-myeloma Effects of Icariin Are Mediated Through the Attenuation of JAK/STAT3-Dependent Signaling Cascade , 2018, Front. Pharmacol..
[273] Jennifer L. Guerriero. Macrophages: The Road Less Traveled, Changing Anticancer Therapy. , 2018, Trends in molecular medicine.
[274] V. Brod,et al. Function of miR-146a-5p in Tumor Cells As a Regulatory Switch between Cell Death and Angiogenesis: Macrophage Therapy Revisited , 2018, Front. Immunol..
[275] Ning Li,et al. miR‐21a negatively modulates tumor suppressor genes PTEN and miR‐200c and further promotes the transformation of M2 macrophages , 2018, Immunology and cell biology.
[276] T. Tan,et al. ‘Lnc’‐ing Wnt in female reproductive cancers: therapeutic potential of long non‐coding RNAs in Wnt signalling , 2017, British journal of pharmacology.
[277] Ling Ma,et al. LncRNA‐MALAT1 Promotes Angiogenesis of Thyroid Cancer by Modulating Tumor‐Associated Macrophage FGF2 Protein Secretion , 2017, Journal of cellular biochemistry.
[278] T. Shimosegawa,et al. Long non-coding RNA HOTAIR up-regulates chemokine (C-C motif) ligand 2 and promotes proliferation of macrophages and myeloid-derived suppressor cells in hepatocellular carcinoma cell lines. , 2017, Oncology letters.
[279] H. Ibrahim,et al. Enhancing miR‐132 expression by aryl hydrocarbon receptor attenuates tumorigenesis associated with chronic colitis , 2017, International immunopharmacology.
[280] Y. Akao,et al. Regulated Polarization of Tumor-Associated Macrophages by miR-145 via Colorectal Cancer–Derived Extracellular Vesicles , 2017, The Journal of Immunology.
[281] S. Lucas,et al. Reprogramming of Tumor-Associated Macrophages with Anticancer Therapies: Radiotherapy versus Chemo- and Immunotherapies , 2017, Front. Immunol..
[282] T. Kohno,et al. The low expression of miR-451 predicts a worse prognosis in non-small cell lung cancer cases , 2017, PloS one.
[283] G. Sethi,et al. Wanted DEAD/H or Alive: Helicases Winding Up in Cancers , 2017, Journal of the National Cancer Institute.
[284] L. O’Neill,et al. Macrophage Immunometabolism: Where Are We (Going)? , 2017, Trends in immunology.
[285] Lisong Shen,et al. Exosomal transfer of tumor-associated macrophage-derived miR-21 confers cisplatin resistance in gastric cancer cells , 2017, Journal of experimental & clinical cancer research : CR.
[286] V. Tergaonkar,et al. Current Insights to Regulation and Role of Telomerase in Human Diseases , 2017, Antioxidants.
[287] Jun Yu,et al. The Interplay of LncRNA-H19 and Its Binding Partners in Physiological Process and Gastric Carcinogenesis , 2017, International journal of molecular sciences.
[288] Z. Zeng,et al. Circular RNAs in human cancer , 2017, Molecular Cancer.
[289] V. Tergaonkar,et al. Transcriptional Regulation of Telomerase Reverse Transcriptase (TERT) by MYC , 2017, Front. Cell Dev. Biol..
[290] I. Mellman,et al. Elements of cancer immunity and the cancer–immune set point , 2017, Nature.
[291] A. D. de Vos,et al. Mitochondrial Dysfunction Prevents Repolarization of Inflammatory Macrophages. , 2016, Cell reports.
[292] B. Goh,et al. Ascochlorin Enhances the Sensitivity of Doxorubicin Leading to the Reversal of Epithelial-to-Mesenchymal Transition in Hepatocellular Carcinoma , 2016, Molecular Cancer Therapeutics.
[293] Jian-nan Feng,et al. Tim-3 promotes tumor-promoting M2 macrophage polarization by binding to STAT1 and suppressing the STAT1-miR-155 signaling axis , 2016, Oncoimmunology.
[294] Daniel S. Chen,et al. Immune escape to PD-L1/PD-1 blockade: seven steps to success (or failure). , 2016, Annals of oncology : official journal of the European Society for Medical Oncology.
[295] G. Sethi,et al. Resveratrol inhibits STAT3 signaling pathway through the induction of SOCS-1: Role in apoptosis induction and radiosensitization in head and neck tumor cells. , 2016, Phytomedicine : international journal of phytotherapy and phytopharmacology.
[296] B. Goh,et al. Nimbolide-Induced Oxidative Stress Abrogates STAT3 Signaling Cascade and Inhibits Tumor Growth in Transgenic Adenocarcinoma of Mouse Prostate Model. , 2016, Antioxidants & redox signaling.
[297] Gui-yuan Li,et al. miR-1207-5p suppresses lung cancer growth and metastasis by targeting CSF1 , 2016, Oncotarget.
[298] F. Huang,et al. Forced Activation of Notch in Macrophages Represses Tumor Growth by Upregulating miR-125a and Disabling Tumor-Associated Macrophages. , 2016, Cancer research.
[299] T. Wynn,et al. Macrophages in Tissue Repair, Regeneration, and Fibrosis. , 2016, Immunity.
[300] G. Freeman,et al. Identification of the Cell-Intrinsic and -Extrinsic Pathways Downstream of EGFR and IFNγ That Induce PD-L1 Expression in Head and Neck Cancer. , 2016, Cancer research.
[301] Shivakumar Keerthikumar,et al. ExoCarta: A Web-Based Compendium of Exosomal Cargo. , 2016, Journal of molecular biology.
[302] Melissa J. Fullwood,et al. Roles, Functions, and Mechanisms of Long Non-coding RNAs in Cancer , 2016, Genom. Proteom. Bioinform..
[303] F. Ginhoux,et al. New insights into the multidimensional concept of macrophage ontogeny, activation and function , 2015, Nature Immunology.
[304] C. Van Waes,et al. Anti-Tumor Immunity in Head and Neck Cancer: Understanding the Evidence, How Tumors Escape and Immunotherapeutic Approaches , 2015, Cancers.
[305] Yuankai Shi,et al. miR-130a regulates macrophage polarization and is associated with non-small cell lung cancer. , 2015, Oncology reports.
[306] Linyi Chen,et al. Downregulation of COMMD1 by miR-205 promotes a positive feedback loop for amplifying inflammatory- and stemness-associated properties of cancer cells , 2015, Cell Death and Differentiation.
[307] L. van de Laar,et al. A Hitchhiker’s Guide to Myeloid Cell Subsets: Practical Implementation of a Novel Mononuclear Phagocyte Classification System , 2015, Front. Immunol..
[308] C. Shao,et al. Macrophage infiltration promotes invasiveness of breast cancer cells via activating long non-coding RNA UCA1. , 2015, International journal of clinical and experimental pathology.
[309] G. Sethi,et al. Isorhamnetin augments the anti-tumor effect of capecitabine through the negative regulation of NF-κB signaling cascade in gastric cancer. , 2015, Cancer letters.
[310] B. Schroen,et al. Long noncoding RNAs in cardiac development and ageing , 2015, Nature Reviews Cardiology.
[311] A. Bishayee,et al. Silymarin and hepatocellular carcinoma: a systematic, comprehensive, and critical review , 2015, Anti-cancer drugs.
[312] R. Liu,et al. MiR-101 targets DUSP1 to regulate the TGF-β secretion in sorafenib inhibits macrophage-induced growth of hepatocarcinoma , 2015, Oncotarget.
[313] G. Sethi,et al. Analysis of the intricate relationship between chronic inflammation and cancer. , 2015, The Biochemical journal.
[314] G. Sethi,et al. Bergamottin, a natural furanocoumarin obtained from grapefruit juice induces chemosensitization and apoptosis through the inhibition of STAT3 signaling pathway in tumor cells. , 2014, Cancer letters.
[315] S. Gordon,et al. Macrophage heterogeneity in tissues: phenotypic diversity and functions , 2014, Immunological reviews.
[316] G. Sethi,et al. Negative regulation of signal transducer and activator of transcription-3 signalling cascade by lupeol inhibits growth and induces apoptosis in hepatocellular carcinoma cells , 2014, British Journal of Cancer.
[317] M. Simon,et al. Hypoxia, lipids, and cancer: surviving the harsh tumor microenvironment. , 2014, Trends in cell biology.
[318] S. Goerdt,et al. Macrophage activation and polarization: nomenclature and experimental guidelines. , 2014, Immunity.
[319] T. Zhou,et al. Dysregulation of the miR-324-5p-CUEDC2 axis leads to macrophage dysfunction and is associated with colon cancer. , 2014, Cell reports.
[320] Momoko Yoshikawa,et al. Macrophage-derived reactive oxygen species suppress miR-328 targeting CD44 in cancer cells and promote redox adaptation. , 2014, Carcinogenesis.
[321] G. Sethi,et al. Capillarisin inhibits constitutive and inducible STAT3 activation through induction of SHP-1 and SHP-2 tyrosine phosphatases. , 2014, Cancer letters.
[322] Adam Luginbuhl,et al. Tumor microenvironment in head and neck squamous cell carcinoma. , 2014, Seminars in oncology.
[323] G. Sethi,et al. γ-tocotrienol inhibits angiogenesis-dependent growth of human hepatocellular carcinoma through abrogation of AKT/mTOR pathway in an orthotopic mouse model , 2014, Oncotarget.
[324] S. Gordon,et al. The M1 and M2 paradigm of macrophage activation: time for reassessment , 2014, F1000prime reports.
[325] G. Sethi,et al. Simvastatin sensitizes human gastric cancer xenograft in nude mice to capecitabine by suppressing nuclear factor-kappa B-regulated gene products , 2014, Journal of Molecular Medicine.
[326] Jason B. Williams,et al. Up-Regulation of PD-L1, IDO, and Tregs in the Melanoma Tumor Microenvironment Is Driven by CD8+ T Cells , 2013, Science Translational Medicine.
[327] G. Huang,et al. RUNX1 meets MLL: epigenetic regulation of hematopoiesis by two leukemia genes , 2013, Leukemia.
[328] A. Mantovani,et al. Tumor-Associated Macrophages as a Paradigm of Macrophage Plasticity, Diversity, and Polarization: Lessons and Open Questions , 2013, Arteriosclerosis, thrombosis, and vascular biology.
[329] G. Sethi,et al. Garcinol, a Polyisoprenylated Benzophenone Modulates Multiple Proinflammatory Signaling Cascades Leading to the Suppression of Growth and Survival of Head and Neck Carcinoma , 2013, Cancer Prevention Research.
[330] P. Allavena,et al. Tumor-associated macrophages: functional diversity, clinical significance, and open questions , 2013, Seminars in Immunopathology.
[331] Sebastian D. Mackowiak,et al. Circular RNAs are a large class of animal RNAs with regulatory potency , 2013, Nature.
[332] Sofie Nilsson,et al. Downregulation of miR-92a Is Associated with Aggressive Breast Cancer Features and Increased Tumour Macrophage Infiltration , 2012, PloS one.
[333] Douglas Hanahan,et al. Accessories to the Crime: Functions of Cells Recruited to the Tumor Microenvironment Prospects and Obstacles for Therapeutic Targeting of Function-enabling Stromal Cell Types , 2022 .
[334] Alberto Mantovani,et al. Macrophage plasticity and polarization: in vivo veritas. , 2012, The Journal of clinical investigation.
[335] G. Sethi,et al. First Evidence That γ-Tocotrienol Inhibits the Growth of Human Gastric Cancer and Chemosensitizes It to Capecitabine in a Xenograft Mouse Model through the Modulation of NF-κB Pathway , 2012, Clinical Cancer Research.
[336] Eric C Lai,et al. Mirtrons: microRNA biogenesis via splicing. , 2011, Biochimie.
[337] A. Chawla,et al. Alternative macrophage activation and metabolism. , 2011, Annual review of pathology.
[338] Xin Lu,et al. Hypoxia and Hypoxia-Inducible Factors: Master Regulators of Metastasis , 2010, Clinical Cancer Research.
[339] Y. Kalaidzidis,et al. Reconstitution of Rab- and SNARE-dependent membrane fusion by synthetic endosomes , 2009, Nature.
[340] M. Tretiakova,et al. Chemokine expression in melanoma metastases associated with CD8+ T-cell recruitment. , 2009, Cancer research.
[341] D. Bartel. MicroRNAs: Target Recognition and Regulatory Functions , 2009, Cell.
[342] C. Burge,et al. Most mammalian mRNAs are conserved targets of microRNAs. , 2008, Genome research.
[343] J. Edwards,et al. Exploring the full spectrum of macrophage activation , 2008, Nature Reviews Immunology.
[344] Petra Schwille,et al. Ceramide Triggers Budding of Exosome Vesicles into Multivesicular Endosomes , 2008, Science.
[345] B. Aggarwal,et al. Reversal of chemoresistance and enhancement of apoptosis by statins through down-regulation of the NF-kappaB pathway. , 2008, Biochemical pharmacology.
[346] B. Aggarwal,et al. Salinosporamide A (NPI-0052) potentiates apoptosis, suppresses osteoclastogenesis, and inhibits invasion through down-modulation of NF-kappaB regulated gene products. , 2007, Blood.
[347] Bharat B. Aggarwal,et al. Simvastatin Potentiates TNF-α-Induced Apoptosis through the Down-Regulation of NF-κB-Dependent Antiapoptotic Gene Products: Role of IκBα Kinase and TGF-β-Activated Kinase-11 , 2007, The Journal of Immunology.
[348] Bharat B. Aggarwal,et al. Genetic Deletion of NAD(P)H:Quinone Oxidoreductase 1 Abrogates Activation of Nuclear Factor-κB, IκBα Kinase, c-Jun N-terminal Kinase, Akt, p38, and p44/42 Mitogen-activated Protein Kinases and Potentiates Apoptosis* , 2006, Journal of Biological Chemistry.
[349] R. Johnstone. Revisiting the road to the discovery of exosomes. , 2005, Blood cells, molecules & diseases.
[350] Silvano Sozzani,et al. The chemokine system in diverse forms of macrophage activation and polarization. , 2004, Trends in immunology.
[351] K. Tracey,et al. High Mobility Group 1 Protein (Hmg-1) Stimulates Proinflammatory Cytokine Synthesis in Human Monocytes , 2000, The Journal of experimental medicine.
[352] Kristi Kincaid,et al. M-1/M-2 Macrophages and the Th1/Th2 Paradigm1 , 2000, The Journal of Immunology.
[353] R. Medzhitov,et al. Innate immune recognition: mechanisms and pathways , 2000, Immunological reviews.
[354] M. Modolell,et al. Arginase induction by suppressors of nitric oxide synthesis (IL-4, IL-10 and PGE2) in murine bone-marrow-derived macrophages. , 1995, Biochemical and biophysical research communications.
[355] S Gordon,et al. Interleukin 4 potently enhances murine macrophage mannose receptor activity: a marker of alternative immunologic macrophage activation , 1992, The Journal of experimental medicine.
[356] G. Sethi,et al. Long non-coding RNAs are emerging targets of phytochemicals for cancer and other chronic diseases , 2019, Cellular and Molecular Life Sciences.
[357] M. Hartman,et al. Triple negative breast cancer in Asia: An insider's view. , 2018, Cancer treatment reviews.
[358] Meiyi Song,et al. Circular RNAs as Biomarkers for Cancer. , 2018, Advances in experimental medicine and biology.
[359] Feng Li,et al. The landscape of microRNA, Piwi-interacting RNA, and circular RNA in human saliva. , 2015, Clinical chemistry.