动物分泌内溶酶体通道的发现。

Animal secretory endolysosome channel discovery.

机构信息

Key Laboratory of Animal Models and Human Disease Mechanisms of the Chinese Academy of Sciences & Yunnan Province, Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, Yunnan 650223, China.

Center for Excellence in Animal Evolution and Genetics, Chinese Academy of Sciences, Kunming, Yunnan 650223, China. E-mail:

出版信息

Zool Res. 2021 Mar 18;42(2):141-152. doi: 10.24272/j.issn.2095-8137.2020.358.

DOI:10.24272/j.issn.2095-8137.2020.358

PMID:33527802

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7995273/

Abstract

Secretory pore-forming proteins (PFPs) have been identified in organisms from all kingdoms of life. Our studies with the toad species found an interaction network among aerolysin family PFPs (af-PFPs) and trefoil factors (TFFs). As a toad af-PFP, BmALP1 can be reversibly regulated between active and inactive forms, with its paralog BmALP3 acting as a negative regulator. BmALP1 interacts with BmTFF3 to form a cellular active complex called βγ-CAT. This PFP complex is characterized by acting on endocytic pathways and forming pores on endolysosomes, including stimulating cell macropinocytosis. In addition, cell exocytosis can be induced and/or modulated in the presence of βγ-CAT. Depending on cell contexts and surroundings, these effects can facilitate the toad in material uptake and vesicular transport, while maintaining mucosal barrier function as well as immune defense. Based on experimental evidence, we hereby propose a secretory endolysosome channel (SELC) pathway conducted by a secreted PFP in cell endocytic and exocytic systems, with βγ-CAT being the first example of a SELC protein. With essential roles in cell interactions and environmental adaptations, the proposed SELC protein pathway should be conserved in other living organisms.

摘要

分泌孔形成蛋白 (PFPs) 在所有生命领域的生物中都有被发现。我们对蟾蜍物种的研究发现， aerolysin 家族 PFPs（af-PFPs）和三叶因子（TFFs）之间存在相互作用网络。作为一种蟾蜍 af-PFP，BmALP1 可以在活性和非活性形式之间进行可逆调节，其同源物 BmALP3 则作为负调节剂。BmALP1 与 BmTFF3 相互作用形成一种称为 βγ-CAT 的细胞活性复合物。这种 PFP 复合物的特点是作用于内吞途径，并在内溶酶体上形成孔，包括刺激细胞巨胞饮作用。此外，在存在 βγ-CAT 的情况下，可以诱导和/或调节细胞胞吐作用。根据细胞的上下文和环境，这些作用可以促进蟾蜍吸收物质和囊泡运输，同时维持黏膜屏障功能和免疫防御。基于实验证据，我们在此提出了一种由分泌性 PFP 在细胞内吞和胞吐系统中进行的分泌内溶酶体通道 (SELC) 途径，βγ-CAT 是 SELC 蛋白的第一个例子。该 SELC 蛋白途径在细胞相互作用和环境适应中具有重要作用，应该在其他生物体中保守。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/36b7/7995273/8a805fe21e5c/zr-42-2-141-1.jpg

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动物分泌内溶酶体通道的发现。

Animal secretory endolysosome channel discovery.

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