鉴定一种控制脂肪组织中不依赖于解偶联蛋白1的钙循环产热的分子电阻器。

Identification of a molecular resistor that controls UCP1-independent Ca cycling thermogenesis in adipose tissue.

作者信息

Auger Christopher, Li Mark, Fujimoto Masanori, Ikeda Kenji, Yook Jin-Seon, O'Leary Timothy R, Caycedo María Paula Huertas, Xiaohan Cai, Oikawa Satoshi, Verkerke Anthony R P, Shinoda Kosaku, Griffin Patrick R, Inaba Kenji, Stimson Roland H, Kajimura Shingo

机构信息

Division of Endocrinology, Diabetes and Metabolism, Beth Israel Deaconess Medical Center and Harvard Medical School, and Howard Hughes Medical Institute, Boston, MA, USA.

Department of Molecular Endocrinology and Metabolism, Tokyo Medical and Dental University, Tokyo, Japan.

出版信息

Cell Metab. 2025 Jun 3;37(6):1311-1325.e9. doi: 10.1016/j.cmet.2025.03.009. Epub 2025 Apr 7.

DOI:10.1016/j.cmet.2025.03.009

PMID:40199326

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12137002/

Abstract

Adipose tissue thermogenesis contributes to energy balance via mitochondrial uncoupling protein 1 (UCP1) and UCP1-independent pathways. Among UCP1-independent thermogenic mechanisms, one involves Ca cycling via SERCA2b in adipose tissue; however, the underlying molecular basis remains elusive. Here, we report that an endoplasmic reticulum (ER) membrane-anchored peptide, C4orf3 (also known as another regulin [ALN]), uncouples SERCA2b Ca transport from its ATP hydrolysis, rendering the SERCA2b-C4orf3 complex exothermic. Loss of C4orf3/ALN improved the energetic efficiency of SERCA2b-dependent Ca transport without affecting SERCA2 expression, thereby reducing adipose tissue thermogenesis and increasing the adiposity of mice. Notably, genetic depletion of C4orf3 resulted in compensatory activation of UCP1-dependent thermogenesis following cold challenge. We demonstrated that genetic loss of both C4orf3 and Ucp1 additively impaired cold tolerance in vivo. Together, this study identifies C4orf3 as the molecular resistor to SERCA2b-mediated Ca import that plays a key role in UCP1-independent thermogenesis and energy balance.

摘要

脂肪组织产热通过线粒体解偶联蛋白1（UCP1）和不依赖UCP1的途径对能量平衡产生影响。在不依赖UCP1的产热机制中，一种机制涉及脂肪组织中通过肌浆网钙ATP酶2b（SERCA2b）的钙循环；然而，其潜在的分子基础仍不清楚。在此，我们报告一种内质网（ER）膜锚定肽C4orf3（也称为另一种调节素[ALN]），使SERCA2b的钙转运与其ATP水解解偶联，使SERCA2b - C4orf3复合物产生热量。C4orf3/ALN缺失提高了依赖SERCA2b的钙转运的能量效率，而不影响SERCA2的表达，从而减少脂肪组织产热并增加小鼠肥胖程度。值得注意的是，C4orf3基因缺失导致冷刺激后UCP1依赖的产热代偿性激活。我们证明，C4orf3和Ucp1基因缺失在体内对耐寒性产生累加性损害。总之，本研究确定C4orf3是SERCA2b介导的钙内流的分子电阻，在不依赖UCP1的产热和能量平衡中起关键作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/256c/12137002/5d4a379193e2/nihms-2073926-f0002.jpg

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鉴定一种控制脂肪组织中不依赖于解偶联蛋白1的钙循环产热的分子电阻器。

Identification of a molecular resistor that controls UCP1-independent Ca cycling thermogenesis in adipose tissue.

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