Dietary Lutein Plus Zeaxanthin Intake and DICER1 rs3742330 A > G Polymorphism Relative to Colorectal Cancer Risk

[1]  M. Burns,et al.  Case-Control Study , 2020, Definitions.

[2]  I. Choi,et al.  Dietary Carotenoids Intake and the Risk of Gastric Cancer: A Case—Control Study in Korea , 2018, Nutrients.

[3]  E. Lee,et al.  Prediction of Cancer Incidence and Mortality in Korea, 2018 , 2018, Cancer research and treatment : official journal of Korean Cancer Association.

[4]  M. Delgado-Rodríguez,et al.  Systematic review and meta-analysis. , 2017, Medicina intensiva.

[5]  Z. Pan,et al.  Serum carotenoids and colorectal cancer risk: A case-control study in Guangdong, China. , 2017, Molecular nutrition & food research.

[6]  Y. J. Kim,et al.  Association between Dietary Carotenoid Intake and Bone Mineral Density in Korean Adults Aged 30–75 Years Using Data from the Fourth and Fifth Korean National Health and Nutrition Examination Surveys (2008–2011) , 2017, Nutrients.

[7]  A. Bolhassani,et al.  Carotenoids: biochemistry, pharmacology and treatment , 2016, British journal of pharmacology.

[8]  B. Madison,et al.  MicroRNAs in the etiology of colorectal cancer: pathways and clinical implications , 2017, Disease Models & Mechanisms.

[9]  John R Stevens,et al.  Diet and lifestyle factors associated with miRNA expression in colorectal tissue , 2016, Pharmacogenomics and personalized medicine.

[10]  Xu Ma,et al.  MicroRNA biogenesis pathway genes polymorphisms and cancer risk: a systematic review and meta-analysis , 2016, PeerJ.

[11]  Xingguang Lin,et al.  Role of Dicer as a prognostic predictor for survival in cancer patients: a systematic review with a meta-analysis , 2016, Oncotarget.

[12]  J. Oh,et al.  Dietary patterns and colorectal cancer risk in a Korean population , 2016, Medicine.

[13]  Yong Peng,et al.  The role of MicroRNAs in human cancer , 2016, Signal Transduction and Targeted Therapy.

[14]  N. Kim,et al.  3’-UTR Polymorphisms in the MiRNA Machinery Genes DROSHA, DICER1, RAN, and XPO5 Are Associated with Colorectal Cancer Risk in a Korean Population , 2015, PloS one.

[15]  Z. Pan,et al.  Higher intake of carotenoid is associated with a lower risk of colorectal cancer in Chinese adults: a case–control study , 2015, European Journal of Nutrition.

[16]  C. Mathers,et al.  Cancer incidence and mortality worldwide: Sources, methods and major patterns in GLOBOCAN 2012 , 2015, International journal of cancer.

[17]  Zhanjun Guo,et al.  Single-nucleotide polymorphisms of microRNA processing machinery genes and risk of colorectal cancer , 2015, OncoTargets and therapy.

[18]  K. Overvad,et al.  Plasma and dietary carotenoids and vitamins A, C and E and risk of colon and rectal cancer in the European Prospective Investigation into Cancer and Nutrition , 2014, International journal of cancer.

[19]  Frank J. Slack,et al.  Aberrant Regulation and Function of MicroRNAs in Cancer , 2014, Current Biology.

[20]  K. Ozasa,et al.  Inverse associations between serum concentrations of zeaxanthin and other carotenoids and colorectal neoplasm in Japanese , 2014, International Journal of Clinical Oncology.

[21]  T. Tomasi,et al.  Dicer in immune cell development and function , 2014, Immunological investigations.

[22]  J. Reis-Filho,et al.  DICER1 hotspot mutations in non-epithelial gonadal tumours , 2013, British Journal of Cancer.

[23]  M. Esteller,et al.  Impaired DICER1 function promotes stemness and metastasis in colon cancer , 2013, Oncogene.

[24]  Yanqi Zhang,et al.  Variation in Dicer Gene Is Associated with Increased Survival in T-Cell Lymphoma , 2012, PloS one.

[25]  Kai-Fu Tang,et al.  The Role of Dicer in DNA Damage Repair , 2012, International journal of molecular sciences.

[26]  W. Weichert,et al.  Down‐regulation of the microRNA processing enzyme Dicer is a prognostic factor in human colorectal cancer , 2012, Histopathology.

[27]  W. Foulkes,et al.  miRNA Processing and Human Cancer: DICER1 Cuts the Mustard , 2011, Science Translational Medicine.

[28]  Sebastian D. Mackowiak,et al.  miRDeep2 accurately identifies known and hundreds of novel microRNA genes in seven animal clades , 2011, Nucleic acids research.

[29]  Hong Zhang,et al.  Dicer and miRNA in relation to clinicopathological variables in colorectal cancer patients , 2011, BMC Cancer.

[30]  Gretchen M. Williams,et al.  Ovarian sex cord-stromal tumors, pleuropulmonary blastoma and DICER1 mutations: a report from the International Pleuropulmonary Blastoma Registry. , 2011, Gynecologic oncology.

[31]  D. Horst,et al.  Overexpression of Dicer predicts poor survival in colorectal cancer. , 2011, European journal of cancer.

[32]  Gretchen M. Williams,et al.  Great vessel/cardiac extension and tumor embolism in pleuropulmonary blastoma: A report from the International Pleuropulmonary Blastoma Registry , 2011, Pediatric blood & cancer.

[33]  E. Izaurralde,et al.  Gene silencing by microRNAs: contributions of translational repression and mRNA decay , 2011, Nature Reviews Genetics.

[34]  A. Nicholson,et al.  DICER1 syndrome: clarifying the diagnosis, clinical features and management implications of a pleiotropic tumour predisposition syndrome , 2011, Journal of Medical Genetics.

[35]  W. Foulkes,et al.  DICER1 mutations in familial multinodular goiter with and without ovarian Sertoli-Leydig cell tumors. , 2011, JAMA.

[36]  Å. Borg,et al.  Identification of new microRNAs in paired normal and tumor breast tissue suggests a dual role for the ERBB2/Her2 gene. , 2011, Cancer research.

[37]  W. Willett,et al.  Carotenoid intake and risk of colorectal adenomas in a cohort of male health professionals , 2010, Cancer Causes & Control.

[38]  C. Harris,et al.  Genetic variation in microRNA networks: the implications for cancer research , 2010, Nature Reviews Cancer.

[39]  S. Lippman,et al.  Genetic variation in MicroRNA genes and risk of oral premalignant lesions , 2010, Molecular carcinogenesis.

[40]  Keara M. Lane,et al.  Dicer1 functions as a haploinsufficient tumor suppressor. , 2009, Genes & development.

[41]  Robin P Boushey,et al.  Colorectal cancer epidemiology: incidence, mortality, survival, and risk factors. , 2009, Clinics in colon and rectal surgery.

[42]  Gretchen M. Williams,et al.  DICER1 Mutations in Familial Pleuropulmonary Blastoma , 2009, Science.

[43]  S. Gruber,et al.  Smoking attenuates the negative association between carotenoids consumption and colorectal cancer risk , 2009, Cancer Causes & Control.

[44]  S. R. Wente,et al.  mRNA nuclear export at a glance , 2009, Journal of Cell Science.

[45]  Michael T. McManus,et al.  Disruption of Dicer1 induces dysregulated fetal gene expression and promotes hepatocarcinogenesis. , 2009, Gastroenterology.

[46]  J. Gu,et al.  Single Nucleotide Polymorphisms of microRNA Machinery Genes Modify the Risk of Renal Cell Carcinoma , 2008, Clinical Cancer Research.

[47]  H. zur Hausen The role of microRNAs in human cancer , 2007 .

[48]  T. Golub,et al.  Impaired microRNA processing enhances cellular transformation and tumorigenesis , 2007, Nature Genetics.

[49]  Y. Ahn,et al.  Validation and reproducibility of food frequency questionnaire for Korean genome epidemiologic study , 2007, European Journal of Clinical Nutrition.

[50]  C. Croce,et al.  MicroRNA signatures in human cancers , 2006, Nature Reviews Cancer.

[51]  F. J. Livesey,et al.  A role for Dicer in immune regulation , 2006, The Journal of experimental medicine.

[52]  J. Blumberg,et al.  Lutein and Zeaxanthin and Their Potential Roles in Disease Prevention , 2004, Journal of the American College of Nutrition.

[53]  V. Ambros The functions of animal microRNAs , 2004, Nature.

[54]  M. Oshimura,et al.  Dicer is essential for formation of the heterochromatin structure in vertebrate cells , 2004, Nature Cell Biology.

[55]  J. Molnár,et al.  Modulation of multidrug resistance and apoptosis of cancer cells by selected carotenoids. , 2004, In vivo.

[56]  Christopher F. Martin,et al.  Associations of total energy and macronutrients with colon cancer risk in African Americans and Whites: results from the North Carolina colon cancer study. , 2003, American journal of epidemiology.

[57]  S. Elledge,et al.  Dicer is essential for mouse development , 2003, Nature Genetics.

[58]  Christopher F. Martin,et al.  Associations of micronutrients with colon cancer risk in African Americans and whites: results from the North Carolina Colon Cancer Study. , 2003, Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology.

[59]  B. Chew,et al.  Dietary lutein inhibits mouse mammary tumor growth by regulating angiogenesis and apoptosis. , 2003, Anticancer research.

[60]  S. Astley,et al.  Increased Cellular Carotenoid Levels Reduce the Persistence of DNA Single-Strand Breaks After Oxidative Challenge , 2002, Nutrition and cancer.

[61]  D. Albanes,et al.  Dietary and serum α-tocopherol, β-carotene and retinol, and risk for colorectal cancer in male smokers , 2002, European Journal of Clinical Nutrition.

[62]  A. Miller,et al.  Dietary Carotenoid Intake and Colorectal Cancer Risk , 2002, Nutrition and cancer.

[63]  I. Challis,et al.  Carotenoids Induce Apoptosis in the T-lymphoblast Cell Line Jurkat E6.1 , 2002, Free radical research.

[64]  C. Pitchumoni,et al.  Serum and colon mucosa micronutrient antioxidants: differences between adenomatous polyp patients and controls , 2001, American Journal of Gastroenterology.

[65]  C. Pitchumoni,et al.  Serum and colon mucosa micronutrient antioxidants: differences between adenomatous polyp patients and controls. , 2001 .

[66]  A. Caudy,et al.  Role for a bidentate ribonuclease in the initiation step of RNA interference , 2001 .

[67]  C. la Vecchia,et al.  Selected micronutrients and colorectal cancer. a case-control study from the canton of Vaud, Switzerland. , 2000, European journal of cancer.

[68]  Béatrice Conne,et al.  The 3′ untranslated region of messenger RNA: A molecular ‘hotspot’ for pathology? , 2000, Nature Medicine.

[69]  C. McArdle,et al.  Changes in micronutrient concentrations following anti-inflammatory treatment in patients with gastrointestinal cancer. , 2000, Nutrition.

[70]  H. Thompson,et al.  Plasma xanthophyll carotenoids correlate inversely with indices of oxidative DNA damage and lipid peroxidation. , 2000, Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology.

[71]  J Benson,et al.  Carotenoids and colon cancer. , 2000, The American journal of clinical nutrition.

[72]  A. Lichtenstein,et al.  Lutein and zeaxanthin concentrations in plasma after dietary supplementation with egg yolk. , 1999, The American journal of clinical nutrition.

[73]  G. Mózsik,et al.  Decrease in serum levels of vitamin A and zeaxanthin in patients with colorectal polyp. , 1999, European journal of gastroenterology & hepatology.

[74]  W C Willett,et al.  Adjustment for total energy intake in epidemiologic studies. , 1997, The American journal of clinical nutrition.

[75]  C. L. Bird,et al.  Plasma carotenoids and the prevalence of adenomatous polyps of the distal colon and rectum. , 1997, American journal of epidemiology.

[76]  F. Khachik,et al.  Inhibitory effects of natural carotenoids, α-carotene, β-carotene, lycopene and lutein, on colonic aberrant crypt foci formation in rats , 1996 .

[77]  M. Longnecker,et al.  Dietary intake of specific carotenoids and vitamins A, C, and E, and prevalence of colorectal adenomas. , 1996, Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology.

[78]  J. Bertram,et al.  Carotenoids enhance gap junctional communication and inhibit lipid peroxidation in C3H/10T1/2 cells: relationship to their cancer chemopreventive action. , 1991, Carcinogenesis.

[79]  Verónica del Carmen Martínez‐Jiménez,et al.  miRNAs in nutrition, obesity, and cancer: The biology of miRNAs in metabolic disorders and its relationship with cancer development , 2018, Molecular nutrition & food research.

[80]  藤倉雄二,et al.  わが国における成人市中肺炎原因微生物についてのsystematic review/meta‐analysis , 2016 .

[81]  Robin L. Jones,et al.  Down-regulation of the miRNA master regulators Drosha and Dicer is associated with specific subgroups of breast cancer. , 2011, European journal of cancer.

[82]  W. Willett,et al.  Dietary carotenoids and risk of colorectal cancer in a pooled analysis of 11 cohort studies. , 2007, American journal of epidemiology.

[83]  鄧寒冰 Cigarette smoking and diabetes mellitus : a case-control study in Guangdong China , 2005 .

[84]  B. Chew,et al.  Carotenoid action on the immune response. , 2004, The Journal of nutrition.

[85]  F. Khachik,et al.  Chemopreventive effects of carotenoids and curcumins on mouse colon carcinogenesis after 1,2-dimethylhydrazine initiation. , 1998, Carcinogenesis.

[86]  F. Khachik,et al.  Inhibitory effects of natural carotenoids, alpha-carotene, beta-carotene, lycopene and lutein, on colonic aberrant crypt foci formation in rats. , 1996, Cancer letters.