Holzman Miriam A, Ryckman Abigail, Finkelstein Tova M, Landry-Truchon Kim, Schindler Kyra A, Bergmann Jenna M, Jeannotte Lucie, Mansfield Jennifer H
Department of Biology, Barnard College, Columbia University, New York, NY, United States.
Centre de Recherche sur le Cancer de l'Université Laval, CRCHU de Québec-Université Laval (Oncology), Québec City, QC, Canada.
Front Cell Dev Biol. 2021 Feb 25;9:632303. doi: 10.3389/fcell.2021.632303. eCollection 2021.
Brown adipose tissue (BAT) plays critical thermogenic, metabolic and endocrine roles in mammals, and aberrant BAT function is associated with metabolic disorders including obesity and diabetes. The major BAT depots are clustered at the neck and forelimb levels, and arise largely within the dermomyotome of somites, from a common progenitor with skeletal muscle. However, many aspects of BAT embryonic development are not well understood. patterns other tissues at the cervical and brachial levels, including skeletal, neural and respiratory structures. Here, we show that also positively regulates BAT development, while negatively regulating formation of epaxial skeletal muscle. HOXA5 protein is expressed in embryonic preadipocytes and adipocytes as early as embryonic day 12.5. null mutant embryos and rare, surviving adults show subtly reduced iBAT and sBAT formation, as well as aberrant marker expression, lower adipocyte density and altered lipid droplet morphology. Conversely, the epaxial muscles that arise from a common dermomyotome progenitor are expanded in mutants. Conditional deletion of with can reproduce both BAT and epaxial muscle phenotypes, indicating that HOXA5 is necessary within positive cells for proper BAT and epaxial muscle development. However, recombinase-based lineage tracing shows that does not act cell-autonomously to repress skeletal muscle fate. Interestingly, -dependent regulation of adipose-associated transcripts is conserved in lung and diaphragm, suggesting a shared molecular role for in multiple tissues. Together, these findings establish a role for in embryonic BAT development.
棕色脂肪组织(BAT)在哺乳动物中发挥着关键的产热、代谢和内分泌作用,而BAT功能异常与包括肥胖症和糖尿病在内的代谢紊乱有关。主要的BAT储存部位聚集在颈部和前肢水平,并且在很大程度上起源于体节的皮肌节内,与骨骼肌有着共同的祖细胞。然而,BAT胚胎发育的许多方面尚未得到充分了解。它在颈部和臂部水平影响其他组织的模式,包括骨骼、神经和呼吸结构。在这里,我们表明它也正向调节BAT发育,同时负向调节轴上骨骼肌的形成。HOXA5蛋白早在胚胎第12.5天就在胚胎前脂肪细胞和脂肪细胞中表达。HOXA5基因敲除突变胚胎和罕见的存活成年个体显示出iBAT和sBAT形成略有减少,以及标记物表达异常、脂肪细胞密度降低和脂滴形态改变。相反,由共同的皮肌节祖细胞产生的轴上肌肉在HOXA5突变体中有所扩展。用Cre重组酶进行条件性敲除HOXA5可以重现BAT和轴上肌肉的表型,表明HOXA5在阳性细胞内对于正常的BAT和轴上肌肉发育是必需的。然而,基于重组酶的谱系追踪表明,HOXA5并不是通过细胞自主作用来抑制骨骼肌命运。有趣的是,HOXA5对脂肪相关转录本的依赖性调控在肺和膈肌中是保守的,这表明HOXA5在多个组织中具有共同的分子作用。总之,这些发现确立了HOXA5在胚胎BAT发育中的作用。
