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RIPK3 promotes brain region-specific interferon signaling and restriction of tick-borne flavivirus infection.RIPK3 促进大脑区域特异性干扰素信号传导和限制蜱传黄病毒感染。
PLoS Pathog. 2023 Nov 27;19(11):e1011813. doi: 10.1371/journal.ppat.1011813. eCollection 2023 Nov.
2
Long 3'UTRs predispose neurons to inflammation by promoting immunostimulatory double-stranded RNA formation.长 3'UTR 通过促进免疫刺激性双链 RNA 的形成使神经元易于发生炎症。
Sci Immunol. 2023 Oct 27;8(88):eadg2979. doi: 10.1126/sciimmunol.adg2979. Epub 2023 Oct 20.
3
MEG3 activates necroptosis in human neuron xenografts modeling Alzheimer's disease.MEG3 激活人神经元异种移植物模型中的坏死性凋亡。
Science. 2023 Sep 15;381(6663):1176-1182. doi: 10.1126/science.abp9556. Epub 2023 Sep 14.
4
A NPAS4-NuA4 complex couples synaptic activity to DNA repair.一个 NPAS4-NuA4 复合物将突触活动与 DNA 修复联系起来。
Nature. 2023 Feb;614(7949):732-741. doi: 10.1038/s41586-023-05711-7. Epub 2023 Feb 15.
5
Human ZBP1 induces cell death-independent inflammatory signaling via RIPK3 and RIPK1.人 ZBP1 通过 RIPK3 和 RIPK1 诱导细胞死亡非依赖性炎症信号转导。
EMBO Rep. 2022 Dec 6;23(12):e55839. doi: 10.15252/embr.202255839. Epub 2022 Oct 21.
6
Roles of RIPK3 in necroptosis, cell signaling, and disease.RIPK3 在细胞坏死、细胞信号转导和疾病中的作用。
Exp Mol Med. 2022 Oct;54(10):1695-1704. doi: 10.1038/s12276-022-00868-z. Epub 2022 Oct 12.
7
The role of RHIM in necroptosis.RHIM 在坏死性凋亡中的作用。
Biochem Soc Trans. 2022 Aug 31;50(4):1197-1205. doi: 10.1042/BST20220535.
8
ZBP1 promotes inflammatory responses downstream of TLR3/TLR4 via timely delivery of RIPK1 to TRIF.ZBP1 通过将 RIPK1 及时递送至 TRIF 促进 TLR3/TLR4 下游的炎症反应。
Proc Natl Acad Sci U S A. 2022 Jun 14;119(24):e2113872119. doi: 10.1073/pnas.2113872119. Epub 2022 Jun 6.
9
Necroptosis in ALS: a hot topic in-progress.肌萎缩侧索硬化症中的坏死性凋亡:一个正在研究的热门话题。
Cell Death Discov. 2021 Apr 14;7(1):79. doi: 10.1038/s41420-021-00458-4.
10
Location, location, location: A compartmentalized view of TNF-induced necroptotic signaling.位置,位置,位置:TNF 诱导的细胞坏死性信号的分区视图。
Sci Signal. 2021 Feb 2;14(668):eabc6178. doi: 10.1126/scisignal.abc6178.

RIPK3在神经元中协调RHIM结构域依赖性抗病毒炎症转录。

RIPK3 coordinates RHIM domain-dependent antiviral inflammatory transcription in neurons.

作者信息

Kofman Sigal B, Chu Lan H, Ames Joshua M, Chavarria Suny Dayane, Lichauco Katrina, Daniels Brian P, Oberst Andrew

机构信息

Department of Immunology, University of Washington, Seattle, WA 98109, USA.

Department of Cell Biology and Neuroscience, Rutgers University, Piscataway, NJ 08854, USA.

出版信息

Sci Signal. 2025 Apr;18(880):eado9745. doi: 10.1126/scisignal.ado9745. Epub 2025 Apr 1.

DOI:10.1126/scisignal.ado9745
PMID:40168465
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12042699/
Abstract

Neurons are postmitotic, nonregenerative cells that have evolved fine-tuned immunological responses to maintain life-long cellular integrity, including resistance to common programmed cell death pathways such as necroptosis. We previously demonstrated a necroptosis-independent role for the key necroptotic kinase RIPK3 in host defense against neurotropic flavivirus infection. Here, we show that RIPK3 activation had distinct outcomes in primary cortical neurons when compared with mouse embryonic fibroblasts (MEFs) during Zika virus (ZIKV) infection or after sterile activation. We found that RIPK3 activation did not induce neuronal death but instead drove antiviral gene transcription after ZIKV infection. Although RIPK3 activation in MEFs induced cell death, ablation of downstream cell death effectors unveiled a RIPK3-dependent transcriptional program that largely overlapped with that observed in ZIKV-infected neurons. In death-resistant MEFs, RIPK3-dependent transcription relied on interactions with the RHIM domain-containing proteins RIPK1 and TRIF, similar to the requirements for the RIPK3-dependent antiviral transcriptional signature in ZIKV-infected neurons. These findings suggest that the pleotropic functions of RIPK3 are largely context dependent and that in cells that are resistant to cell death, RIPK3 acts as a mediator of inflammatory transcription.

摘要

神经元是终末有丝分裂、不可再生的细胞,它们进化出了精细调节的免疫反应,以维持终身的细胞完整性,包括对常见的程序性细胞死亡途径(如坏死性凋亡)的抗性。我们先前证明了关键的坏死性凋亡激酶RIPK3在宿主抵御嗜神经性黄病毒感染中具有不依赖坏死性凋亡的作用。在此,我们表明,在寨卡病毒(ZIKV)感染期间或无菌激活后,与小鼠胚胎成纤维细胞(MEF)相比,RIPK3激活在原代皮质神经元中具有不同的结果。我们发现,RIPK3激活不会诱导神经元死亡,而是在ZIKV感染后驱动抗病毒基因转录。虽然MEF中的RIPK3激活诱导细胞死亡,但下游细胞死亡效应器的缺失揭示了一个RIPK3依赖性转录程序,该程序与在ZIKV感染的神经元中观察到的程序在很大程度上重叠。在抗死亡的MEF中,RIPK3依赖性转录依赖于与含RHIM结构域的蛋白RIPK1和TRIF的相互作用,这与ZIKV感染的神经元中RIPK3依赖性抗病毒转录特征的要求相似。这些发现表明,RIPK3的多效性功能在很大程度上取决于背景,并且在对细胞死亡具有抗性的细胞中,RIPK3作为炎症转录的介质发挥作用。