caspase非依赖性细胞死亡不会引起黑色素瘤癌细胞的增殖反应。

Q1 Biochemistry, Genetics and Molecular Biology BMC Cell Biology Pub Date : 2018-07-04 DOI:10.1186/s12860-018-0164-1

Ahlima Roumane, Kevin Berthenet, Chaïmaa El Fassi, Gabriel Ichim

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引用次数: 8

摘要

背景:细胞凋亡是最著名的一种程序性细胞死亡，它可以通过旁分泌方式诱导邻近存活细胞的增殖反应，称为细胞凋亡诱导增殖(AiP)。虽然在发育过程中触发AiP具有明显的益处，但AiP在癌症治疗中是一个严重的障碍，因为化疗经常诱导细胞凋亡。因此，在本研究中，我们评估了另一种类型的细胞死亡，称为caspase非依赖性细胞死亡，促进增殖的能力。结果:利用一种新的体外等基因细胞模型触发细胞凋亡或不依赖caspase的细胞死亡，我们发现后者对邻近细胞没有明显的代偿增殖作用。结论:本研究强化了这样一种观点，即在癌症治疗的背景下，其他类型的细胞死亡，如caspase非依赖性细胞死亡，可以被认为取代细胞凋亡。

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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Caspase-independent cell death does not elicit a proliferative response in melanoma cancer cells.

Background: Apoptosis, the most well-known type of programmed cell death, can induce in a paracrine manner a proliferative response in neighboring surviving cells called apoptosis-induced proliferation (AiP). While having obvious benefits when triggered in developmental processes, AiP is a serious obstacle in cancer therapy, where apoptosis is frequently induced by chemotherapy. Therefore, in this study, we evaluated the capacity of an alternative type of cell death, called caspase-independent cell death, to promote proliferation.

Results: Using a novel in vitro isogenic cellular model to trigger either apoptosis or caspase-independent cell death, we found that the later has no obvious compensatory proliferation effects on neighboring cells.

Conclusions: This study enforces the idea that alternative types of cell death such as caspase-independent cell death could be considered to replace apoptosis in the context of cancer treatment.

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来源期刊

BMC Cell Biology 生物-细胞生物学

CiteScore

7.30

自引率

0.00%

发文量

审稿时长

12 months

期刊介绍： BMC Molecular and Cell Biology, formerly known as BMC Cell Biology, is an open access journal that considers articles on all aspects of both eukaryotic and prokaryotic cell and molecular biology, including structural and functional cell biology, DNA and RNA in a cellular context and biochemistry, as well as research using both the experimental and theoretical aspects of physics to study biological processes and investigations into the structure of biological macromolecules.