Multiple sclerosis: the NLRP3 inflammasome, gasdermin D, and therapeutics.

4区医学

Annals of translational medicine Pub Date : 2024-08-01 Epub Date: 2024-06-05 DOI:10.21037/atm-23-1960

Amie Brint, Seth Greene, Alyssa R Fennig-Victor, Shanzhi Wang

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Abstract

Multiple sclerosis (MS) stands as a chronic inflammatory disease characterized by its neurodegenerative impacts on the central nervous system. The complexity of MS and the significant challenges it poses to patients have made the exploration of effective treatments a crucial area of research. Among the various mechanisms under investigation, the role of inflammation in MS progression is of particular interest. Inflammatory responses within the body are regulated by various cellular mechanisms, one of which involves the nucleotide-binding oligomerization domain (NOD)-, leucine-rich repeat (LRR)-, and pyrin domains (PYD)-containing protein 3 (NLRP3). NLRP3 acts as a sensor within cells, playing a pivotal role in controlling the inflammatory response. Its activation is a critical step leading to the assembly of the NLRP3 inflammasome complex, a process that has profound implications for inflammatory diseases like MS. The NLRP3 inflammasome's activation is intricately linked to the subsequent activation of caspase 1 and gasdermin D (GsdmD), signaling pathways that are central to the inflammatory process. GsdmD, a prominent member of the Gasdermin protein family, is particularly noteworthy for its role in pyroptotic cell death, a form of programmed cell death that is distinct from apoptosis and is characterized by its inflammatory nature. This pathway's activation contributes significantly to the pathology of MS by exacerbating inflammatory responses within the nervous system. Given the detrimental effects of unregulated inflammation in MS, therapeutics targeting these inflammatory processes offer a promising avenue for alleviating the symptoms experienced by patients. This review delves into the intricacies of the pyroptotic pathways, highlighting how the formation of the NLRP3 inflammasome induces such pathways and the potential intervention points for therapeutic agents. By inhibiting key steps within these pathways, it is possible to mitigate the inflammatory response, thereby offering relief to those suffering from MS. Understanding these mechanisms not only sheds light on the pathophysiology of MS but also paves the way for the development of novel therapeutic strategies aimed at controlling the disease's progression through the modulation of the body's inflammatory response.

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多发性硬化症：NLRP3 炎症小体、gasdermin D 和疗法。

多发性硬化症（MS）是一种慢性炎症性疾病，其特点是对中枢神经系统产生神经退行性影响。多发性硬化症的复杂性及其给患者带来的巨大挑战使探索有效的治疗方法成为研究的一个重要领域。在正在研究的各种机制中，炎症在多发性硬化症进展中的作用尤其引人关注。人体内的炎症反应受多种细胞机制调节，其中一种机制涉及核苷酸结合寡聚化结构域（NOD）、富亮氨酸重复结构域（LRR）和含吡啶结构域（PYD）的蛋白 3（NLRP3）。NLRP3 在细胞内充当传感器，在控制炎症反应方面发挥着关键作用。它的激活是导致 NLRP3 炎性体复合体组装的关键一步，这一过程对多发性硬化症等炎症性疾病有着深远的影响。NLRP3 炎性体的活化与随后的 Caspase 1 和 gasdermin D（GsdmD）的活化有着错综复杂的联系，而 Caspase 1 和 gasdermin D 是炎症过程的核心信号通路。GsdmD是Gasdermin蛋白家族中的一个重要成员，它在热凋亡细胞死亡中的作用尤其值得注意，热凋亡细胞死亡是一种有别于细胞凋亡的程序性细胞死亡，其特点是具有炎症性。这一途径的激活加剧了神经系统内的炎症反应，从而对多发性硬化症的病理做出了重大贡献。考虑到多发性硬化症中不受控制的炎症反应的有害影响，针对这些炎症过程的疗法为减轻患者症状提供了一条前景广阔的途径。本综述深入探讨了炎症通路的复杂性，强调了 NLRP3 炎症小体的形成如何诱导此类通路以及治疗药物的潜在干预点。通过抑制这些途径中的关键步骤，有可能减轻炎症反应，从而缓解多发性硬化症患者的痛苦。了解这些机制不仅能揭示多发性硬化症的病理生理学，还能为开发新型治疗策略铺平道路，这些策略旨在通过调节机体的炎症反应来控制疾病的发展。

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

Annals of translational medicine Multiple-

自引率

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发文量

769

期刊介绍： The Annals of Translational Medicine (Ann Transl Med; ATM; Print ISSN 2305-5839; Online ISSN 2305-5847) is an international, peer-reviewed Open Access journal featuring original and observational investigations in the broad fields of laboratory, clinical, and public health research, aiming to provide practical up-to-date information in significant research from all subspecialties of medicine and to broaden the readers’ vision and horizon from bench to bed and bed to bench. It is published quarterly (April 2013- Dec. 2013), monthly (Jan. 2014 - Feb. 2015), biweekly (March 2015-) and openly distributed worldwide. Annals of Translational Medicine is indexed in PubMed in Sept 2014 and in SCIE in 2018. Specific areas of interest include, but not limited to, multimodality therapy, epidemiology, biomarkers, imaging, biology, pathology, and technical advances related to medicine. Submissions describing preclinical research with potential for application to human disease, and studies describing research obtained from preliminary human experimentation with potential to further the understanding of biological mechanism underlying disease are encouraged. Also warmly welcome are studies describing public health research pertinent to clinic, disease diagnosis and prevention, or healthcare policy.  With a focus on interdisciplinary academic cooperation, ATM aims to expedite the translation of scientific discovery into new or improved standards of management and health outcomes practice.