TCF7L2 在人类脂肪祖细胞生物学中发挥着复杂的作用,这可能导致 2 型糖尿病的遗传易感性。
TCF7L2 plays a complex role in human adipose progenitor biology, which might contribute to genetic susceptibility to type 2 diabetes.
机构信息
Oxford Centre for Diabetes, Endocrinology and Metabolism, Radcliffe Department of Medicine, University of Oxford, Oxford OX3 7LE, UK.
Oxford Centre for Diabetes, Endocrinology and Metabolism, Radcliffe Department of Medicine, University of Oxford, Oxford OX3 7LE, UK; Steno Diabetes Center Odense, Odense University Hospital, DK-5000 Odense, Denmark; Department of Clinical Research, University of Southern Denmark, DK-5000 Odense, Denmark.
出版信息
Metabolism. 2022 Aug;133:155240. doi: 10.1016/j.metabol.2022.155240. Epub 2022 Jun 10.
INTRODUCTION
Non-coding genetic variation at TCF7L2 is the strongest genetic determinant of type 2 diabetes (T2D) risk in humans. TCF7L2 encodes a transcription factor mediating the nuclear effects of WNT signaling in adipose tissue (AT). In vivo studies in transgenic mice have highlighted important roles for TCF7L2 in adipose tissue biology and systemic metabolism.
OBJECTIVE
To map the expression of TCF7L2 in human AT, examine its role in human adipose cell biology in vitro, and investigate the effects of the fine-mapped T2D-risk allele at rs7903146 on AT morphology and TCF7L2 expression.
METHODS
Ex vivo gene expression studies of TCF7L2 in whole and fractionated human AT. In vitro TCF7L2 gain- and/or loss-of-function studies in primary and immortalized human adipose progenitor cells (APCs) and mature adipocytes (mADs). AT phenotyping of rs7903146 T2D-risk variant carriers and matched controls.
RESULTS
Adipose progenitors (APs) exhibited the highest TCF7L2 mRNA abundance compared to mature adipocytes and adipose-derived endothelial cells. Obesity was associated with reduced TCF7L2 transcript levels in whole subcutaneous abdominal AT but paradoxically increased expression in APs. In functional studies, TCF7L2 knockdown (KD) in abdominal APs led to dose-dependent activation of WNT/β-catenin signaling, impaired proliferation and dose-dependent effects on adipogenesis. Whilst partial KD enhanced adipocyte differentiation, near-total KD impaired lipid accumulation and adipogenic gene expression. Over-expression of TCF7L2 accelerated adipogenesis. In contrast, TCF7L2-KD in gluteal APs dose-dependently enhanced lipid accumulation. Transcriptome-wide profiling revealed that TCF7L2 might modulate multiple aspects of AP biology including extracellular matrix secretion, immune signaling and apoptosis. The T2D-risk allele at rs7903146 was associated with reduced AP TCF7L2 expression and enhanced AT insulin sensitivity.
CONCLUSIONS
TCF7L2 plays a complex role in AP biology and has both dose- and depot-dependent effects on adipogenesis. In addition to regulating pancreatic insulin secretion, genetic variation at TCF7L2 might also influence T2D risk by modulating AP function.
简介
TCF7L2 上的非编码遗传变异是人类 2 型糖尿病(T2D)风险的最强遗传决定因素。TCF7L2 编码一种转录因子,介导 WNT 信号在脂肪组织(AT)中的核效应。转基因小鼠的体内研究强调了 TCF7L2 在脂肪组织生物学和全身代谢中的重要作用。
目的
绘制人类 AT 中 TCF7L2 的表达图谱,研究其在体外对人类脂肪细胞生物学的作用,并研究精细映射的 T2D 风险等位基因 rs7903146 对 AT 形态和 TCF7L2 表达的影响。
方法
对全部分化的人类 AT 中的 TCF7L2 进行体外基因表达研究。在原代和永生化人脂肪祖细胞(APCs)和成熟脂肪细胞(mADs)中进行 TCF7L2 增益和/或缺失功能研究。对 rs7903146 T2D 风险变异携带者和匹配对照者的 AT 表型进行分析。
结果
与成熟脂肪细胞和脂肪衍生的内皮细胞相比,脂肪祖细胞(APs)表现出最高的 TCF7L2 mRNA 丰度。肥胖与整个皮下腹部 AT 中的 TCF7L2 转录水平降低有关,但在 APs 中却反常地增加了表达。在功能研究中,腹部 APs 中的 TCF7L2 敲低(KD)导致 WNT/β-catenin 信号的剂量依赖性激活,增殖受损,并对脂肪生成产生剂量依赖性影响。虽然部分 KD 增强了脂肪细胞分化,但近乎完全 KD 则损害了脂质积累和脂肪生成基因的表达。TCF7L2 的过表达加速了脂肪生成。相反,在臀肌 APs 中,TCF7L2-KD 剂量依赖性地增强了脂质积累。全转录组谱分析表明,TCF7L2 可能调节 AP 生物学的多个方面,包括细胞外基质分泌、免疫信号和细胞凋亡。rs7903146 处的 T2D 风险等位基因与 AP TCF7L2 表达降低和 AT 胰岛素敏感性增强有关。
结论
TCF7L2 在 AP 生物学中发挥复杂作用,并对脂肪生成具有剂量和 depot 依赖性影响。除了调节胰腺胰岛素分泌外,TCF7L2 处的遗传变异还可能通过调节 AP 功能来影响 T2D 风险。
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