CMA 仅限于哺乳动物和鸟类:是神话还是现实?
CMA restricted to mammals and birds: myth or reality?
机构信息
a UMR1419 Nutrition Metabolisme Aquaculture , INRA-UPPA , St-Pée-sur-Nivelle , France.
b INRA, UR1037 Fish Physiology and Genomics , Rennes , France.
出版信息
Autophagy. 2018;14(7):1267-1270. doi: 10.1080/15548627.2018.1460021. Epub 2018 Jul 20.
Abstract
Chaperone-mediated autophagy (CMA) is a major pathway of lysosomal proteolysis essential for the control of intermediary metabolism. So far, the absence of any identifiable LAMP2A - a necessary and limiting protein for CMA - outside of the tetrapod clade, led to the paradigm that this cellular function was (presumably) restricted to mammals and birds. However, after we identified expressed sequences displaying high sequence homology with the mammalian LAMP2A in several fish species, our findings challenge that view and suggest that CMA likely appeared much earlier during evolution than initially thought. Hence, our results do not only shed an entirely new light on the evolution of CMA, but also bring new perspectives on the possible use of complementary genetic models, such as zebrafish or medaka for studying CMA function from a comparative angle/view.
摘要
伴侣蛋白介导的自噬(CMA)是溶酶体蛋白水解的主要途径,对于中间代谢的控制至关重要。到目前为止,除了四足动物分支之外,任何可识别的 LAMP2A(CMA 的必要和限制蛋白)都不存在,这导致了这样的范式,即这种细胞功能(推测)仅限于哺乳动物和鸟类。然而,在我们在几种鱼类中鉴定出与哺乳动物 LAMP2A 具有高度序列同源性的表达序列后,我们的发现挑战了这一观点,并表明 CMA 可能在进化过程中出现的时间比最初想象的要早得多。因此,我们的研究结果不仅为 CMA 的进化提供了全新的视角,还为利用补充遗传模型(如斑马鱼或青鳉)从比较的角度/观点研究 CMA 功能提供了新的视角。
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