激活的 PI3Kδ 信号通过限制自噬和增加内质网应激来损害浆细胞的存活。

Activated PI3Kδ signals compromise plasma cell survival via limiting autophagy and increasing ER stress.

机构信息

Center for Immunity and Immunotherapy, Seattle Children's Research Institute, Seattle, WA.

Departments of Immunology, University of Washington, Seattle, WA.

出版信息

J Exp Med. 2021 Dec 6;218(12). doi: 10.1084/jem.20211035. Epub 2021 Sep 29.

DOI:10.1084/jem.20211035

PMID:34586341

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8485856/

Abstract

While phosphatidylinositide 3-kinase delta (PI3Kδ) plays a critical role in humoral immunity, the requirement for PI3Kδ signaling in plasma cells remains poorly understood. Here, we used a conditional mouse model of activated PI3Kδ syndrome (APDS), to interrogate the function of PI3Kδ in plasma cell biology. Mice expressing a PIK3CD gain-of-function mutation (aPIK3CD) in B cells generated increased numbers of memory B cells and mounted an enhanced secondary response but exhibited a rapid decay of antibody levels over time. Consistent with these findings, aPIK3CD expression markedly impaired plasma cell generation, and expression of aPIK3CD intrinsically in plasma cells was sufficient to diminish humoral responses. Mechanistically, aPIK3CD disrupted ER proteostasis and autophagy, which led to increased plasma cell death. Notably, this defect was driven primarily by elevated mTORC1 signaling and modulated by treatment with PI3Kδ-specific inhibitors. Our findings establish an essential role for PI3Kδ in plasma cell homeostasis and suggest that modulating PI3Kδ activity may be useful for promoting and/or thwarting specific immune responses.

摘要

虽然磷脂酰肌醇 3-激酶 δ (PI3Kδ) 在体液免疫中发挥着关键作用，但 PI3Kδ 信号在浆细胞中的作用仍知之甚少。在这里，我们使用激活的 PI3Kδ 综合征（APDS）的条件性小鼠模型，来探究 PI3Kδ 在浆细胞生物学中的功能。在 B 细胞中表达具有组成型活性的 PIK3CD 突变体（aPIK3CD）的小鼠产生了更多的记忆 B 细胞，并表现出增强的二次反应，但随着时间的推移，抗体水平迅速下降。与这些发现一致的是，aPIK3CD 的表达显著损害了浆细胞的生成，并且 aPIK3CD 在浆细胞中的内源性表达足以降低体液反应。从机制上讲，aPIK3CD 破坏了内质网的蛋白质稳态和自噬，导致浆细胞死亡增加。值得注意的是，这种缺陷主要是由升高的 mTORC1 信号驱动的，并可通过使用 PI3Kδ 特异性抑制剂进行调节。我们的研究结果确立了 PI3Kδ 在浆细胞稳态中的重要作用，并表明调节 PI3Kδ 活性可能有助于促进和/或阻碍特定的免疫反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/146a/8485856/4f9e23644416/JEM_20211035_GA.jpg

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激活的 PI3Kδ 信号通过限制自噬和增加内质网应激来损害浆细胞的存活。

Activated PI3Kδ signals compromise plasma cell survival via limiting autophagy and increasing ER stress.

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