Psychological distress influences lung cancer: Advances and perspectives on the immune system and immunotherapy.

[1]  Cai Song,et al.  Low-Dose IL-2 Attenuated Depression-like Behaviors and Pathological Changes through Restoring the Balances between IL-6 and TGF-β and between Th17 and Treg in a Chronic Stress-Induced Mouse Model of Depression , 2022, International journal of molecular sciences.

[2]  K. McDonnell,et al.  Mindfulness-Based Interventions for Survivors of Lung Cancer and Their Partners: A Systematic Review. , 2022, International journal of behavioral medicine.

[3]  A. Gonzalez-Ling,et al.  Quality of life, anxiety, depression, and distress in patients with advanced and metastatic lung cancer. , 2022, Palliative & supportive care.

[4]  Sung-Min Cho,et al.  Mechanical ventilation in acute brain injury patients with acute respiratory distress syndrome , 2022, Frontiers in Medicine.

[5]  Sudhir Datar,et al.  Pathophysiology and Management of Neurogenic Pulmonary Edema in Patients with Acute Severe Brain Injury , 2022, Southern medical journal.

[6]  Thomas W. Jackson,et al.  Social isolation exacerbates acute ozone inhalation induced pulmonary and systemic health outcomes. , 2022, Toxicology and applied pharmacology.

[7]  Yu Wang,et al.  Anti-depressant-like effect of fermented Gastrodia elata Bl. by regulating monoamine levels and BDNF/NMDAR pathways in mice. , 2022, Journal of ethnopharmacology.

[8]  Wengang Song,et al.  Acute stress induces an inflammation dominated by innate immunity represented by neutrophils in mice , 2022, Frontiers in Immunology.

[9]  A. Basson,et al.  Chronic stress induces colonic tertiary lymphoid organ formation and protection against secondary injury through IL-23/IL-22 signaling , 2022, Proceedings of the National Academy of Sciences of the United States of America.

[10]  Murugesan V. S. Rajaram,et al.  Psychological stress creates an immune suppressive environment in the lung that increases susceptibility of aged mice to Mycobacterium tuberculosis infection , 2022, Frontiers in Cellular and Infection Microbiology.

[11]  Yung-Hyun Choi,et al.  β2-Adrenergic Receptor Signaling Pathway Stimulates the Migration and Invasion of Cancer Cells via Src Activation , 2022, Molecules.

[12]  T. Tsunoda,et al.  The Sympathetic Nervous System Contributes to the Establishment of Pre-Metastatic Pulmonary Microenvironments , 2022, International journal of molecular sciences.

[13]  T. Oh,et al.  Effect of preoperative psychiatric morbidity on postoperative outcomes of lung cancer surgery: A nationwide cohort study in South Korea. , 2022, Journal of psychosomatic research.

[14]  H. McLeod,et al.  Dissecting the role of cell signaling versus CD8+ T cell modulation in propranolol antitumor activity , 2022, Journal of Molecular Medicine.

[15]  Xin He,et al.  Dopamine signaling promotes tissue-resident memory differentiation of CD8+ T cells and antitumor immunity. , 2022, Cancer Research.

[16]  Xiaogang Shu,et al.  Stress-induced epinephrine promotes epithelial-to-mesenchymal transition and stemness of CRC through the CEBPB/TRIM2/P53 axis , 2022, Journal of translational medicine.

[17]  Kaixian Chen,et al.  L-5-hydroxytryptophan promotes antitumor immunity by inhibiting PD-L1 inducible expression , 2022, Journal for ImmunoTherapy of Cancer.

[18]  A. Basso,et al.  Adrenergic signaling regulation of macrophage function: do we understand it yet? , 2022, Immunotherapy advances.

[19]  J. Meyerhardt,et al.  Exercise, Diet, and Weight Management During Cancer Treatment: ASCO Guideline , 2022, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[20]  B. Schmidt,et al.  Sympathetic modulation of tumor necrosis factor alpha-induced nociception in the presence of oral squamous cell carcinoma. , 2022, Pain.

[21]  Y. Liu,et al.  PlexinA1 activation induced by β2-AR promotes epithelial-mesenchymal transition through JAK-STAT3 signaling in human gastric cancer cells , 2022, Journal of Cancer.

[22]  C. Angkurawaranon,et al.  Violence against caregivers of older adults with chronic diseases is associated with caregiver burden and depression: a cross-sectional study , 2022, BMC Geriatrics.

[23]  Ilana B. Witten,et al.  Behavioral and dopaminergic signatures of resilience , 2022, bioRxiv.

[24]  J. Gonçalves,et al.  Contribution of adrenergic mechanisms for the stress‐induced breast cancer carcinogenesis , 2022, Journal of cellular physiology.

[25]  C. Tomasetti,et al.  The Homer1 family of proteins at the crossroad of dopamine-glutamate signaling: An emerging molecular “Lego” in the pathophysiology of psychiatric disorders. A systematic review and translational insight , 2022, Neuroscience & Biobehavioral Reviews.

[26]  L. Kleynhans,et al.  Interplay Between the Immune and Endocrine Systems in the Lung: Implications for TB Susceptibility , 2022, Frontiers in Immunology.

[27]  Jingtao Zhang,et al.  ADRB2 expression predicts the clinical outcomes and is associated with immune cells infiltration in lung adenocarcinoma , 2022, Scientific Reports.

[28]  D. de Ruysscher,et al.  Physical exercise at the crossroad between muscle wasting and the immune system: implications for lung cancer cachexia , 2022, Journal of cachexia, sarcopenia and muscle.

[29]  Zongze Zhang,et al.  Clenbuterol, a Selective β2-Adrenergic Receptor Agonist, Inhibits or Limits Post-Stroke Pneumonia, but Increases Infarct Volume in MCAO Mice , 2022, Journal of inflammation research.

[30]  C. Dong,et al.  Antibiotics exposure attenuates chronic unpredictable mild stress-induced anxiety-like and depression-like behavior , 2021, Psychoneuroendocrinology.

[31]  Milica Jankovic,et al.  Sex specific effects of the fatty acid amide hydrolase inhibitor URB597 on memory and brain β2-adrenergic and D1-dopamine receptors , 2021, Neuroscience Letters.

[32]  G. Lal,et al.  Role of adrenergic receptor signalling in neuroimmune communication , 2021, Current research in immunology.

[33]  Fei-Ting Hsu,et al.  Suppression of EGFR/PKC-δ/NF-κB Signaling Associated With Imipramine-Inhibited Progression of Non-Small Cell Lung Cancer , 2021, Frontiers in Oncology.

[34]  P. Insel,et al.  Inhaled β2 Adrenergic Agonists and Other cAMP-Elevating Agents: Therapeutics for Alveolar Injury and Acute Respiratory Disease Syndrome? , 2021, Pharmacological Reviews.

[35]  A. Arnsten,et al.  Chronic Stress Weakens Connectivity in the Prefrontal Cortex: Architectural and Molecular Changes , 2021, Chronic stress.

[36]  Xiaomin Chen,et al.  Psychological nursing intervention improve the mental health status of young patients with lung cancer surgery during the perioperative period , 2021, Medicine.

[37]  Y. Liao,et al.  Depression accelerates gastric cancer invasion and metastasis by inducing a neuroendocrine phenotype via the catecholamine/β2‐AR/MACC1 axis , 2021, Cancer communications.

[38]  A. Carè,et al.  The Sex-Related Interplay between TME and Cancer: On the Critical Role of Estrogen, MicroRNAs and Autophagy , 2021, Cancers.

[39]  Zhiyu Qian,et al.  Chronic Psychological Stress Attenuates the Efficacy of anti-PD-L1 Immunotherapy for Bladder Cancer in Immunocompetent Mice , 2021, Cancer investigation.

[40]  N. Bondar,et al.  The Role of Stress-Induced Changes of Homer1 Expression in Stress Susceptibility , 2021, Biochemistry (Moscow).

[41]  Sang-Youel Park,et al.  Sensitizing TRAIL-resistant A549 lung cancer cells and enhancing TRAIL-induced apoptosis with the antidepressant amitriptyline , 2021, Oncology reports.

[42]  F. Kruyt,et al.  Understanding Lung Carcinogenesis from a Morphostatic Perspective: Prevention and Therapeutic Potential of Phytochemicals for Targeting Cancer Stem Cells , 2021, International journal of molecular sciences.

[43]  Vijayendran Chandran,et al.  Large-scale genomic study reveals robust activation of the immune system following advanced Inner Engineering meditation retreat , 2021, Proceedings of the National Academy of Sciences.

[44]  Scott N. Mueller,et al.  Adrenergic regulation of the vasculature impairs leukocyte interstitial migration and suppresses immune responses. , 2021, Immunity.

[45]  Shasha Bai,et al.  Depression promotes lung carcinoma progression by regulating the tumor microenvironment in tumor-bearing models of C57BL/6J mice , 2021, Neuroscience Letters.

[46]  B. Hylander,et al.  Chronic Adrenergic Stress Contributes to Metabolic Dysfunction and an Exhausted Phenotype in T Cells in the Tumor Microenvironment , 2021, Cancer Immunology Research.

[47]  C. Scavone,et al.  Norepinephrine and Glucocorticoids Modulate Chronic Unpredictable Stress-Induced Increase in the Type 2 CRF and Glucocorticoid Receptors in Brain Structures Related to the HPA Axis Activation , 2021, Molecular Neurobiology.

[48]  H. Xu,et al.  Structures of the glucocorticoid-bound adhesion receptor GPR97–Go complex , 2021, Nature.

[49]  Guangru Li,et al.  Chronic stress promotes breast carcinoma metastasis by accumulating myeloid-derived suppressor cells through activating β-adrenergic signaling , 2021, Oncoimmunology.

[50]  W. Breitbart,et al.  Prognostic implications of depression and inflammation in patients with metastatic lung cancer. , 2020, Future oncology.

[51]  S. Molina-Pinelo,et al.  Primary and Acquired Resistance to Immunotherapy in Lung Cancer: Unveiling the Mechanisms Underlying of Immune Checkpoint Blockade Therapy , 2020, Cancers.

[52]  J. Shih,et al.  Effect of β-Blocker in Treatment-Naïve Patients With Advanced Lung Adenocarcinoma Receiving First-Generation EGFR-TKIs , 2020, Frontiers in Oncology.

[53]  M. Caraglia,et al.  β2-AR blockade potentiates MEK1/2 inhibitor effect on HNSCC by regulating the Nrf2-mediated defense mechanism , 2020, Cell Death & Disease.

[54]  H. Zeng,et al.  Chronic stress promotes EMT-mediated metastasis through activation of STAT3 signaling pathway by miR-337-3p in breast cancer , 2020, Cell Death & Disease.

[55]  R. Straub,et al.  Proinflammatory α-Adrenergic Neuronal Regulation of Splenic IFN-γ, IL-6, and TGF-β of Mice from Day 15 onwards in Arthritis , 2020, Neuroimmunomodulation.

[56]  K. Madden,et al.  Chronic Stress Exposure Suppresses Mammary Tumor Growth and Reduces Circulating Exosome TGF-β Content via β-Adrenergic Receptor Signaling in MMTV-PyMT Mice , 2020, Breast cancer : basic and clinical research.

[57]  T. Belay,et al.  Modulation of T helper 1 and T helper 2 immune balance in a murine stress model during Chlamydia muridarum genital infection , 2020, PloS one.

[58]  L. Janiri,et al.  The Impact of Climate Change on Mental Health: A Systematic Descriptive Review , 2020, Frontiers in Psychiatry.

[59]  T. Gould,et al.  Psychological stress enhances tumor growth and diminishes radiation response in preclinical model of lung cancer. , 2020, Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology.

[60]  Han‐Chieh Lin,et al.  Propranolol Suppresses the T-Helper Cell Depletion-Related Immune Dysfunction in Cirrhotic Mice , 2020, Cells.

[61]  Zhangfeng Zhong,et al.  ID1 overexpression increases gefitinib sensitivity in non-small cell lung cancer by activating RIP3/MLKL-dependent necroptosis. , 2020, Cancer letters.

[62]  A. Jemal,et al.  Cancer statistics, 2020 , 2020, CA: a cancer journal for clinicians.

[63]  X. Le,et al.  β-Adrenergic Signaling in Lung Cancer: A Potential Role for Beta-Blockers , 2019, Journal of Neuroimmune Pharmacology.

[64]  Y. Kakinuma,et al.  Stress-induced microglial activation occurs through β-adrenergic receptor: noradrenaline as a key neurotransmitter in microglial activation , 2019, Journal of Neuroinflammation.

[65]  J. Leung,et al.  Depression and anxiety in relation to cancer incidence and mortality: a systematic review and meta-analysis of cohort studies , 2019, Molecular Psychiatry.

[66]  C. Xing,et al.  Kava and its Kavalactones Inhibit Norepinephrine-induced Intracellular Calcium Influx in Lung Cancer Cells , 2019, Planta Medica.

[67]  Zekuan Xu,et al.  Chronic stress promotes gastric cancer progression and metastasis: an essential role for ADRB2 , 2019, Cell Death & Disease.

[68]  M. Cosentino,et al.  Beta1- and Beta2-Adrenoceptors Expression Patterns in Human Non-small Cell Lung Cancer: Relationship with Cancer Histology , 2019, Journal of Neuroimmune Pharmacology.

[69]  E. Wohleb,et al.  The formative role of microglia in stress-induced synaptic deficits and associated behavioral consequences , 2019, Neuroscience Letters.

[70]  A. Trautmann,et al.  Blockade of β-Adrenergic Receptors Improves CD8+ T-cell Priming and Cancer Vaccine Efficacy , 2019, Cancer Immunology Research.

[71]  T. Zhou,et al.  β2-adrenergic receptor signaling promotes neuroblastoma cell proliferation by activating autophagy , 2019, Oncology reports.

[72]  Chiun-Sheng Huang,et al.  Disparity in Tumor Immune Microenvironment of Breast Cancer and Prognostic Impact: Asian versus Western Populations. , 2019, The oncologist.

[73]  Anne-Kathrin Kleine,et al.  Psychological interventions targeting partners of cancer patients: A systematic review. , 2019, Critical reviews in oncology/hematology.

[74]  M. Montminy,et al.  The CREB coactivator CRTC2 promotes oncogenesis in LKB1-mutant non–small cell lung cancer , 2019, Science Advances.

[75]  Shenmin Zhang,et al.  Catecholamines contribute to the neovascularization of lung cancer via tumor-associated macrophages , 2019, Brain, Behavior, and Immunity.

[76]  M. Konantz,et al.  Stress and catecholamines modulate the bone marrow microenvironment to promote tumorigenesis , 2019, Cell stress.

[77]  S. Fedewa,et al.  Cancer screening in the United States, 2019: A review of current American Cancer Society guidelines and current issues in cancer screening , 2019, CA: a cancer journal for clinicians.

[78]  F. Dhabhar,et al.  The impact of psychosocial stress and stress management on immune responses in patients with cancer , 2019, Cancer.

[79]  A. Günther,et al.  FGF10-FGFR2B Signaling Generates Basal Cells and Drives Alveolar Epithelial Regeneration by Bronchial Epithelial Stem Cells after Lung Injury , 2019, Stem cell reports.

[80]  J. Kashima,et al.  Molecular and Morphological Profiling of Lung Cancer: A Foundation for “Next-Generation” Pathologists and Oncologists , 2019, Cancers.

[81]  L. Saso,et al.  Potential Applications of NRF2 Inhibitors in Cancer Therapy , 2019, Oxidative medicine and cellular longevity.

[82]  M. Ciccarelli,et al.  Cross-Talk between Neurohormonal Pathways and the Immune System in Heart Failure: A Review of the Literature , 2019, International journal of molecular sciences.

[83]  Qiang Zhou,et al.  Nimotuzumab inhibits epithelial–mesenchymal transition in prostate cancer by targeting the Akt/YB‐1/AR axis , 2019, IUBMB life.

[84]  H. Rodemann,et al.  Nanog Signaling Mediates Radioresistance in ALDH-Positive Breast Cancer Cells , 2019, International journal of molecular sciences.

[85]  F. Peng,et al.  Stress-induced epinephrine enhances lactate dehydrogenase A and promotes breast cancer stem-like cells , 2019, The Journal of clinical investigation.

[86]  Ching-Feng Chiu,et al.  TARBP2‐mediated destabilization of Nanog overcomes sorafenib resistance in hepatocellular carcinoma , 2019, Molecular oncology.

[87]  C. Scheiermann,et al.  Control of Leukocyte Trafficking by Stress-Associated Hormones , 2019, Front. Immunol..

[88]  P. Gunning,et al.  Stress hormone signaling through β‐adrenergic receptors regulates macrophage mechanotype and function , 2018, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[89]  B. Hylander,et al.  β-Adrenergic signaling blocks murine CD8+ T-cell metabolic reprogramming during activation: a mechanism for immunosuppression by adrenergic stress , 2018, Cancer Immunology, Immunotherapy.

[90]  D. Selkoe,et al.  Enriched environment enhances β‐adrenergic signaling to prevent microglia inflammation by amyloid‐β , 2018, EMBO molecular medicine.

[91]  P. Ganz,et al.  Prometastatic Molecular Profiles in Breast Tumors From Socially Isolated Women , 2018, JNCI cancer spectrum.

[92]  T. Schumacher,et al.  T Cell Dysfunction in Cancer. , 2018, Cancer cell.

[93]  D. Bellinger,et al.  Sympathetic Nerve Hyperactivity in the Spleen: Causal for Nonpathogenic-Driven Chronic Immune-Mediated Inflammatory Diseases (IMIDs)? , 2018, International journal of molecular sciences.

[94]  J. Sheridan,et al.  Corticosterone Production during Repeated Social Defeat Causes Monocyte Mobilization from the Bone Marrow, Glucocorticoid Resistance, and Neurovascular Adhesion Molecule Expression , 2018, The Journal of Neuroscience.

[95]  Hongyu Chen,et al.  Chronic psychological stress promotes lung metastatic colonization of circulating breast cancer cells by decorating a pre‐metastatic niche through activating β‐adrenergic signaling , 2018, The Journal of pathology.

[96]  K. Haurogné,et al.  &bgr;2‐adrenoreceptor stimulation dampens the LPS‐induced M1 polarization in pig macrophages , 2017, Developmental and comparative immunology.

[97]  Dongshu Du,et al.  Neuroinflammation contributes to autophagy flux blockage in the neurons of rostral ventrolateral medulla in stress-induced hypertension rats , 2017, Journal of Neuroinflammation.

[98]  B. Bryan,et al.  Beta-adrenergic receptors are expressed across diverse cancers , 2017, Oncoscience.

[99]  R. Blakely,et al.  Serotonin and Serotonin Transporters in the Adrenal Medulla: A Potential Hub for Modulation of the Sympathetic Stress Response. , 2017, ACS chemical neuroscience.

[100]  R. Wu,et al.  Curcumin Suppresses Lung Cancer Stem Cells via Inhibiting Wnt/β‐catenin and Sonic Hedgehog Pathways , 2017, Phytotherapy research : PTR.

[101]  J. Sheridan,et al.  Microglial recruitment of IL-1β producing monocytes to brain endothelium causes stress-induced anxiety , 2017, Molecular Psychiatry.

[102]  H. Hondermarck,et al.  Nerve Dependence: From Regeneration to Cancer. , 2017, Cancer cell.

[103]  Walter J Curran,et al.  Lung cancer: current therapies and new targeted treatments , 2017, The Lancet.

[104]  D. Gabrilovich Myeloid-Derived Suppressor Cells , 2017, Cancer Immunology Research.

[105]  S. Zheng,et al.  Hall of Fame among Pro-inflammatory Cytokines: Interleukin-6 Gene and Its Transcriptional Regulation Mechanisms , 2016, Front. Immunol..

[106]  Ho Jin Lee,et al.  Chronic Stress Facilitates Lung Tumorigenesis by Promoting Exocytosis of IGF2 in Lung Epithelial Cells. , 2016, Cancer research.

[107]  Yuanfang Ma,et al.  Psychological stress promotes neutrophil infiltration in colon tissue through adrenergic signaling in DSS-induced colitis model , 2016, Brain, Behavior, and Immunity.

[108]  S. Cole,et al.  β-Adrenergic-stimulated macrophages: Comprehensive localization in the M1-M2 spectrum , 2016, Brain, Behavior, and Immunity.

[109]  M. Ohira,et al.  Neuronal leucine-rich repeat 1 negatively regulates anaplastic lymphoma kinase in neuroblastoma , 2016, Scientific Reports.

[110]  K. Taskén,et al.  Molecular Mechanisms for cAMP-Mediated Immunoregulation in T cells – Role of Anchored Protein Kinase A Signaling Units , 2016, Front. Immunol..

[111]  Dung Nguyen Trung,et al.  Chronic stress increases experimental pancreatic cancer growth, reduces survival and can be antagonised by beta-adrenergic receptor blockade. , 2016, Pancreatology : official journal of the International Association of Pancreatology (IAP) ... [et al.].

[112]  E. Sloan,et al.  The β2‐adrenoceptor activates a positive cAMP‐calcium feedforward loop to drive breast cancer cell invasion , 2016, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[113]  Y. Yanagawa,et al.  Isoform‐specific regulation of transforming growth factor‐β mRNA expression in macrophages in response to adrenoceptor stimulation , 2016, Microbiology and immunology.

[114]  Andrew H. Miller,et al.  The role of inflammation in depression: from evolutionary imperative to modern treatment target , 2015, Nature Reviews Immunology.

[115]  H. Schuller,et al.  Regulation of nonsmall‐cell lung cancer stem cell like cells by neurotransmitters and opioid peptides , 2015, International journal of cancer.

[116]  Marco Cosentino,et al.  Adrenergic regulation of innate immunity: a review , 2015, Front. Pharmacol..

[117]  M. Lu,et al.  Hedgehog actively maintains adult lung quiescence and regulates repair and regeneration , 2015, Nature.

[118]  M. Bevans,et al.  Norepinephrine preferentially modulates memory CD8 T cell function inducing inflammatory cytokine production and reducing proliferation in response to activation , 2015, Brain, Behavior, and Immunity.

[119]  P. Frenette,et al.  Neural Regulation of Hematopoiesis, Inflammation, and Cancer , 2015, Neuron.

[120]  R. Gosens,et al.  Acetylcholine beyond bronchoconstriction: roles in inflammation and remodeling. , 2015, Trends in pharmacological sciences.

[121]  N. Perkins,et al.  Depressive symptoms and their relationship with endogenous reproductive hormones and sporadic anovulation in premenopausal women. , 2014, Annals of epidemiology.

[122]  B. Hylander,et al.  A nervous tumor microenvironment: the impact of adrenergic stress on cancer cells, immunosuppression, and immunotherapeutic response , 2014, Cancer Immunology, Immunotherapy.

[123]  R. Wunderink,et al.  β₂-Adrenergic agonists augment air pollution-induced IL-6 release and thrombosis. , 2014, The Journal of clinical investigation.

[124]  D. Bellinger,et al.  Autonomic regulation of cellular immune function , 2014, Autonomic Neuroscience.

[125]  J. Tavernier,et al.  β-Agonists Selectively Modulate Proinflammatory Gene Expression in Skeletal Muscle Cells via Non-Canonical Nuclear Crosstalk Mechanisms , 2014, PloS one.

[126]  J. Aerts,et al.  β2-adrenergic agonists modulate TNF-α induced astrocytic inflammatory gene expression and brain inflammatory cell populations , 2014, Journal of Neuroinflammation.

[127]  Jing Wang,et al.  Teaching an old dog new tricks: drug repositioning in small cell lung cancer. , 2013, Cancer discovery.

[128]  J. Zhao,et al.  Toll-Like Receptor 9 Is Required for Chronic Stress-Induced Immune Suppression , 2013, Neuroimmunomodulation.

[129]  S. Cole,et al.  Social stress up-regulates inflammatory gene expression in the leukocyte transcriptome via β-adrenergic induction of myelopoiesis , 2013, Proceedings of the National Academy of Sciences.

[130]  A. Abbruzzese,et al.  Role of endothelial nitric oxide synthase (eNOS) in chronic stress-promoted tumour growth , 2012, Journal of cellular and molecular medicine.

[131]  Philippe P Roux,et al.  Activation and Function of the MAPKs and Their Substrates, the MAPK-Activated Protein Kinases , 2011, Microbiology and Molecular Reviews.

[132]  S. Moghaddam,et al.  Interleukin 6, but Not T Helper 2 Cytokines, Promotes Lung Carcinogenesis , 2010, Cancer Prevention Research.

[133]  J. Sheridan,et al.  Social disruption induces lung inflammation , 2010, Brain, Behavior, and Immunity.

[134]  Benjamin S. Lankow,et al.  Gene expression changes in the hypothalamus provide evidence for regionally-selective changes in IL-1 and microglial markers after acute stress , 2009, Brain, Behavior, and Immunity.

[135]  C. Mongini,et al.  Chronic restraint stress impairs T-cell immunity and promotes tumor progression in mice , 2009, Stress.

[136]  Mark Hamer,et al.  Chronic psychosocial factors and acute physiological responses to laboratory-induced stress in healthy populations: a quantitative review of 30 years of investigations. , 2008, Psychological bulletin.

[137]  J. Sheridan,et al.  Interleukin-1 receptor type 1-deficient mice fail to develop social stress-associated glucocorticoid resistance in the spleen , 2008, Psychoneuroendocrinology.

[138]  H. Koong,et al.  Differences between small-cell lung cancer and non-small-cell lung cancer among tobacco smokers. , 2007, Lung cancer.

[139]  H. Renz,et al.  Neurotrophins in allergic diseases: from neuronal growth factors to intercellular signaling molecules. , 2006, The Journal of allergy and clinical immunology.

[140]  Edna Maria Vissoci Reiche,et al.  Stress, depression, the immune system, and cancer. , 2004, The Lancet. Oncology.

[141]  Kerstin Lang,et al.  Tumour-cell migration, invasion, and metastasis: navigation by neurotransmitters. , 2004, The Lancet. Oncology.

[142]  J. Cavaillon,et al.  Differential effect of serotonin on cytokine production in lipopolysaccharide-stimulated human peripheral blood mononuclear cells: involvement of 5-hydroxytryptamine2A receptors. , 2003, International immunology.

[143]  C. Ross,et al.  Measurement for a human science. , 2002, Journal of health and social behavior.

[144]  V. Stefanski Social stress in laboratory rats Behavior, immune function, and tumor metastasis , 2001, Physiology & Behavior.

[145]  I. Elenkov,et al.  Neuroendocrine Regulation of IL‐12 and TNF‐α/IL‐10 Balance: Clinical Implications , 2000 .

[146]  E. Bosmans,et al.  The effects of psychological stress on humans: increased production of pro-inflammatory cytokines and a Th1-like response in stress-induced anxiety. , 1998, Cytokine.

[147]  K. Bost,et al.  Neuroendocrine peptide hormones and their receptors in the immune system production, processing and action , 1985, Journal of Neuroimmunology.

[148]  S. Schleifer,et al.  Stress effects on immunity. , 1985, Psychiatric journal of the University of Ottawa : Revue de psychiatrie de l'Universite d'Ottawa.

[149]  Huaidong Cheng,et al.  Negative correlations of psychological distress with quality of life and immunotherapy efficacy in patients with advanced NSCLC. , 2022, American journal of cancer research.

[150]  M. Lauková,et al.  Repeated Stress Exaggerates Lipopolysaccharide-Induced Inflammatory Response in the Rat Spleen , 2017, Cellular and Molecular Neurobiology.