细胞死亡的非自主后果和后生动物的其他好处。

AIMS Genetics Pub Date : 2015-01-01 DOI:10.3934/genet.2015.1.54#sthash.dNy9tFhS.dpuf

Tin Tin Su

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引用次数: 10

摘要

在多细胞发育的背景下，黑腹果蝇仍然是研究基本细胞生物学过程的重要遗传模型。在这种情况下，一个细胞的行为可以影响另一个细胞。细胞间的非自主信号在后生动物的发育和疾病中都有发生，而且范围太广，无法通过一篇综述来涵盖。我将重点关注幼虫上皮细胞死亡反应中发生的非自主信号事件，并影响存活细胞的生死决定。我将总结果蝇在研究细胞死亡诱导增殖、凋亡诱导凋亡和凋亡诱导存活信号方面的应用。从果蝇的关键见解将在哺乳动物发育和癌症生物学的类似过程的背景下讨论。

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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Non-autonomous consequences of cell death and other perks of being metazoan.

Drosophila melanogaster remains a foremost genetic model to study basic cell biological processes in the context of multi-cellular development. In such context, the behavior of one cell can influence another. Non-autonomous signaling among cells occurs throughout metazoan development and disease, and is too vast to be covered by a single review. I will focus here on non-autonomous signaling events that occur in response to cell death in the larval epithelia and affect the life-death decision of surviving cells. I will summarize the use of Drosophila to study cell death-induced proliferation, apoptosis-induced apoptosis, and apoptosis-induced survival signaling. Key insights from Drosophila will be discussed in the context of analogous processes in mammalian development and cancer biology.

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