功能性米色脂肪细胞系的开发揭示了表达 UCP1 和无效肌酸循环的独立细胞亚类

IF 27.7 1区 生物学 Q1 CELL BIOLOGY
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引用次数: 0

摘要

尽管解偶联蛋白 1(UCP1)已被确定为脂肪产热的主要贡献者,但最近的数据表明,替代途径,尤其是徒劳肌酸循环(FCC)也发挥着重要作用。这些途径是如何在细胞和组织中共存的,还没有进行过研究。米色细胞脂肪生成在体内发生,但却很难在体外建模;在这里,我们描述了一种小鼠米色细胞系的发展情况,这种细胞系能执行强有力的呼吸反应,包括非偶联呼吸和 FCC。在这些细胞中,FCC 的关键酶--组织非特异性碱性磷酸酶(TNAP)几乎完全定位于线粒体。令人惊讶的是,该细胞系的单细胞克隆显示,UCP1水平最高的细胞几乎不表达TNAP,而TNAP表达量最高的细胞也几乎不表达UCP1。对暴露在寒冷环境中的小鼠皮下脂肪进行的免疫荧光分析证实,在不同的脂肪细胞群中,这些关键致热成分的表达水平最高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Development of a functional beige fat cell line uncovers independent subclasses of cells expressing UCP1 and the futile creatine cycle

Development of a functional beige fat cell line uncovers independent subclasses of cells expressing UCP1 and the futile creatine cycle

Although uncoupling protein 1 (UCP1) is established as a major contributor to adipose thermogenesis, recent data have illustrated an important role for alternative pathways, particularly the futile creatine cycle (FCC). How these pathways co-exist in cells and tissues has not been explored. Beige cell adipogenesis occurs in vivo but has been difficult to model in vitro; here, we describe the development of a murine beige cell line that executes a robust respiratory response, including uncoupled respiration and the FCC. The key FCC enzyme, tissue-nonspecific alkaline phosphatase (TNAP), is localized almost exclusively to mitochondria in these cells. Surprisingly, single-cell cloning from this cell line shows that cells with the highest levels of UCP1 express little TNAP, and cells with the highest expression of TNAP express little UCP1. Immunofluorescence analysis of subcutaneous fat from cold-exposed mice confirms that the highest levels of these critical thermogenic components are expressed in distinct fat cell populations.

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来源期刊
Cell metabolism
Cell metabolism 生物-内分泌学与代谢
CiteScore
48.60
自引率
1.40%
发文量
173
审稿时长
2.5 months
期刊介绍: Cell Metabolism is a top research journal established in 2005 that focuses on publishing original and impactful papers in the field of metabolic research.It covers a wide range of topics including diabetes, obesity, cardiovascular biology, aging and stress responses, circadian biology, and many others. Cell Metabolism aims to contribute to the advancement of metabolic research by providing a platform for the publication and dissemination of high-quality research and thought-provoking articles.
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