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肿瘤坏死因子受体1是一种由死亡结构域沉默子调节的ATP酶。

Tumor necrosis factor receptor 1 is an ATPase regulated by silencer of death domain.

作者信息

Miki Kiyoshi, Eddy Edward M

机构信息

Gamete Biology Section, Laboratory of Reproductive and Developmental Toxicology, National Institute of Environmental Health Sciences, National Institutes of Health, Research Triangle Park, North Carolina 27709, USA.

出版信息

Mol Cell Biol. 2002 Apr;22(8):2536-43. doi: 10.1128/MCB.22.8.2536-2543.2002.

DOI:10.1128/MCB.22.8.2536-2543.2002
PMID:11909948
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC133739/
Abstract

Self-aggregation of tumor necrosis factor receptor type 1 (TNFR1) induces spontaneous downstream signaling and results in cell death. It has been suggested that silencer of death domain (SODD) binds TNFR1 monomers to prevent self-aggregation. We found that SODD binds through its BAG domain to the ATPase domain of Hsp70. We also determined that SODD binds through its BAG domain to TNFR1. ATP, but not nonhydrolyzable ATP-gamma S, regulates the SODD binding by Hsp70 or TNFR1. ATP binding by TNFR1 was abolished when a point mutation was introduced into a phosphate-binding loop motif characteristic of ATP-binding proteins, suggesting that TNFR1 functions as an ATPase. Furthermore, TNFR1 was present in aggregates in ATP-depleted cells and SODD disassembled aggregates in vitro only in the presence of ATP. These data suggest that SODD functions as a cofactor analogous to the nucleotide exchange factor BAG-1, which modulates the ATPase cycle of Hsp70 proteins. We propose a new model in which a nucleotide-dependent conformational change in TNFR1 has a key role in regulating TNF signaling.

摘要

肿瘤坏死因子受体1型(TNFR1)的自我聚集会诱导自发的下游信号传导并导致细胞死亡。有人提出死亡结构域沉默蛋白(SODD)与TNFR1单体结合以防止自我聚集。我们发现SODD通过其BAG结构域与Hsp70的ATP酶结构域结合。我们还确定SODD通过其BAG结构域与TNFR1结合。ATP而非不可水解的ATP-γ-S调节Hsp70或TNFR1与SODD的结合。当在ATP结合蛋白特有的磷酸结合环基序中引入点突变时,TNFR1的ATP结合被消除,这表明TNFR1具有ATP酶功能。此外,TNFR1存在于ATP耗尽细胞的聚集体中,并且SODD仅在ATP存在的情况下在体外拆解聚集体。这些数据表明SODD作为一种类似于核苷酸交换因子BAG-1的辅助因子发挥作用,后者调节Hsp70蛋白的ATP酶循环。我们提出了一种新模型,其中TNFR1中依赖核苷酸的构象变化在调节TNF信号传导中起关键作用。

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