The Drosophila Estrogen-Related Receptor promotes triglyceride storage within the larval fat body

Tess D. Fasteen, Melody R. Hernandez, Robert A. Policastro, Maria C. Sterrett, Gabriel E. Zentner, Jason M. Tennessen
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Abstract

The Estrogen-Related Receptor (ERR) family of nuclear receptors (NRs) serve key roles in coordinating triglyceride (TG) accumulation with juvenile growth and development. In both insects and mammals, ERR activity promotes TG storage during the post-embryonic growth phase, with loss-of-function mutations in mouse Esrra and Drosophila melanogaster dERR inducing a lean phenotype. However, the role of insect ERRs in controlling TG accumulation within adipose tissue remains poorly understood, as previous transcriptomic and metabolomic studies relied on whole animal analyses. Here we address this shortcoming by using tissue-specific approaches to examine the role of dERR in regulating lipid metabolism within the Drosophila larval fat body. We find that dERR autonomously promotes TG accumulation within fat body cells and regulates expression of genes involved in glycolysis, β-oxidation, and mevalonate metabolism. As an extension of these results, we not only discovered that dERR mutant fat bodies exhibit decreased expression of known dHNF4 target genes but also found that dHNF4 activity is decreased in dERR mutants. Overall, our findings indicate that dERR plays a multifaceted role in the larval fat body to coordinate lipid storage with developmental growth and hint at a conserved mechanism by which ERR and HNF4 homologs coordinately regulate metabolic gene expression.
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果蝇雌激素相关受体促进甘油三酯在幼虫脂肪体内的储存
雌激素相关受体(ERR)家族的核受体(NRs)在协调甘油三酯(TG)积累与幼年生长发育方面发挥着关键作用。在昆虫和哺乳动物中,ERR 活性会促进胚胎后生长阶段的甘油三酯储存,小鼠 Esrra 和黑腹果蝇 dERR 的功能缺失突变会诱发瘦小表型。然而,由于之前的转录组学和代谢组学研究依赖于整只动物的分析,人们对昆虫ERRs在控制脂肪组织内TG积累方面的作用仍然知之甚少。在这里,我们利用组织特异性方法研究了 dERR 在果蝇幼虫脂肪体内调控脂质代谢的作用,从而弥补了这一不足。我们发现,dERR 可自主促进脂肪体细胞内 TG 的积累,并调节参与糖酵解、β-氧化和甲羟戊酸代谢的基因的表达。作为这些结果的延伸,我们不仅发现 dERR 突变体脂肪体中已知的 dHNF4 靶基因表达减少,而且还发现 dHNF4 活性在 dERR 突变体中降低。总之,我们的研究结果表明,dERR 在幼虫脂肪体中扮演着协调脂质储存和发育生长的多重角色,并暗示了ERR 和 HNF4 同源物协调调控代谢基因表达的保守机制。
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