With obesity and its comorbidities continuing to rise, we urgently need to improve our understanding of what mechanisms trigger the white adipose tissue to become dysfunctional in response to over-feeding. The recent invent of 3D culturing models has produced several noteworthy protocols for differentiating unilocular adipocytes in vitro, promising to revolutionize the obesity research field by providing more representative adipose tissue models for such mechanistic studies. In parallel, these 3D models provide important insights to how profoundly the microenvironment influences adipocyte differentiation and morphology. This commentary highlights some of the most recent 3D models, including human unilocular vascularized adipocyte spheroids (HUVASs), developed by our lab. We discuss recent developments in the field, provide further insights to the importance of the microvasculature for adipocyte maturation, and summarize what challenges remain to be solved before we can achieve a culture model that fully recapitulates all aspects of human white adipocyte biology in vitro. Taken together, the commentary highlights important recent advances regarding 3D adipocyte culturing and underlines the many advantages these models provide over traditional 2D cultures, with the aim of convincing more laboratories to switch to 3D models.
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机译:随着肥胖及其合并症的持续上升,我们迫切需要提高对哪些机制导致白色脂肪组织因过度喂养而变得功能失调的理解。最近发明的 3D 培养模型产生了几个值得注意的体外分化单房脂肪细胞的方案,有望通过为此类机制研究提供更具代表性的脂肪组织模型来彻底改变肥胖研究领域。同时,这些 3D 模型为微环境对脂肪细胞分化和形态的深刻影响提供了重要的见解。本评论重点介绍了一些最新的 3D 模型,包括我们实验室开发的人单房血管化脂肪细胞球 (HUVAS)。我们讨论了该领域的最新发展,进一步了解了微血管系统对脂肪细胞成熟的重要性,并总结了在我们能够实现完全概括体外人类白脂肪细胞生物学各个方面的培养模型之前还有哪些挑战需要解决。综上所述,该评论强调了 3D 脂肪细胞培养的最新重要进展,并强调了这些模型相对于传统 2D 培养提供的许多优势,目的是说服更多实验室转向 3D 模型。
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