棕榈酰化对于 TNF-R1 信号转导是必需的。

Palmitoylation is required for TNF-R1 signaling.

机构信息

Institute of Immunology, Christian-Albrechts-University of Kiel, Kiel, Germany.

Facility for Mass Spectrometry and Proteomics, MPI for Terrestrial Microbiology, Marburg, Germany.

出版信息

Cell Commun Signal. 2019 Aug 5;17(1):90. doi: 10.1186/s12964-019-0405-8.

DOI:10.1186/s12964-019-0405-8

PMID:31382980

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6683503/

Abstract

BACKGROUND

Binding of tumor necrosis factor (TNF) to TNF-receptor 1 (TNF-R1) can induce either cell survival or cell death. The selection between these diametrically opposed effects depends on the subcellular location of TNF-R1: plasma membrane retention leads to survival, while endocytosis leads to cell death. How the respective TNF-R1 associated signaling complexes are recruited to the distinct subcellular location is not known. Here, we identify palmitoylation of TNF-R1 as a molecular mechanism to achieve signal diversification.

METHODS

Human monocytic U937 cells were analyzed. Palmitoylated proteins were enriched by acyl resin assisted capture (AcylRAC) and analyzed by western blot and mass spectrometry. Palmitoylation of TNF-R1 was validated by metabolic labeling. TNF induced depalmitoylation and involvement of APT2 was analyzed by enzyme activity assays, pharmacological inhibition and shRNA mediated knock-down. TNF-R1 palmitoylation site analysis was done by mutated TNF-R1 expression in TNF-R1 knock-out cells. Apoptosis (nuclear DNA fragmentation, caspase 3 assays), NF-κB activation and TNF-R1 internalization were used as biological readouts.

RESULTS

We identify dynamic S-palmitoylation as a new mechanism that controls selective TNF signaling. TNF-R1 itself is constitutively palmitoylated and depalmitoylated upon ligand binding. We identified the palmitoyl thioesterase APT2 to be involved in TNF-R1 depalmitoylation and TNF induced NF-κB activation. Mutation of the putative palmitoylation site C248 interferes with TNF-R1 localization to the plasma membrane and thus, proper signal transduction.

CONCLUSIONS

Our results introduce palmitoylation as a new layer of dynamic regulation of TNF-R1 induced signal transduction at a very early step of the TNF induced signaling cascade. Understanding the underlying mechanism may allow novel therapeutic options for disease treatment in future.

摘要

背景

肿瘤坏死因子（TNF）与 TNF 受体 1（TNF-R1）的结合可以诱导细胞存活或死亡。这两种截然相反的效应的选择取决于 TNF-R1 的亚细胞位置：质膜保留导致存活，而内吞作用导致细胞死亡。目前尚不清楚各自的 TNF-R1 相关信号复合物如何被募集到不同的亚细胞位置。在这里，我们确定 TNF-R1 的棕榈酰化是实现信号多样化的分子机制。

方法

分析人单核细胞 U937 细胞。通过酰基树脂辅助捕获（AcylRAC）富集棕榈酰化蛋白，并用 Western blot 和质谱分析。通过代谢标记验证 TNF-R1 的棕榈酰化。通过酶活性测定、药理学抑制和 shRNA 介导的敲低分析 TNF 诱导的去棕榈酰化和 APT2 的参与。通过在 TNF-R1 敲除细胞中表达突变的 TNF-R1 分析 TNF-R1 棕榈酰化位点。凋亡（核 DNA 片段化、caspase 3 测定）、NF-κB 激活和 TNF-R1 内化用作生物学读出。

结果

我们发现动态 S-棕榈酰化是一种新的机制，可控制选择性 TNF 信号。TNF-R1 本身是组成性棕榈酰化的，配体结合后会去棕榈酰化。我们确定了棕榈酰硫酯酶 APT2 参与 TNF-R1 去棕榈酰化和 TNF 诱导的 NF-κB 激活。假定的棕榈酰化位点 C248 的突变干扰了 TNF-R1 向质膜的定位，从而影响了适当的信号转导。

结论

我们的结果表明，棕榈酰化作为 TNF-R1 诱导的信号转导的一种新的动态调节层，在 TNF 诱导的信号级联的非常早期步骤中发挥作用。了解潜在的机制可能为未来的疾病治疗提供新的治疗选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2f27/6683503/cc8f78ee37a6/12964_2019_405_Fig1_HTML.jpg

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棕榈酰化对于 TNF-R1 信号转导是必需的。

Palmitoylation is required for TNF-R1 signaling.

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