Graduate Program in Gastroenterology and Hepatology Sciences, School of Medicine, Universidade Federal do Rio Grande do Sul, Porto Alegre, Brazil.
Department of Genetics, Graduate Program in Genetics and Molecular Biology, Universidade Federal do Rio Grande do Sul, Porto Alegre, Brazil.
J Hum Genet. 2017 Nov;62(11):969-977. doi: 10.1038/jhg.2017.75. Epub 2017 Jul 13.
Vitamin D deficiency is prevalent in liver disease and vitamin D has been shown to decrease hepatic fibrosis through an anti-TGFβ-1/SMAD3 effect mediated by the vitamin D receptor. Thus, we hypothesized that genetic variants involved in vitamin D metabolism and/or VDR/TGFβ-1/SMAD3 interaction could impact on the progression of chronic HCV. We obtained or imputed genotypes for 40 single nucleotide polymorphisms (SNPs) located in genes implicated in vitamin D metabolism from the HALT-C cohort via dbGaP. The HALT-C study followed 692 chronic HCV patients over 4 years, evaluating clinical outcomes including worsening of fibrosis, hepatic decompensation (gastric/esophageal bleeding, CTP>7, ascites, spontaneous bacterial peritonitis and encephalopathy), development of hepatocellular carcinoma, and liver death. We tested the selected SNPs for association with these outcomes in 681 HALT-C subjects. Eleven SNPs presented tendency towards significance (P<0.05): four SNPs in DHCR7 related to with hepatic decompensation (rs4944957, rs12800438, rs3829251 and rs4945008); two in GC to worsening of fibrosis and liver death (rs7041 and rs222020); two in CYP2R1 to ascites and hepatocellular carcinoma (rs7116978 and rs1562902); two in VDR to gastric/esophageal bleeding and hepatocellular carcinoma (rs4516035 and rs2239186); and one in SMAD3 to worsening of fibrosis and encephalopathy (rs2118610). Only rs1800469 in TGFB1 was statistically associated with hepatic decompensation after Bonferroni's correction (P<0.00125). In conclusion, rs1800469 in TGFB1 was associated to hepatic decompensation in chronic hepatitis C, while the other 11 described polymorphisms must be evaluated in a larger cohort to determine the possible role of vitamin D in hepatitis C.
维生素 D 缺乏在肝病中很常见,维生素 D 已被证明通过维生素 D 受体介导的抗 TGFβ-1/SMAD3 作用来减少肝纤维化。因此,我们假设参与维生素 D 代谢和/或 VDR/TGFβ-1/SMAD3 相互作用的遗传变异可能影响慢性 HCV 的进展。我们通过 dbGaP 从 HALT-C 队列中获得或推断了与维生素 D 代谢相关基因中的 40 个单核苷酸多态性(SNP)的基因型。HALT-C 研究对 692 例慢性 HCV 患者进行了 4 年的随访,评估了包括纤维化恶化、肝失代偿(胃/食管出血、CTP>7、腹水、自发性细菌性腹膜炎和肝性脑病)、肝细胞癌发展和肝死亡在内的临床结局。我们在 681 名 HALT-C 受试者中测试了这些选择的 SNP 与这些结局的关联。11 个 SNP 呈现出显著趋势(P<0.05):与肝失代偿相关的 DHCR7 中的四个 SNP(rs4944957、rs12800438、rs3829251 和 rs4945008);两个在 GC 中与纤维化恶化和肝死亡相关(rs7041 和 rs222020);两个在 CYP2R1 中与腹水和肝细胞癌相关(rs7116978 和 rs1562902);两个在 VDR 中与胃/食管出血和肝细胞癌相关(rs4516035 和 rs2239186);一个在 SMAD3 中与纤维化恶化和肝性脑病相关(rs2118610)。只有 TGFB1 中的 rs1800469 在 Bonferroni 校正后与肝失代偿统计学相关(P<0.00125)。总之,TGFB1 中的 rs1800469 与慢性丙型肝炎的肝失代偿相关,而其他 11 个描述的多态性必须在更大的队列中进行评估,以确定维生素 D 在丙型肝炎中的可能作用。
