Michael G Hanna, Hely O Rodriguez Cruz, Kenshiro Fujise, Yumei Wu, C Shan Xu, Song Pang, Zhuonging Li, Mara Monetti, Pietro De Camilli
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引用次数: 0
Abstract
Recent studies have identified a family of rod-shaped proteins thought to mediate lipid transfer at intracellular membrane contacts by a bridge-like mechanism. We show that one such protein, bridge-like lipid transfer protein 3A (BLTP3A)/UHRF1BP1 binds VAMP7 vesicles via its C-terminal region, and anchors them to lysosomes via its chorein domain-containing N-terminal region binding to Rab7. Upon lysosome damage, BLTP3A-positive vesicles rapidly (within minutes) dissociate from lysosomes. Lysosome damage is known to activate the CASM (Conjugation of ATG8 to Single Membranes) pathway, leading to lipidation and lysosomal recruitment of mammalian ATG8 (mATG8) proteins. We find that this process drives the reassociation of BLTP3A with damaged lysosomes via an interaction of its LIR motif with mATG8 which coincides with a dissociation from the vesicles. Our findings reveal that BLTP3A is an effector of CASM, potentially as part of a mechanism to help repair or minimize lysosome damage.
最近的研究发现了一个杆状蛋白家族,被认为通过桥状机制介导细胞膜内接触的脂质转移。我们发现一种这样的蛋白,桥状脂质转移蛋白3A (BLTP3A)/UHRF1BP1通过其c端区域与VAMP7囊泡结合,并通过其含有chorein结构域的n端区域与Rab7结合,将它们固定在溶酶体上。溶酶体损伤后,bltp3a阳性囊泡迅速(几分钟内)与溶酶体分离。已知溶酶体损伤可激活CASM (ATG8 to Single Membranes Conjugation of ATG8)途径,导致哺乳动物ATG8 (mATG8)蛋白脂化和溶酶体募集。我们发现这一过程通过其LIR基序与mATG8的相互作用驱动BLTP3A与受损溶酶体的重新结合,这与囊泡的解离相吻合。我们的研究结果表明,BLTP3A是CASM的一种效应物,可能是帮助修复或减少溶酶体损伤的机制的一部分。
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