The Mechanisms of Regulated Cell Death: Structural and Functional Proteomic Pathways Induced or Inhibited by a Specific Protein—A Narrative Review

IF 4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Proteomes Pub Date : 2024-01-05 DOI:10.3390/proteomes12010003
Diego Fernández-Lázaro, B. Sanz, Jesús Seco-Calvo
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Abstract

Billions of cells die in us every hour, and our tissues do not shrink because there is a natural regulation where Cell Death (CD) is balanced with cell division. The process in which cells eliminate themselves in a controlled manner is called Programmed Cell Death (PCD). The PCD plays an important role during embryonic development, in maintaining homeostasis of the body’s tissues, and in the elimination of damaged cells, under a wide range of physiological and developmental stimuli. A multitude of protein mediators of PCD have been identified and signals have been found to utilize common pathways elucidating the proteins involved. This narrative review focuses on caspase-dependent and caspase-independent PCD pathways. Included are studies of caspase-dependent PCD such as Anoikis, Catastrophe Mitotic, Pyroptosis, Emperitosis, Parthanatos and Cornification, and Caspase-Independent PCD as Wallerian Degeneration, Ferroptosis, Paraptosis, Entosis, Methuosis, and Extracellular Trap Abnormal Condition (ETosis), as well as neutrophil extracellular trap abnormal condition (NETosis) and Eosinophil Extracellular Trap Abnormal Condition (EETosis). Understanding PCD from those reported in this review could shed substantial light on the processes of biological homeostasis. In addition, identifying specific proteins involved in these processes is mandatory to identify molecular biomarkers, as well as therapeutic targets. This knowledge could provide the ability to modulate the PCD response and could lead to new therapeutic interventions in a wide range of diseases.
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调节细胞死亡的机制:特定蛋白质诱导或抑制的结构和功能蛋白质组通路--综述
在我们体内,每小时都有数十亿个细胞死亡,而我们的组织却不会萎缩,这是因为细胞死亡(CD)与细胞分裂之间存在着一种平衡的自然调节。细胞以可控方式自我淘汰的过程被称为程序性细胞死亡(PCD)。程序性细胞死亡在胚胎发育、维持机体组织平衡以及在各种生理和发育刺激下消除受损细胞方面发挥着重要作用。目前已发现多种 PCD 蛋白介质,并发现了利用共同途径阐明相关蛋白的信号。这篇叙述性综述的重点是依赖于和不依赖于 Caspase 的 PCD 途径。其中包括对依赖于 Caspase 的 PCD 的研究,如 Anoikis、Catastrophe Mitotic、Pyroptosis、Emperitosis、Parthanatos 和 Cornification,以及依赖于 Caspase 的 PCD 的研究,如 Wallerian Degeneration、Ferroptosis、Paraptosis、Entosis、Methinology、Methinology、Methinology、Methinology、Methinology、Methinology、Methinology 等、细胞外陷阱异常状态(NETosis)和嗜酸性粒细胞细胞外陷阱异常状态(EETosis)。从本综述所报道的病例中了解 PCD 可为生物稳态过程提供重要启示。此外,确定参与这些过程的特定蛋白质对于确定分子生物标志物和治疗靶点至关重要。这些知识可提供调节 PCD 反应的能力,并可为多种疾病带来新的治疗干预。
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来源期刊
Proteomes
Proteomes Biochemistry, Genetics and Molecular Biology-Clinical Biochemistry
CiteScore
6.50
自引率
3.00%
发文量
37
审稿时长
11 weeks
期刊介绍: Proteomes (ISSN 2227-7382) is an open access, peer reviewed journal on all aspects of proteome science. Proteomes covers the multi-disciplinary topics of structural and functional biology, protein chemistry, cell biology, methodology used for protein analysis, including mass spectrometry, protein arrays, bioinformatics, HTS assays, etc. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of papers. Scope: -whole proteome analysis of any organism -disease/pharmaceutical studies -comparative proteomics -protein-ligand/protein interactions -structure/functional proteomics -gene expression -methodology -bioinformatics -applications of proteomics
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