Replication Study of Association between Forkhead Box O3 (FOXO3) Polymorphisms and Tuberculosis in Korean Population |
Park, Sangjung
(Department of Biomedical Laboratory Science, College of Life and Health Sciences, Hoseo University)
Kim, Sung-Soo (Department of Biomedical Laboratory Science, College of Life and Health Sciences, Hoseo University) Jin, Hyun-Seok (Department of Biomedical Laboratory Science, College of Life and Health Sciences, Hoseo University) Cho, Jang-Eun (Department of Biomedical Laboratory Science, Daegu Health College) |
1 | Marlow G, Han DY, Triggs CM, Ferguson LR. Food intolerance: Associations with the rs12212067 polymorphism of FOXO3 in Crohn's disease patients in New Zealand. Journal of Nutrigenetics and Nutrigenomics. 2015. 8: 70-80. DOI |
2 | Petruccioli E, Scriba TJ, Petrone L, Hatherill M, Cirillo DM, Joosten SA, Ottenhoff TH, Denkinger CM, Goletti D. Correlates of tuberculosis risk: predictive biomarkers for progression to active tuberculosis. The European Respiratory Journal. 2016. 48: 1751-1763. DOI |
3 | Ticchioni M, Essafi M, Jeandel PY, Davi F, Cauusto JP, Deckert M, Bernard A. Homeostatic chemokines increase survival of B-chronic lymphocytic leukemia cells through inactivation of transcription factor FOXO3a. Oncogene. 2007. 26: 7081-7091 DOI |
4 | Wang B, Wang Y, Wang L, He X, He Y, Bai M, Zhu L, Zheng J, Yuan D, Jin T. The role of FOXO3 polymorphisms in susceptibility to tuberculosis in a Chinese population. Molecular Genetics & Genomic Medicine. 2019. 7: e770. |
5 | Xi X, Zhang C, Han W, Zhao H, Zhang H, Jiao J. MicroRNA-223 is upregulated in active tubercuclosis patients and inhibits apoptosis of macrophages by targeting FOXO3. Genet Test Mol Biomarkers. 2015. 19: 650-656. DOI |
6 | Bouzeyen R, Haoues M, Barbouche MR, Singh R, Essafi M. FOXO3 transcription factor regulates IL-10 expression in Mycobacteria-infected macrophages, tuning their polarization and the subsequent adaptive immune response. Frontiers in Immunology. 2019. 10: 2922. DOI |
7 | Brunet A, Bonni A, Zigmond MJ, Lin MZ, Juo P, Hu LS, Anderson MJ, Arden KC, Blenis J, Greenberg ME. Akt promotes cell survival by phosphorylating and inhibiting a forkhead transcription factor. Cell. 1999. 96: 857-868. DOI |
8 | Cho YS, Go MJ, Kim YJ, Heo JY, Oh JH, Ban HJ, Yoon D, Lee MH, Kim DJ, Park M, Cha SH, Kim JW, Han BG, Min H, Ahn Y, Park MS, Han HR, Jang HY, Cho EY, Lee JE, Cho NH, Shin C, Park T, Park JW, Lee JK, Cardon L, Clarke G, McCarthy MI, Lee JY, Lee JK, Oh B, Kim HL. A large-scale genome-wide association study of Asian populations uncovers genetic factors influencing eight quantitative traits. Nature Genetics. 2009. 41:527-534. DOI |
9 | Comstock GW. Tuberculosis in twins: a re-analysis of the Prophit survey. The American Review of Respiratory Disease. 1978. 117: 621-624. |
10 | Haoues M, Refai A, Mallasvialle A, Barbouche MR, Laabidi N, Deckert M, Essafi M. Forkhead box O3 (FOXO3) transcription factor mediated apoptosis in BCG-infected macrophages. Cellular Microbiology. 2014. 16: 1378-1390. DOI |
11 | Hwang JW, Rajendrasozhan S, Yao H, Chung S, Sundar IK, Huyck HI, Pryhuber GS, Kinnula VL, Rahman I. FOXO3 deficiency leads to increased susceptibility to cigarette smoke-induced inflammation, airspace enlargement, and chronic obstructive pulmonary disease. J Immunol. 2011. 187: 987-998. DOI |
12 | Jin HS, Park S. Association of the CD226 Genetic polymorphisms with Risk of Tuberculosis. Biomedical Science Letters. 2017. 23: 89-95. DOI |
13 | Arden KC. FOXO animal models reveal a variety of diverse roles for FOXO transcription factors. Oncogene. 2008. 27: 2345-2350. DOI |
14 | Jin HS, Cho JE, Park S. Association between CD53 genetic polymorphisms and tuberculosis cases. Genes & Genomics. 2019. 41: 389-395. DOI |
15 | Junqueira C, Caetano B, Bartholemeu DC, Melo MB. Ropert C, Rodrigues MM, Gazzinelli RT. The endless race between Trypanosoma cruzi and host immunity: lessons for and beyond Chagas disease. Expert Reviews in Molecular Medicine. 2010. 15: 12: e29. |
16 | KCDC. Korean Tuberculosis Report. 2015. http://tbzero.cdc.go.kr/tbzero/main.do?pageEvent=N |
17 | Langhorne J, Albano FR, Hensmann M, Sanni L, Cadman E, Voisine C, Sponaas AM. Dendritic cells, pro-inflammatory responses, and antigen presentation in a rodent malaria infection. Immonological Reviews. 2004. 201: 35-47. DOI |
18 | Lee JC, Espeli M, Anderson CA, Linterman MA, Pocock JM, Williams NJ, Roberts R, Viatte S, Fu B, Peshu N, Hien TT, Phu NH, Wesley E, Edwards C, Ahmad T, Mansfield JC, Gearry R, Dunstan S, Williams TN, Barton A, Vinuesa CG, UK IBD Genetics Consortium, Parkes M, Lyons PA, Smith KG. Human SNP links differential outcomes in inflammatory and infectious disease to a FOXO3 regulated pathway. Cell. 2013. 155: 57-69. DOI |
19 | Li Y, Willer CJ, Ding J, Scheet P, Abecasis GR, MaCH: using sequence and genotype data to estimate haplotypes and unobserved genotypes. Genet Epidemiol. 2010. 34:816-834. DOI |
20 | Lu Y, Zhu Y, Wang X, Wang F, Peng J, Hou H, Sun Z. FOXO3 rs12212067: T>G association with active tuberculosis in Han Chinese population. Inflammation. 2016. 39: 10-15. https://doi.org/10.1007/s10753-015-0217-y DOI |
21 | Mahasirimongkol S, Yanai H, Mushiroda T, Promphittayarat W, Wattanapokayakit S, Phromjai J, Yuliwulandari R, Wichukchinda N, Yowang A, Yamada N, Kantipong P, Takahashi A, Kubo M, Sawanpanyalert P, Kamatani N, Nakamura Y, Tokunaga K. Genome-wide association studies of tuberculosis in Asians identify distinct at-risk locus for young tuberculosis. Journal of Human Genetics. 2012. 57: 363-367. DOI |