Structural and functional insights into GSDMB isoforms complex roles in pathogenesis.

IF 3.4 3区生物学 Q3 CELL BIOLOGY

Cell Cycle Pub Date : 2023-10-01 Epub Date: 2023-12-15 DOI:10.1080/15384101.2023.2287933

Sara Colomo, David Ros-Pardo, Sara S Oltra, Paulino Gomez-Puertas, David Sarrio, Gema Moreno-Bueno

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引用次数: 0

Abstract

SHADSGasdermins (GSDMs) have garnered significant scientific interest due to their protective and detrimental roles in innate immunity, host defense, inflammation, and cancer alongside with other pathologies. While GSDMs are mostly recognized as key effectors of a lytic type of pro-inflammatory cell death known as pyroptosis, they do also take part in other cell death processes (NETosis, secondary necrosis, or apoptosis) and exhibit cell-death independent functions depending on the cellular context. Among GSDMs, Gasdermin B (GSDMB) pyroptotic capacity has been a subject of conflicting findings in scientific literature even when its processing, and subsequent activation, by Granzyme A (GZMA) was decoded. Nevertheless, recent groundbreaking publications have shed light on the crucial role of alternative splicing in determining the pyroptotic capacity of GSDMB isoforms, which depends on the presence of exon 6-derived elements. This comprehensive review pays attention to the relevant structural differences among recently crystalized GSDMB isoforms. As a novelty, the structural aspects governing GSDMB isoform susceptibility to GZMA-mediated activation have been investigated. By elucidating the complex roles of GSDMB isoforms, this review aims to deepen the understanding of this multifunctional player and its potential implications in disease pathogenesis and therapeutic interventions. [Figure: see text].

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GSDMB异构体在发病机制中的复杂作用的结构和功能见解。

SHADSGasdermins (GSDMs)由于其在先天免疫、宿主防御、炎症和癌症以及其他病理中的保护和有害作用而获得了重大的科学兴趣。虽然GSDMs主要被认为是一种被称为焦亡的溶解型促炎细胞死亡的关键效应物，但它们也参与其他细胞死亡过程(NETosis、继发性坏死或凋亡)，并根据细胞环境表现出与细胞死亡无关的功能。在GSDMs中，Gasdermin B (GSDMB)的热降解能力一直是科学文献中相互矛盾的发现的主题，即使对其被颗粒酶a (GZMA)加工和随后激活进行了解码。尽管如此，最近的突破性出版物已经阐明了选择性剪接在决定GSDMB异构体的热腐能力中的关键作用，这取决于外显子6衍生元素的存在。本文综述了最近结晶的GSDMB异构体的相关结构差异。作为一种新事物，已经研究了控制GSDMB同工异构体对gzma介导的激活的易感性的结构方面。通过阐明GSDMB亚型的复杂作用，本综述旨在加深对这一多功能参与者及其在疾病发病机制和治疗干预中的潜在意义的理解。[图:见正文]。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cell Cycle 生物-细胞生物学

CiteScore

7.70

自引率

2.30%

发文量

281

审稿时长

1 months

期刊介绍： Cell Cycle is a bi-weekly peer-reviewed journal of high priority research from all areas of cell biology. Cell Cycle covers all topics from yeast to man, from DNA to function, from development to aging, from stem cells to cell senescence, from metabolism to cell death, from cancer to neurobiology, from molecular biology to therapeutics. Our goal is fast publication of outstanding research.