次级（同）BAs 与内源性配体在生理和病理条件下协同作用激活 FXR。

Secondary (iso)BAs cooperate with endogenous ligands to activate FXR under physiological and pathological conditions.

机构信息

Division of Gastroenterology and Hepatology, Department of Internal Medicine, Medical University of Graz, Austria.

Tytgat Institute for Liver and Intestinal Research, & Department of Gastroenterology and Hepatology, Amsterdam University Medical Centers, University of Amsterdam, the Netherlands; Amsterdam Gastroenterology, Endocrinology, Metabolism (AGEM), Amsterdam University Medical Centers, the Netherlands.

出版信息

Biochim Biophys Acta Mol Basis Dis. 2021 Aug 1;1867(8):166153. doi: 10.1016/j.bbadis.2021.166153. Epub 2021 Apr 22.

DOI:10.1016/j.bbadis.2021.166153

PMID:33895309

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8177068/

Abstract

UNLABELLED

IsoBAs, stereoisomers of primary and secondary BAs, are found in feces and plasma of human individuals. BA signaling via the nuclear receptor FXR is crucial for regulation of hepatic and intestinal physiology/pathophysiology.

AIM

Investigate the ability of BA-stereoisomers to bind and modulate FXR under physiological/pathological conditions.

METHODS

Expression-profiling, luciferase-assays, fluorescence-based coactivator-association assays, administration of (iso)-BAs to WT and cholestatic mice.

RESULTS

Compared to CDCA/isoCDCA, administration of DCA/isoDCA, UDCA/isoUDCA only slightly increased mRNA expression of FXR target genes; the induction was more evident looking at pre-mRNAs. Notably, almost 50% of isoBAs were metabolized to 3-oxo-BAs within 4 h in cell-based assays, making it difficult to study their actions. FRET-based real-time monitoring of FXR activity revealed that isoCDCA>CDCA stimulated FXR, and isoDCA and isoUDCA allowed fully activated FXR to be re-stimulated by a second dose of GW4064. In vivo co-administration of a single dose of isoBAs followed by GW4064 cooperatively activated FXR, as did feeding of UDCA in a background of endogenous FXR ligands. However, in animals with biliary obstruction and concomitant loss of intestinal BAs, UDCA was unable to increase intestinal Fgf15. In contrast, mice with an impaired enterohepatic circulation of BAs (Asbt-/-, Ostα-/-), administration of UDCA was still able to induce ileal Fgf15 and repress hepatic BA-synthesis, arguing that UDCA is only effective in the presence of endogenous FXR ligands.

CONCLUSION

Secondary (iso)BAs cooperatively activate FXR in the presence of endogenous BAs, which is important to consider in diseases linked to disturbances in BA enterohepatic cycling.

摘要

未加标签

IsoBAs 是初级和次级 BAs 的立体异构体，存在于人类个体的粪便和血浆中。BA 通过核受体 FXR 信号传导对于调节肝脏和肠道生理/病理生理学至关重要。

目的

研究 BA 立体异构体在生理/病理条件下与 FXR 结合和调节的能力。

方法

表达谱分析、荧光素酶测定、基于荧光的共激活剂结合测定、WT 和胆汁淤积小鼠中（iso）BAs 的给药。

结果

与 CDCA/isoCDCA 相比，DCA/isoDCA 和 UDCA/isoUDCA 的给药仅略微增加了 FXR 靶基因的 mRNA 表达；在研究前体 mRNA 时，诱导作用更为明显。值得注意的是，在基于细胞的测定中，近 50%的 isoBAs 在 4 小时内代谢为 3-氧代-BAs，使得很难研究它们的作用。FRET 实时监测 FXR 活性表明，isoCDCA>CDCA 刺激 FXR，而 isoDCA 和 isoUDCA 允许完全激活的 FXR 被 GW4064 的第二剂量重新刺激。在体内单次给予 isoBAs 后再给予 GW4064 可协同激活 FXR，而在内源性 FXR 配体的背景下给予 UDCA 也是如此。然而，在伴有胆汁淤积和肠道 BAs 丧失的动物中，UDCA 不能增加肠道 Fgf15。相比之下，在具有胆汁酸肠肝循环受损的动物（Asbt-/-、Ostα-/-）中，给予 UDCA 仍能诱导回肠 Fgf15 并抑制肝脏 BA 合成，这表明 UDCA 仅在存在内源性 FXR 配体时才有效。

结论

次级（iso）BAs 在存在内源性 BAs 的情况下协同激活 FXR，这在与 BA 肠肝循环紊乱相关的疾病中需要考虑。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fd15/8177068/2cbf4af9ecd1/nihms-1706919-f0001.jpg

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次级（同）BAs 与内源性配体在生理和病理条件下协同作用激活 FXR。

Secondary (iso)BAs cooperate with endogenous ligands to activate FXR under physiological and pathological conditions.

机构信息

出版信息

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AIM

METHODS

RESULTS

CONCLUSION

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目的

方法

结果

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