内质网-溶酶体脂质转运蛋白 VPS13C/PARK23 可防止异常 mtDNA 依赖性 STING 信号传导。

ER-lysosome lipid transfer protein VPS13C/PARK23 prevents aberrant mtDNA-dependent STING signaling.

机构信息

Department of Neuroscience, Yale University School of Medicine, New Haven, CT.

Department of Cell Biology, Yale University School of Medicine, New Haven, CT.

出版信息

J Cell Biol. 2022 Jul 4;221(7). doi: 10.1083/jcb.202106046. Epub 2022 Jun 3.

DOI:10.1083/jcb.202106046

PMID:35657605

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9170524/

Abstract

Mutations in VPS13C cause early-onset, autosomal recessive Parkinson's disease (PD). We have established that VPS13C encodes a lipid transfer protein localized to contact sites between the ER and late endosomes/lysosomes. In the current study, we demonstrate that depleting VPS13C in HeLa cells causes an accumulation of lysosomes with an altered lipid profile, including an accumulation of di-22:6-BMP, a biomarker of the PD-associated leucine-rich repeat kinase 2 (LRRK2) G2019S mutation. In addition, the DNA-sensing cGAS-STING pathway, which was recently implicated in PD pathogenesis, is activated in these cells. This activation results from a combination of elevated mitochondrial DNA in the cytosol and a defect in the degradation of activated STING, a lysosome-dependent process. These results suggest a link between ER-lysosome lipid transfer and innate immune activation in a model human cell line and place VPS13C in pathways relevant to PD pathogenesis.

摘要

VPS13C 突变导致早发性常染色体隐性帕金森病 (PD)。我们已经证实 VPS13C 编码一种脂质转移蛋白，该蛋白定位于内质网和晚期内体/溶酶体之间的接触点。在本研究中，我们证明在 HeLa 细胞中耗尽 VPS13C 会导致溶酶体积累，脂质谱发生改变，包括 PD 相关富亮氨酸重复激酶 2 (LRRK2) G2019S 突变的生物标志物二 -22:6-BMP 的积累。此外，最近被认为与 PD 发病机制有关的 DNA 感应 cGAS-STING 途径在这些细胞中被激活。这种激活是由于细胞质中线粒体 DNA 水平升高和激活的 STING 降解缺陷的综合作用，这是一个溶酶体依赖性过程。这些结果表明在一个模型人类细胞系中内质网-溶酶体脂质转移与先天免疫激活之间存在联系，并将 VPS13C 置于与 PD 发病机制相关的途径中。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2594/9170524/ef754c827b15/JCB_202106046_Fig1.jpg

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内质网-溶酶体脂质转运蛋白 VPS13C/PARK23 可防止异常 mtDNA 依赖性 STING 信号传导。

ER-lysosome lipid transfer protein VPS13C/PARK23 prevents aberrant mtDNA-dependent STING signaling.

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