谷氨酸自分泌信号驱动果蝇的细胞竞争

IF 10.7 1区 生物学 Q1 CELL BIOLOGY
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引用次数: 0

摘要

细胞竞争是一种进化保守的质量控制过程,它能淘汰次优或有潜在危险的细胞。虽然不同的新陈代谢状态是竞争的直接驱动力,但人们并不了解这些状态是如何在不同组织间进行测量的。在这里,我们证明了囊泡谷氨酸转运体(VGlut)和自分泌谷氨酸信号是果蝇上皮细胞竞争和 Myc 驱动的超级竞争所必需的。我们发现,在竞争环境下,谷氨酸刺激的 VGlut>NMDAR>CaMKII>CrebB 信号的缺失会通过 TNF 的自分泌诱导引发失败者状态和细胞死亡。这反过来又会驱动 TNFR>JNK 激活,引发衰竭细胞淘汰和 PDK/LDH 依赖性代谢重编程。抑制 Caspases 或阻止输家细胞将乳酸转移给邻近细胞,都会使细胞竞争无效。此外,在果蝇的癌前病变模型中,Myc过表达克隆会共同采用这一信号回路,从而获得超级竞争者的地位。针对谷氨酸信号将Myc "超级竞争者 "克隆转化为 "失败者",突出了限制更合适克隆进化的新治疗机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Autocrine glutamate signaling drives cell competition in Drosophila

Autocrine glutamate signaling drives cell competition in Drosophila

Cell competition is an evolutionarily conserved quality control process that eliminates suboptimal or potentially dangerous cells. Although differential metabolic states act as direct drivers of competition, how these are measured across tissues is not understood. Here, we demonstrate that vesicular glutamate transporter (VGlut) and autocrine glutamate signaling are required for cell competition and Myc-driven super-competition in the Drosophila epithelia. We find that the loss of glutamate-stimulated VGlut>NMDAR>CaMKII>CrebB signaling triggers loser status and cell death under competitive settings via the autocrine induction of TNF. This in turn drives TNFR>JNK activation, triggering loser cell elimination and PDK/LDH-dependent metabolic reprogramming. Inhibiting caspases or preventing loser cells from transferring lactate to their neighbors nullifies cell competition. Further, in a Drosophila model for premalignancy, Myc-overexpressing clones co-opt this signaling circuit to acquire super-competitor status. Targeting glutamate signaling converts Myc “super-competitor” clones into “losers,” highlighting new therapeutic opportunities to restrict the evolution of fitter clones.

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来源期刊
Developmental cell
Developmental cell 生物-发育生物学
CiteScore
18.90
自引率
1.70%
发文量
203
审稿时长
3-6 weeks
期刊介绍: Developmental Cell, established in 2001, is a comprehensive journal that explores a wide range of topics in cell and developmental biology. Our publication encompasses work across various disciplines within biology, with a particular emphasis on investigating the intersections between cell biology, developmental biology, and other related fields. Our primary objective is to present research conducted through a cell biological perspective, addressing the essential mechanisms governing cell function, cellular interactions, and responses to the environment. Moreover, we focus on understanding the collective behavior of cells, culminating in the formation of tissues, organs, and whole organisms, while also investigating the consequences of any malfunctions in these intricate processes.
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