The misregulation of mitochondria-associated genes caused by GAGA-factor lack promotes autophagic germ cell death in Drosophila testes.

IF 1.3 4区生物学 Q4 GENETICS & HEREDITY

Genetica Pub Date : 2023-12-01 Epub Date: 2023-10-11 DOI:10.1007/s10709-023-00197-7

Natalia V Dorogova, Svetlana A Fedorova, Elena U Bolobolova, Elina M Baricheva

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Abstract

The Drosophila GAGA-factor encoded by the Trithorax-like (Trl) gene is DNA-binding protein with unusually wide range of applications in diverse cell contexts. In Drosophila spermatogenesis, reduced GAGA expression caused by Trl mutations induces mass autophagy leading to germ cell death. In this work, we investigated the contribution of mitochondrial abnormalities to autophagic germ cell death in Trl gene mutants. Using a cytological approach, in combination with an analysis of high-throughput RNA sequencing (RNA-seq) data, we demonstrated that the GAGA deficiency led to considerable defects in mitochondrial ultrastructure, by causing misregulation of GAGA target genes encoding essential components of mitochondrial molecular machinery. Mitochondrial anomalies induced excessive production of reactive oxygen species and their release into the cytoplasm, thereby provoking oxidative stress. Changes in transcription levels of some GAGA-independent genes in the Trl mutants indicated that testis cells experience ATP deficiency and metabolic aberrations, that may trigger extensive autophagy progressing to cell death.

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GAGA因子缺乏引起的线粒体相关基因的失调促进了果蝇睾丸中自噬生殖细胞的死亡。

由Trithorax样（Trl）基因编码的果蝇GAGA因子是一种DNA结合蛋白，在不同的细胞环境中具有异常广泛的应用。在果蝇精子发生过程中，Trl突变引起的GAGA表达减少诱导大量自噬，导致生殖细胞死亡。在这项工作中，我们研究了线粒体异常对Trl基因突变体自噬生殖细胞死亡的贡献。使用细胞学方法，结合高通量RNA测序（RNA-seq）数据的分析，我们证明了GAGA缺乏导致线粒体超微结构的相当大的缺陷，这是由于编码线粒体分子机制重要组成部分的GAGA靶基因调控不当。线粒体异常导致活性氧的过量产生并释放到细胞质中，从而引发氧化应激。Trl突变体中一些GAGA非依赖性基因转录水平的变化表明，睾丸细胞经历ATP缺乏和代谢异常，这可能引发广泛的自噬，进而导致细胞死亡。

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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来源期刊

Genetica 生物-遗传学

CiteScore

2.70

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Genetica publishes papers dealing with genetics, genomics, and evolution. Our journal covers novel advances in the fields of genomics, conservation genetics, genotype-phenotype interactions, evo-devo, population and quantitative genetics, and biodiversity. Genetica publishes original research articles addressing novel conceptual, experimental, and theoretical issues in these areas, whatever the taxon considered. Biomedical papers and papers on breeding animal and plant genetics are not within the scope of Genetica, unless framed in an evolutionary context. Recent advances in genetics, genomics and evolution are also published in thematic issues and synthesis papers published by experts in the field.