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DAMPs in Unilateral Ureteral Obstruction.DAMPs 在单侧输尿管梗阻中的作用。
Front Immunol. 2020 Oct 7;11:581300. doi: 10.3389/fimmu.2020.581300. eCollection 2020.
2
Gasdermin E suppresses tumour growth by activating anti-tumour immunity.Gasdermin E 通过激活抗肿瘤免疫来抑制肿瘤生长。
Nature. 2020 Mar;579(7799):415-420. doi: 10.1038/s41586-020-2071-9. Epub 2020 Mar 11.
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RIPK3 collaborates with GSDMD to drive tissue injury in lethal polymicrobial sepsis.RIPK3 与 GSDMD 合作驱动致死性多微生物脓毒症中的组织损伤。
Cell Death Differ. 2020 Sep;27(9):2568-2585. doi: 10.1038/s41418-020-0524-1. Epub 2020 Mar 9.
4
Structural Mechanism for GSDMD Targeting by Autoprocessed Caspases in Pyroptosis.细胞焦亡的 Caspase 自加工靶向 GSDMD 的结构机制。
Cell. 2020 Mar 5;180(5):941-955.e20. doi: 10.1016/j.cell.2020.02.002. Epub 2020 Feb 27.
5
Bacterial Endotoxin Activates the Coagulation Cascade through Gasdermin D-Dependent Phosphatidylserine Exposure.细菌内毒素通过 Gasdermin D 依赖性磷脂酰丝氨酸暴露激活凝血级联反应。
Immunity. 2019 Dec 17;51(6):983-996.e6. doi: 10.1016/j.immuni.2019.11.005. Epub 2019 Dec 10.
6
The gasdermins, a protein family executing cell death and inflammation.gasdermins,一个执行细胞死亡和炎症的蛋白家族。
Nat Rev Immunol. 2020 Mar;20(3):143-157. doi: 10.1038/s41577-019-0228-2. Epub 2019 Nov 5.
7
Gasdermins and their role in immunity and inflammation.Gasdermins 及其在免疫和炎症中的作用。
J Exp Med. 2019 Nov 4;216(11):2453-2465. doi: 10.1084/jem.20190545. Epub 2019 Sep 23.
8
Mitochondria Permeability Transition versus Necroptosis in Oxalate-Induced AKI.草酸诱导 AKI 中的线粒体通透性转换与细胞坏死性凋亡。
J Am Soc Nephrol. 2019 Oct;30(10):1857-1869. doi: 10.1681/ASN.2018121218. Epub 2019 Jul 11.
9
Gasdermin pores permeabilize mitochondria to augment caspase-3 activation during apoptosis and inflammasome activation.Gasdermin 孔使线粒体通透性增加,从而增强细胞凋亡和炎症小体激活过程中的 caspase-3 激活。
Nat Commun. 2019 Apr 11;10(1):1689. doi: 10.1038/s41467-019-09397-2.
10
Don't trick me twice!别想耍我两次!
Kidney Int. 2019 Apr;95(4):736-738. doi: 10.1016/j.kint.2018.12.004.

GSDME 介导的细胞焦亡促进梗阻性肾病中的炎症和纤维化。

GSDME-mediated pyroptosis promotes inflammation and fibrosis in obstructive nephropathy.

机构信息

Department of Nephrology, Blood Purification Research Center, the First Affiliated Hospital, Fujian Medical University, Fuzhou, China.

Laboratory Animal Center, Fujian Medical University, Fuzhou, China.

出版信息

Cell Death Differ. 2021 Aug;28(8):2333-2350. doi: 10.1038/s41418-021-00755-6. Epub 2021 Mar 4.

DOI:10.1038/s41418-021-00755-6
PMID:33664482
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8329275/
Abstract

Renal tubular cell (RTC) death and inflammation contribute to the progression of obstructive nephropathy, but its underlying mechanisms have not been fully elucidated. Here, we showed that Gasdermin E (GSDME) expression level and GSDME-N domain generation determined the RTC fate response to TNFα under the condition of oxygen-glucose-serum deprivation. Deletion of Caspase-3 (Casp3) or Gsdme alleviated renal tubule damage and inflammation and finally prevented the development of hydronephrosis and kidney fibrosis after ureteral obstruction. Using bone marrow transplantation and cell type-specific Casp3 knockout mice, we demonstrated that Casp3/GSDME-mediated pyroptosis in renal parenchymal cells, but not in hematopoietic cells, played predominant roles in this process. We further showed that HMGB1 released from pyroptotic RTCs amplified inflammatory responses, which critically contributed to renal fibrogenesis. Specific deletion of Hmgb1 in RTCs alleviated caspase11 and IL-1β activation in macrophages. Collectively, our results uncovered that TNFα/Casp3/GSDME-mediated pyroptosis is responsible for the initiation of ureteral obstruction-induced renal tubule injury, which subsequentially contributes to the late-stage progression of hydronephrosis, inflammation, and fibrosis. This novel mechanism will provide valuable therapeutic insights for the treatment of obstructive nephropathy.

摘要

肾小管细胞 (RTC) 死亡和炎症导致梗阻性肾病进展,但其潜在机制尚未完全阐明。在这里,我们表明,在缺氧葡萄糖血清剥夺条件下,GSDME(Gasdermin E)表达水平和 GSDME-N 结构域的产生决定了 RTC 对 TNFα 的反应命运。Caspase-3(Casp3)或 Gsdme 的缺失减轻了肾小管损伤和炎症,最终防止了输尿管梗阻后肾积水和肾纤维化的发展。通过骨髓移植和细胞类型特异性 Casp3 敲除小鼠,我们证明了 Casp3/GSDME 介导的肾实质细胞而非造血细胞中的细胞焦亡在这个过程中起主要作用。我们进一步表明,来自细胞焦亡的 RTC 释放的 HMGB1 放大了炎症反应,这对肾纤维化的发生至关重要。RTC 中 Hmgb1 的特异性缺失减轻了巨噬细胞中 caspase11 和 IL-1β 的激活。总之,我们的结果揭示了 TNFα/Casp3/GSDME 介导的细胞焦亡是输尿管梗阻诱导的肾小管损伤的起始原因,进而导致肾积水、炎症和纤维化的晚期进展。这一新的机制将为梗阻性肾病的治疗提供有价值的治疗思路。