Drosophila WDFY3/Bchs overexpression impairs neural function.

IF 2 4区医学 Q3 GENETICS & HEREDITY Journal of neurogenetics Pub Date : 2025-03-01 Epub Date: 2025-02-25 DOI:10.1080/01677063.2025.2465536

Marek B Körner, Akhil Velluva, Linnaeus Bundalian, Knut Krohn, Kathleen Schön, Isabell Schumann, Jessica Kromp, Andreas S Thum, Antje Garten, Julia Hentschel, Rami Abou Jamra, Achmed Mrestani, Nicole Scholz, Tobias Langenhan, Diana Le Duc

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Abstract

Pathogenic variants in WDFY3, a gene encoding for an autophagy adaptor termed ALFY, are linked to neurodevelopmental delay and altered brain size in human probands. While the role of WDFY3 loss-of-function is extensively studied in neurons, little is known about the effects of WDFY3 upregulation in different cell types of the central nervous system (CNS). We show that overexpression of the Drosophila melanogaster WDFY3 ortholog, Bchs, in either glia or neurons impaired autophagy and locomotion. Bchs glial overexpression also increased VNC size and glial nuclei number significantly, whereas neuronal Bchs overexpression affected wing and thorax morphology. We identified 79 genes that were differentially expressed and overlapped in flies that overexpress Bchs in glial and neuronal cells, respectively. Additionally, upon neuronal Bchs overexpression differentially expressed genes clustered in gene ontology categories associated with autophagy and mitochondrial function. Our data indicate that glial as well as neuronal Bchs upregulation can have detrimental outcomes on neural function.

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果蝇WDFY3/Bchs过表达损害神经功能。

WDFY3是一种编码自噬接头ALFY的基因，其致病变异与人类先证者的神经发育迟缓和大脑大小改变有关。虽然WDFY3功能丧失在神经元中的作用已被广泛研究，但对WDFY3上调在中枢神经系统（CNS）不同细胞类型中的作用知之甚少。我们发现黑腹果蝇WDFY3同源物Bchs在胶质细胞或神经元中的过度表达会损害自噬和运动。Bchs的过表达也显著增加了VNC的大小和胶质核的数量，而神经元Bchs的过表达影响了翅膀和胸部的形态。我们分别在神经胶质细胞和神经元细胞中过度表达Bchs的果蝇中鉴定了79个差异表达和重叠的基因。此外，在神经元Bchs过表达时，差异表达的基因聚集在与自噬和线粒体功能相关的基因本体类别中。我们的数据表明，胶质细胞和神经元的Bchs上调可能对神经功能产生有害的结果。

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

Journal of neurogenetics 医学-神经科学

CiteScore

4.40

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal is appropriate for papers on behavioral, biochemical, or cellular aspects of neural function, plasticity, aging or disease. In addition to analyses in the traditional genetic-model organisms, C. elegans, Drosophila, mouse and the zebrafish, the Journal encourages submission of neurogenetic investigations performed in organisms not easily amenable to experimental genetics. Such investigations might, for instance, describe behavioral differences deriving from genetic variation within a species, or report human disease studies that provide exceptional insights into biological mechanisms