Jourdainne Valeska, Péan Noémie, Doignon Isabelle, Humbert Lydie, Rainteau Dominique, Tordjmann Thierry
INSERM U 1174, Université Paris Sud, Orsay, France.
Dig Dis. 2015;33(3):319-26. doi: 10.1159/000371668. Epub 2015 May 27.
Most of the literature on the bile acid (BA) membrane receptor TGR5 is dedicated to its potential role in the metabolic syndrome, through its regulatory impact on energy expenditure, insulin and GLP-1 secretion, and inflammatory processes. While the receptor was cloned in 2002, very little data are available on TGR5 functions in the normal and diseased liver. However, TGR5 is highly expressed in Kupffer cells and liver endothelial cells, and is particularly enriched in the biliary tract [cholangiocytes and gallbladder (GB) smooth muscle cells]. We recently demonstrated that TGR5 has a crucial protective impact on the liver in case of BA overload, including after partial hepatectomy.
TGR5-KO mice after PH exhibited periportal bile infarcts, excessive hepatic inflammation and defective adaptation of biliary composition (bicarbonate and chloride). Most importantly, TGR5-KO mice had a more hydrophobic BA pool, with more secondary BA than WT animals, suggesting that TGR5-KO bile may be harmful for the liver, mainly in situations of BA overload. As GB is both the tissue displaying the highest level of TGR5 expression and a crucial physiological site for the regulation of BA pool hydrophobicity by reducing secondary BA, we investigated whether TGR5 may control BA pool composition through an impact on GB. Preliminary data suggest that in the absence of TGR5, reduced GB filling dampens the cholecystohepatic shunt, resulting in more secondary BA, more hydrophobic BA pool and extensive liver injury in case of BA overload.
In the setting of BA overload, TGR5 is protective of the liver through the regulation of not only secretory and inflammatory processes, but also through the control of BA pool composition, at least in part by targeting the GB. Thereby, TGR5 appears to be crucial for protecting the regenerating liver from BA overload.
关于胆汁酸(BA)膜受体TGR5的大多数文献都致力于研究其在代谢综合征中的潜在作用,它通过对能量消耗、胰岛素和胰高血糖素样肽-1(GLP-1)分泌以及炎症过程的调节作用来实现。尽管该受体于2002年被克隆,但关于TGR5在正常肝脏和患病肝脏中的功能的数据却非常少。然而,TGR5在库普弗细胞和肝内皮细胞中高表达,并且在胆道[胆管细胞和胆囊(GB)平滑肌细胞]中尤其富集。我们最近证明,在BA过载的情况下,包括部分肝切除术后,TGR5对肝脏具有至关重要的保护作用。
部分肝切除术后的TGR5基因敲除(KO)小鼠表现出门周胆汁梗死、过度的肝脏炎症以及胆汁成分(碳酸氢盐和氯化物)适应性缺陷。最重要的是,TGR5-KO小鼠的胆汁酸池更具疏水性,与野生型动物相比,次级胆汁酸更多,这表明TGR5-KO胆汁可能对肝脏有害,主要是在胆汁酸过载的情况下。由于GB既是TGR5表达水平最高的组织,也是通过减少次级胆汁酸来调节胆汁酸池疏水性的关键生理部位,我们研究了TGR5是否可能通过影响GB来控制胆汁酸池的组成。初步数据表明,在缺乏TGR5的情况下,GB充盈减少会抑制胆囊肝分流,导致更多的次级胆汁酸、更具疏水性的胆汁酸池以及在胆汁酸过载时广泛的肝损伤。
在胆汁酸过载的情况下,TGR5不仅通过调节分泌和炎症过程,而且至少部分地通过靶向GB来控制胆汁酸池的组成,从而对肝脏起到保护作用。因此,TGR5对于保护再生肝脏免受胆汁酸过载至关重要。
