转录暂停因子M1BP通过抑制果蝇眼睛的自噬和细胞凋亡来调节细胞稳态。

Autophagy reports Pub Date : 2023-01-01 Epub Date: 2023-09-05 DOI:10.1080/27694127.2023.2252307
Anuradha Venkatakrishnan Chimata, Hannah Darnell, Akanksha Raj, Madhuri Kango-Singh, Amit Singh
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引用次数: 0

摘要

在器官发生过程中,细胞稳态在模式形成和生长中起着至关重要的作用。RNA聚合酶II的启动子近端停顿通过GAGA因子或Motif 1结合蛋白(M1BP)调节几个发育基因的转录,在细胞稳态中的作用尚未完全清楚。早些时候,我们报道了M1BP,一种ZKSCAN3的功能同源物,调节果蝇眼睛中无翼和半胱天冬酶依赖性细胞死亡(凋亡)。此外,阻断细胞凋亡并不能完全挽救眼睛缩小的M1BPRNAi表型。因此,我们寻找其他可能的机制。在正向遗传筛选中,Jun氨基末端-(NH2)-激酶(JNK)通路的成员被鉴定。M1BP异位下调诱导JNK,这是一种已知的促死亡途径,可激活细胞凋亡和胱天蛋白酶非依赖性(自噬)细胞死亡。JNK通路组分的激活可以增强M1BPRNAi表型,反之亦然。M1BP异位下调诱导JNK信号传导,导致细胞凋亡和自噬。细胞凋亡和自噬是由它们的遗传回路独立调节的。在这里,我们发现单独阻断细胞凋亡或自噬可以挽救M1BP下调的眼睛表型降低;而同时阻断细胞凋亡和自噬显著挽救了近85%后代中M1BP降低的眼睛表型至接近野生型。这些数据表明,由两种独立的细胞死亡机制(凋亡和自噬)证明的细胞稳态反应可以由M1BP协调的常见转录暂停机制调节。由于这些基本过程在高等生物中是保守的,M1BP与细胞凋亡和自噬调节之间的这种新的功能联系可以推断到人类。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transcriptional pausing factor M1BP regulates cellular homeostasis by suppressing autophagy and apoptosis in Drosophila eye.

During organogenesis cellular homeostasis plays a crucial role in patterning and growth. The role of promoter proximal pausing of RNA polymerase II, which regulates transcription of several developmental genes by GAGA factor or Motif 1 Binding Protein (M1BP), has not been fully understood in cellular homeostasis. Earlier, we reported that M1BP, a functional homolog of ZKSCAN3, regulates wingless and caspase-dependent cell death (apoptosis) in the Drosophila eye. Further, blocking apoptosis does not fully rescue the M1BPRNAi phenotype of reduced eye. Therefore, we looked for other possible mechanism(s). In a forward genetic screen, members of the Jun-amino-terminal-(NH2)-Kinase (JNK) pathway were identified. Downregulation of M1BP ectopically induces JNK, a pro-death pathway known to activate both apoptosis and caspase-independent (autophagy) cell death. Activation of JNK pathway components can enhance M1BPRNAi phenotype and vice-versa. Downregulation of M1BP ectopically induced JNK signaling, which leads to apoptosis and autophagy. Apoptosis and autophagy are regulated independently by their genetic circuitry. Here, we found that blocking either apoptosis or autophagy alone rescues the reduced eye phenotype of M1BP downregulation; whereas, blocking both apoptosis and autophagy together significantly rescues the M1BP reduced eye phenotype to near wild-type in nearly 85% progeny. This data suggests that the cellular homeostasis response demonstrated by two independent cell death mechanisms, apoptosis and autophagy, can be regulated by a common transcriptional pausing mechanism orchestrated by M1BP. Since these fundamental processes are conserved in higher organisms, this novel functional link between M1BP and regulation of both apoptosis and autophagy can be extrapolated to humans.

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