Du Zhenggui, Zhou Yongjie, Lu Xufeng, Li Lei, Lu Changli, Li Li, Li Bo, Bu Hong, Yang Jiayin, Shi Yujun
Laboratory of Pathology, West China Hospital, Sichuan University, Chengdu, China.
Department of Liver Surgery, West China Hospital, Sichuan University, Chengdu, China.
Liver Int. 2016 Feb;36(2):212-22. doi: 10.1111/liv.12863. Epub 2015 May 25.
BACKGROUND & AIMS: Insufficient liver regeneration and hepatocyte injury caused by excessive portal perfusion are considered to be responsible for post-hepatectomy liver failure (PLF) or small-for-size syndrome in living-donor liver transplantation. Somatostatin can decrease portal vein pressure (PVP) but simultaneously inhibits liver regeneration. This interesting paradox motivated us to investigate the outcome of PLF in response to somatostatin treatment.
Rats receiving extended partial hepatectomy (90% PH) were treated with octreotide, a somatostatin analogue, or placebo. Animal survival, serum parameters and hepatic histology were evaluated. Metabolomic analysis was performed to investigate the effect of octreotide on hepatocyte metabolism.
Despite significantly inhibiting early regeneration, octreotide application noticeably improved the hepatic histology, liver function and survival after PH but did not decrease the PVP level. Metabolomic analysis exhibited that octreotide profoundly and exclusively altered the levels of five metabolites that participate in or closely associate with the methionine cycle, a biochemical reaction that uniquely produces S-adenosylmethionine (SAMe), an active methyl residual donor for methyltransferase reactions. Among these metabolites, 5'-methylthioadenosine (MTA), a derivate of SAMe, increased three-fold and was found independently improve the hepatic histology and reduce inflammatory cytokines in hepatectomized rats.
Octreotide exclusively regulates the methionine cycle reaction and augments the MTA level in hepatocytes. MTA prominently protects hepatocytes against shear stress injury and reduces the secondary inflammation, thereby protecting rats from PLF.
肝切除术后肝衰竭(PLF)或活体肝移植中的小肝综合征被认为是由门静脉灌注过多导致的肝再生不足和肝细胞损伤所致。生长抑素可降低门静脉压力(PVP),但同时会抑制肝再生。这一有趣的矛盾促使我们研究生长抑素治疗对PLF结局的影响。
接受扩大性部分肝切除术(90%肝切除)的大鼠接受生长抑素类似物奥曲肽或安慰剂治疗。评估动物存活率、血清参数和肝脏组织学。进行代谢组学分析以研究奥曲肽对肝细胞代谢的影响。
尽管奥曲肽显著抑制早期肝再生,但它能显著改善肝组织学、肝功能以及肝切除术后的存活率,但并未降低PVP水平。代谢组学分析显示,奥曲肽深刻且特异性地改变了五种代谢物的水平,这些代谢物参与蛋氨酸循环或与之密切相关,蛋氨酸循环是一种独特产生S-腺苷甲硫氨酸(SAMe)的生化反应,SAMe是甲基转移酶反应的活性甲基供体。在这些代谢物中,SAMe的衍生物5'-甲硫基腺苷(MTA)增加了三倍,并且发现其能独立改善肝切除大鼠的肝组织学并减少炎性细胞因子。
奥曲肽特异性调节蛋氨酸循环反应并提高肝细胞中的MTA水平。MTA能显著保护肝细胞免受剪切应力损伤并减轻继发性炎症,从而保护大鼠免受PLF的影响。
