Institute of Biology and Medical Genetics, The First Faculty of Medicine, Charles University and the General University Hospital in Prague, 128 00 Prague, Czech Republic.
Centre for Experimental Medicine, Institute for Clinical and Experimental Medicine, 140 21 Prague, Czech Republic.
Nutrients. 2022 Aug 20;14(16):3428. doi: 10.3390/nu14163428.
Several corresponding regions of human and mammalian genomes have been shown to affect sensitivity to the manifestation of metabolic syndrome via nutrigenetic interactions. In this study, we assessed the effect of sucrose administration in a newly established congenic strain BN.SHR20, in which a limited segment of rat chromosome 20 from a metabolic syndrome model, spontaneously hypertensive rat (SHR), was introgressed into Brown Norway (BN) genomic background. We mapped the extent of the differential segment and compared the genomic sequences of BN vs. SHR within the segment in silico. The differential segment of SHR origin in BN.SHR20 spans about 9 Mb of the telomeric portion of the short arm of chromosome 20. We identified non-synonymous mutations e.g., in , , , genes and other variations in or near genes associated with metabolic syndrome in human genome-wide association studies. Male rats of BN and BN.SHR20 strains were fed a standard diet for 18 weeks (control groups) or 16 weeks of standard diet followed by 14 days of high-sucrose diet (HSD). We assessed the morphometric and metabolic profiles of all groups. Adiposity significantly increased only in BN.SHR20 after HSD. Fasting glycemia and the glucose levels during the oral glucose tolerance test were higher in BN.SHR20 than in BN groups, while insulin levels were comparable. The fasting levels of triacylglycerols were the highest in sucrose-fed BN.SHR20, both compared to the sucrose-fed BN and the control BN.SHR20. The non-esterified fatty acids and total cholesterol concentrations were higher in BN.SHR20 compared to their respective BN groups, and the HSD elicited an increase in non-esterified fatty acids only in BN.SHR20. In a new genetically defined model, we have isolated a limited genomic region involved in nutrigenetic sensitization to sucrose-induced metabolic disturbances.
几个相应的人类和哺乳动物基因组区域已经被证明通过营养遗传学相互作用影响代谢综合征表现的敏感性。在这项研究中,我们评估了蔗糖给药在新建立的同源性品系 BN.SHR20 中的效果,其中来自代谢综合征模型自发性高血压大鼠 (SHR) 的染色体 20 的有限片段被引入到棕色挪威 (BN) 基因组背景中。我们绘制了差异片段的范围,并在计算机中比较了 BN 与 SHR 之间该片段的基因组序列。BN.SHR20 中 SHR 起源的差异片段跨越了染色体 20 短臂端粒部分的约 9 Mb。我们在人类全基因组关联研究中发现了非同义突变,例如在、、、基因中,以及与代谢综合征相关的基因内或附近的其他变异。BN 和 BN.SHR20 品系的雄性大鼠接受标准饮食 18 周(对照组)或标准饮食 16 周后 14 天高蔗糖饮食(HSD)。我们评估了所有组的形态计量和代谢特征。仅在 HSD 后 BN.SHR20 中的肥胖显着增加。与 BN 组相比,BN.SHR20 的空腹血糖和口服葡萄糖耐量试验期间的血糖水平更高,而胰岛素水平相当。与蔗糖喂养的 BN 和对照 BN.SHR20 相比,在蔗糖喂养的 BN.SHR20 中,三酰基甘油的空腹水平最高。非酯化脂肪酸和总胆固醇浓度在 BN.SHR20 中均高于其各自的 BN 组,并且 HSD 仅在 BN.SHR20 中引起非酯化脂肪酸的增加。在一个新的遗传定义模型中,我们已经分离出一个涉及蔗糖诱导的代谢紊乱营养遗传敏感的有限基因组区域。
