胎儿高血糖改变成人前脂肪细胞功能

N. S. Hansen, K. S. Strasko, Line Hjort, L. Kelstrup, Azadeh Houshmand-Øregaard, M. Schrölkamp, Heidi S Schultz, C. Schéele, B. Pedersen, C. Ling, T. Clausen, P. Damm, A. Vaag, C. Broholm
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引用次数: 21

摘要

患有妊娠期糖尿病(O-GDM)或1型糖尿病(O-T1DM)的妇女的后代在子宫内暴露于高血糖,成年后发生代谢性疾病的风险增加。设计共招募了206名成年后代,包括两个胎儿高血糖组,O-GDM和O-T1DM,以及来自背景人群(O-BP)的后代作为对照组。对成年男性O-GDM (n = 18,年龄30.1±2.5岁)、O-T1DM (n = 18,年龄31.6±2.2岁)和O-BP (n = 16;年龄(31.5±2.7岁),体外培养。首先,我们研究了体内脂肪细胞组织学。其次,我们研究了体外前脂肪细胞瘦素分泌、基因表达和LEP DNA甲基化。这是结合体外前脂肪细胞脂肪生成、脂肪分解和线粒体呼吸来研究的。结果与O-BP脂肪细胞相比,O-GDM皮下脂肪细胞增大。与男性O-BP建立的脂肪细胞相比,从男性O-GDM和O-T1DM分离并体外培养的前脂肪细胞在分化过程中显示LEP启动子甲基化降低,瘦素基因表达增加,瘦素分泌升高。此外,前脂肪细胞表现出功能缺陷,包括最大线粒体容量下降,脂肪分解增加,在3天额外脂肪酸供应的挑战下,储存脂肪酸的能力下降。综上所述,这些发现表明,暴露于胎儿高血糖的个体发生代谢性疾病的风险增加,其前脂肪细胞培养物存在内在的表观遗传和功能变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fetal Hyperglycemia Changes Human Preadipocyte Function in Adult Life
Context Offspring of women with gestational diabetes (O-GDM) or type 1 diabetes mellitus (O-T1DM) have been exposed to hyperglycemia in utero and have an increased risk of developing metabolic disease in adulthood. Design In total, we recruited 206 adult offspring comprising the two fetal hyperglycemic groups, O-GDM and O-T1DM, and, as a control group, offspring from the background population (O-BP). Subcutaneous fat biopsies were obtained and preadipocyte cell cultures were established from adult male O-GDM (n = 18, age 30.1 ± 2.5 years), O-T1DM (n = 18, age 31.6 ± 2.2 years), and O-BP (n = 16; age, 31.5 ± 2.7 years) and cultured in vitro. Main Outcome Measures First, we studied in vivo adipocyte histology. Second, we studied in vitro preadipocyte leptin secretion, gene expression, and LEP DNA methylation. This was studied in combination with in vitro preadipocyte lipogenesis, lipolysis, and mitochondrial respiration. Results We show that subcutaneous adipocytes from O-GDM are enlarged compared with O-BP adipocytes. Preadipocytes isolated from male O-GDM and O-T1DM and cultured in vitro displayed decreased LEP promoter methylation, increased leptin gene expression, and elevated leptin secretion throughout differentiation, compared with adipocytes established from male O-BP. In addition, the preadipocytes demonstrated functional defects including decreased maximal mitochondrial capacity with increased lipolysis and decreased ability to store fatty acids when challenged with 3 days of extra fatty acid supply. Conclusions Taken together, these findings show that intrinsic epigenetic and functional changes exist in preadipocyte cultures from individuals exposed to fetal hyperglycemia who are at increased risk of developing metabolic disease.
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