鼠胰腺脂肪酶相关蛋白-2 的动力学特性表明，鼠可能不能模拟人体脂肪消化。

Kinetic properties of mouse pancreatic lipase-related protein-2 suggest the mouse may not model human fat digestion.

机构信息

Department of Pediatrics, Children's Hospital of Pittsburgh, University of Pittsburgh Medical Center, Pittsburgh, PA, USA.

出版信息

J Lipid Res. 2011 May;52(5):982-90. doi: 10.1194/jlr.M014290. Epub 2011 Mar 7.

DOI:10.1194/jlr.M014290

PMID:21382969

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3073462/

Abstract

Genetically engineered mice have been employed to understand the role of lipases in dietary fat digestion with the expectation that the results can be extrapolated to humans. However, little is known about the properties of mouse pancreatic triglyceride lipase (mPTL) and pancreatic lipase-related protein-2 (mPLRP2). In this study, both lipases were expressed in Pichia Pastoris GS115, purified to near homogeneity, and their properties were characterized. Mouse PTL displayed the kinetics typical of PTL from other species. Like mPTL, mPLRP2 exhibited strong activity against various triglycerides. In contrast to mPTL, mPLRP2 was not inhibited by increasing bile salt concentration. Colipase stimulated mPLRP2 activity 2- to 4-fold. Additionally, mPTL absolutely required colipase for absorption to a lipid interface, whereas mPLRP2 absorbed fully without colipase. mPLRP2 had full activity in the presence of BSA, whereas BSA completely inhibited mPTL unless colipase was present. All of these properties of mPLRP2 differ from the properties of human PLRP2 (hPLRP2). Furthermore, mPLRP2 appears capable of compensating for mPTL deficiency. These findings suggest that the molecular mechanisms of dietary fat digestion may be different in humans and mice. Thus, extrapolation of dietary fat digestion in mice to humans should be done with care.

摘要

已使用基因工程小鼠来了解脂肪酶在膳食脂肪消化中的作用，期望这些结果可以外推至人类。然而，人们对小鼠胰腺三酰基甘油脂肪酶（mPTL）和胰腺脂肪酶相关蛋白-2（mPLRP2）的特性知之甚少。在本研究中，这两种脂肪酶均在毕赤酵母 GS115 中表达，且被纯化至接近均一性，并对其特性进行了表征。小鼠 PTL 表现出与其他物种 PTL 典型的动力学特征。与 mPTL 一样，mPLRP2 对各种三酰基甘油表现出强烈的活性。与 mPTL 不同的是，mPLRP2 不受胆汁盐浓度增加的抑制。辅脂酶将 mPLRP2 的活性刺激 2-4 倍。此外，mPTL 绝对需要辅脂酶才能吸收到脂质界面，而 mPLRP2 无需辅脂酶即可完全吸收。mPLRP2 在存在 BSA 的情况下具有全部活性，而 BSA 完全抑制 mPTL，除非存在辅脂酶。mPLRP2 的所有这些特性均与人类 PLRP2（hPLRP2）的特性不同。此外，mPLRP2 似乎能够弥补 mPTL 的缺乏。这些发现表明，人类和小鼠的膳食脂肪消化的分子机制可能不同。因此，应该谨慎地将小鼠的膳食脂肪消化外推至人类。

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