单细胞与多细胞生物的程序性细胞死亡。

IF 8.7 1区 生物学 Q1 GENETICS & HEREDITY Annual review of genetics Pub Date : 2023-11-27 Epub Date: 2023-09-18 DOI:10.1146/annurev-genet-033123-095833
Madhura Kulkarni, J Marie Hardwick
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引用次数: 0

摘要

程序性细胞死亡(自我诱导)是包括单细胞生物在内的所有细胞生命形式所固有的。然而,细胞死亡研究主要集中在动物模型上,以了解癌症、退行性疾病和发育过程。最近在细菌和真菌中描述的自杀死亡机制揭示了与免疫机制交织在一起的动物细胞死亡的古老起源,减轻了早期对微生物中存在自我造成的细胞死亡途径的怀疑。在过去的35年里,大约有20种哺乳动物的死亡途径得到了部分表征。相比之下,近年来在细菌和一些真菌中发现了100多种死亡机制。然而,在大多数造成重大公共卫生负担的人类致病微生物中,细胞死亡几乎没有得到研究。在这里,我们考虑目前对程序性细胞死亡的理解是如何通过动物研究产生的,以及最近发现的真菌和细菌中的微生物细胞死亡机制与哺乳动物细胞死亡机制的相似和不同之处。
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Programmed Cell Death in Unicellular Versus Multicellular Organisms.

Programmed cell death (self-induced) is intrinsic to all cellular life forms, including unicellular organisms. However, cell death research has focused on animal models to understand cancer, degenerative disorders, and developmental processes. Recently delineated suicidal death mechanisms in bacteria and fungi have revealed ancient origins of animal cell death that are intertwined with immune mechanisms, allaying earlier doubts that self-inflicted cell death pathways exist in microorganisms. Approximately 20 mammalian death pathways have been partially characterized over the last 35 years. By contrast, more than 100 death mechanisms have been identified in bacteria and a few fungi in recent years. However, cell death is nearly unstudied in most human pathogenic microbes that cause major public health burdens. Here, we consider how the current understanding of programmed cell death arose through animal studies and how recently uncovered microbial cell death mechanisms in fungi and bacteria resemble and differ from mechanisms of mammalian cell death.

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来源期刊
Annual review of genetics
Annual review of genetics 生物-遗传学
CiteScore
18.30
自引率
0.90%
发文量
17
期刊介绍: The Annual Review of Genetics, published since 1967, comprehensively covers significant advancements in genetics. It encompasses various areas such as biochemical, behavioral, cell, and developmental genetics, evolutionary and population genetics, chromosome structure and transmission, gene function and expression, mutation and repair, genomics, immunogenetics, and other topics related to the genetics of viruses, bacteria, fungi, plants, animals, and humans.
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