Nutrition and Metabolism Branch (NME), International Agency for Research on Cancer (IARC-WHO), Lyon, France.
Analytical Unit, Health Research Institute Hospital La Fe, Valencia, Spain.
Int J Cancer. 2022 Apr 15;150(8):1255-1268. doi: 10.1002/ijc.33885. Epub 2022 Jan 11.
Bile acids (BAs) play different roles in cancer development. Some are carcinogenic and BA signaling is also involved in various metabolic, inflammatory and immune-related processes. The liver is the primary site of BA synthesis. Liver dysfunction and microbiome compositional changes, such as during hepatocellular carcinoma (HCC) development, may modulate BA metabolism increasing concentration of carcinogenic BAs. Observations from prospective cohorts are sparse. We conducted a study (233 HCC case-control pairs) nested within a large observational prospective cohort with blood samples taken at recruitment when healthy with follow-up over time for later cancer development. A targeted metabolomics method was used to quantify 17 BAs (primary/secondary/tertiary; conjugated/unconjugated) in prediagnostic plasma. Odd ratios (OR) for HCC risk associations were calculated by multivariable conditional logistic regression models. Positive HCC risk associations were observed for the molar sum of all BAs (OR = 2.30, 95% confidence intervals [CI]: 1.76-3.00), and choline- and taurine-conjugated BAs. Relative concentrations of BAs showed positive HCC risk associations for glycoholic acid and most taurine-conjugated BAs. We observe an association between increased HCC risk and higher levels of major circulating BAs, from several years prior to tumor diagnosis and after multivariable adjustment for confounders and liver functionality. Increase in BA concentration is accompanied by a shift in BA profile toward higher proportions of taurine-conjugated BAs, indicating early alterations of BA metabolism with HCC development. Future studies are needed to assess BA profiles for improved stratification of patients at high HCC risk and to determine whether supplementation with certain BAs may ameliorate liver dysfunction.
胆汁酸(BAs)在癌症发展中发挥不同作用。一些胆汁酸具有致癌性,BA 信号也参与各种代谢、炎症和免疫相关过程。肝脏是 BA 合成的主要部位。肝脏功能障碍和微生物组组成变化,例如在肝细胞癌(HCC)发展过程中,可能会调节 BA 代谢,增加致癌性 BA 的浓度。前瞻性队列研究的观察结果很少。我们进行了一项研究(233 例 HCC 病例对照对),嵌套在一个大型观察性前瞻性队列中,在招募时健康时采集血液样本,并随着时间的推移进行随访以观察后期癌症的发展。使用靶向代谢组学方法定量测定了预诊断血浆中 17 种 BA(初级/次级/三级;结合/非结合)。多变量条件逻辑回归模型计算了 HCC 风险关联的比值比(OR)。观察到所有 BA 的摩尔总和(OR=2.30,95%置信区间[CI]:1.76-3.00)和胆碱和牛磺酸结合 BA 与 HCC 风险呈正相关。BA 的相对浓度与甘醇酸和大多数牛磺酸结合 BA 呈正相关 HCC 风险。我们观察到在肿瘤诊断前数年和在多变量调整混杂因素和肝功能后,与 HCC 风险增加相关的主要循环 BA 水平升高。BA 浓度的增加伴随着 BA 谱向更高比例的牛磺酸结合 BA 的转变,表明随着 HCC 的发展,BA 代谢发生早期改变。需要进一步研究评估 BA 谱,以改善高 HCC 风险患者的分层,并确定补充某些 BA 是否可以改善肝功能障碍。
