Lan Yihui, Wang Shiquan, Chu Yuan, Zhang Yizhi, Liu Yuan, Yu Fan, Feng Lei, Zhu Yifei
Wuxi School of Medicine, Jiangnan University, Wuxi, China.
Front Mol Biosci. 2025 Jun 11;12:1619559. doi: 10.3389/fmolb.2025.1619559. eCollection 2025.
While obesity exacerbates metabolic disorders through vascular endothelial dysfunction, the specific regulatory mechanisms of endothelial cells underlying this process remain poorly defined. Although the transient receptor potential canonical 1 (TRPC1) channel demonstrates tissue-specific heterogeneity in metabolic regulation, its functional role within endothelial cells and its contribution to metabolic disturbances associated with obesity remain unresolved.
We established endothelial-specific TRPC1 knockout (TRPC1 ) and overexpression (TRPC1 ) mouse models, which were integrated with a high-fat diet (HFD)-induced obesity paradigm. Through comprehensive metabolic phenotyping, adipose tissue molecular profiling, and serum metabolomics analysis, we systematically dissected the regulatory mechanisms of endothelial TRPC1 in glucose and lipid metabolism.
Endothelial TRPC1 deficiency, while not altering the severity of HFD-induced obesity, significantly exacerbates impaired glucose tolerance, insulin resistance, and dyslipidemia. Mechanistically, the deficiency of endothelial TRPC1 enhances the expression of chemokines (CCL3/CXCL5) and pro-inflammatory cytokines (IL-1β/TIMP1), thereby creating an inflammatory microenvironment in epididymal white adipose tissue (eWAT) and suppressing PGC1α/UCP1-mediated thermogenic function. Metabolomic profiling further reveals that TRPC1 deficiency drives systemic metabolic perturbations, including the depletion of serum 1-methylhistidine and N-acetylvaline, alongside the aberrant accumulation of gibberellin A12, which suggests disrupted amino acid metabolism and the activation of non-canonical inflammatory pathways. Conversely, endothelial TRPC1 overexpression significantly ameliorates obesity-associated metabolic dysfunction, as evidenced by reduced visceral fat deposition, enhanced insulin sensitivity, and restored thermogenic capacity in adipose tissue.
This study, for the first time, elucidates the pivotal role of endothelial TRPC1 in maintaining metabolic homeostasis by orchestrating an "inflammation-thermogenesis-metabolite" regulatory network. Specifically, the deficiency of endothelial TRPC1 exacerbates metabolic dysfunction associated with obesity, whereas its overexpression exerts significant protective effects. These findings highlight the centrality of endothelial ion channels in vascular-metabolic coupling, thereby establishing a theoretical rationale for targeting TRPC1 as a therapeutic strategy against metabolic syndrome.
虽然肥胖通过血管内皮功能障碍加剧代谢紊乱,但这一过程中内皮细胞的具体调节机制仍不清楚。尽管瞬时受体电位阳离子通道蛋白1(TRPC1)在代谢调节中表现出组织特异性异质性,但其在内皮细胞中的功能作用及其对与肥胖相关的代谢紊乱的影响仍未解决。
我们建立了内皮细胞特异性TRPC1基因敲除(TRPC1-/-)和过表达(TRPC1-OE)小鼠模型,并将其与高脂饮食(HFD)诱导的肥胖模型相结合。通过全面的代谢表型分析、脂肪组织分子谱分析和血清代谢组学分析,我们系统地剖析了内皮TRPC1在葡萄糖和脂质代谢中的调节机制。
内皮TRPC1缺乏虽然不改变HFD诱导的肥胖严重程度,但显著加剧葡萄糖耐量受损、胰岛素抵抗和血脂异常。机制上,内皮TRPC1缺乏增强趋化因子(CCL3/CXCL5)和促炎细胞因子(IL-1β/TIMP1)的表达,从而在附睾白色脂肪组织(eWAT)中创造炎症微环境并抑制PGC1α/UCP1介导的产热功能。代谢组学分析进一步表明,TRPC1缺乏导致全身代谢紊乱,包括血清1-甲基组氨酸和N-乙酰缬氨酸耗竭,以及赤霉素A12异常积累,这表明氨基酸代谢紊乱和非经典炎症途径激活。相反,内皮TRPC1过表达显著改善肥胖相关的代谢功能障碍,表现为内脏脂肪沉积减少、胰岛素敏感性增强和脂肪组织产热能力恢复。
本研究首次阐明内皮TRPC1通过协调“炎症-产热-代谢物”调节网络在维持代谢稳态中的关键作用。具体而言,内皮TRPC1缺乏加剧与肥胖相关的代谢功能障碍,而过表达则具有显著保护作用。这些发现突出了内皮离子通道在血管-代谢偶联中的核心地位,从而为将TRPC1作为代谢综合征治疗策略提供了理论依据。
