ATAD3 is a limiting factor in mitochondrial biogenesis and adipogenesis of white adipocyte-like 3T3-L1 cells

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-06-23 DOI:10.1002/cbin.12206
Shuijie Li, Rui Xu, Yao Yao, Denis Rousseau
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Abstract

ATAD3 is a vital ATPase of the inner mitochondrial membrane of pluri-cellular eukaryotes, with largely unknown functions but early required for organism development as necessary for mitochondrial biogenesis. ATAD3 knock-down in C. elegans inhibits at first the development of adipocyte-like intestinal tissue so we used mouse adipocyte model 3T3-L1 cells to analyze ATAD3 functions during adipogenesis and lipogenesis in a mammalian model. ATAD3 function was studied by stable and transient modulation of ATAD3 expression in adipogenesis- induced 3T3-L1 cells using Knock-Down and overexpression strategies, exploring different steps of adipocyte differentiation and lipogenesis. We show that (i) an increase in ATAD3 is preceding differentiation-induced mitochondrial biogenesis; (ii) downregulation of ATAD3 inhibits adipogenesis, lipogenesis, and impedes overexpression of many mitochondrial proteins; (iii) ATAD3 re-expression rescues the phenotype of ATAD3 KD, and (iv) differentiation and lipogenesis are accelerated by ATAD3 overexpression, but inhibited by expression of a dominant-negative mutant. We further show that the ATAD3 KD phenotype is not due to altered insulin signal but involves a limitation of mitochondrial biogenesis linked to Drp1. These results demonstrate that ATAD3 is limiting for in vitro mitochondrial biogenesis and adipogenesis/lipogenesis and therefore that ATAD3 mutation/over- or under-expression could be involved in adipogenic and lipogenic pathologies.

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ATAD3 是白色脂肪细胞样 3T3-L1 细胞线粒体生物生成和脂肪生成的限制因子。
ATAD3是多细胞真核生物线粒体内膜的一个重要ATP酶,其功能尚不清楚,但作为线粒体生物发生的必要条件,是生物体发育的早期需要。因此,我们利用小鼠脂肪细胞模型 3T3-L1 细胞来分析 ATAD3 在哺乳动物模型中脂肪形成和脂肪生成过程中的功能。我们采用敲除和过表达策略,通过稳定和瞬时调控ATAD3在脂肪生成诱导的3T3-L1细胞中的表达来研究ATAD3的功能,探索脂肪细胞分化和脂肪生成的不同步骤。我们发现:(i) ATAD3 的增加先于分化诱导的线粒体生物生成;(ii) ATAD3 的下调抑制脂肪生成和脂肪生成,并阻碍许多线粒体蛋白的过度表达;(iii) ATAD3 的再次表达可挽救 ATAD3 KD 的表型;(iv) ATAD3 的过度表达可加速分化和脂肪生成,但表达显性阴性突变体则会抑制分化和脂肪生成。我们进一步发现,ATAD3 KD 的表型不是由于胰岛素信号的改变,而是与 Drp1 有关的线粒体生物生成的限制。这些结果表明,ATAD3 对体外线粒体生物生成和脂肪生成/脂质生成具有限制作用,因此 ATAD3 突变/过表达或表达不足可能与脂肪生成和脂质生成病症有关。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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