Mapping novel QTL and fine mapping of previously identified QTL associated with glucose tolerance using the collaborative cross mice.

IF 2.7 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Mammalian Genome Pub Date : 2024-03-01 Epub Date: 2023-11-17 DOI:10.1007/s00335-023-10025-0
Hanifa J Abu-Toamih-Atamni, Iqbal M Lone, Ilona Binenbaum, Richard Mott, Eleftherios Pilalis, Aristotelis Chatziioannou, Fuad A Iraqi
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引用次数: 0

Abstract

A chronic metabolic illness, type 2 diabetes (T2D) is a polygenic and multifactorial complicated disease. With an estimated 463 million persons aged 20 to 79 having diabetes, the number is expected to rise to 700 million by 2045, creating a significant worldwide health burden. Polygenic variants of diabetes are influenced by environmental variables. T2D is regarded as a silent illness that can advance for years before being diagnosed. Finding genetic markers for T2D and metabolic syndrome in groups with similar environmental exposure is therefore essential to understanding the mechanism of such complex characteristic illnesses. So herein, we demonstrated the exclusive use of the collaborative cross (CC) mouse reference population to identify novel quantitative trait loci (QTL) and, subsequently, suggested genes associated with host glucose tolerance in response to a high-fat diet. In this study, we used 539 mice from 60 different CC lines. The diabetogenic effect in response to high-fat dietary challenge was measured by the three-hour intraperitoneal glucose tolerance test (IPGTT) test after 12 weeks of dietary challenge. Data analysis was performed using a statistical software package IBM SPSS Statistic 23. Afterward, blood glucose concentration at the specific and between different time points during the IPGTT assay and the total area under the curve (AUC0-180) of the glucose clearance was computed and utilized as a marker for the presence and severity of diabetes. The observed AUC0-180 averages for males and females were 51,267.5 and 36,537.5 mg/dL, respectively, representing a 1.4-fold difference in favor of females with lower AUC0-180 indicating adequate glucose clearance. The AUC0-180 mean differences between the sexes within each specific CC line varied widely within the CC population. A total of 46 QTL associated with the different studied phenotypes, designated as T2DSL and its number, for Type 2 Diabetes Specific Locus and its number, were identified during our study, among which 19 QTL were not previously mapped. The genomic interval of the remaining 27 QTL previously reported, were fine mapped in our study. The genomic positions of 40 of the mapped QTL overlapped (clustered) on 11 different peaks or close genomic positions, while the remaining 6 QTL were unique. Further, our study showed a complex pattern of haplotype effects of the founders, with the wild-derived strains (mainly PWK) playing a significant role in the increase of AUC values.

Abstract Image

利用协作杂交小鼠绘制新的QTL和精细绘制先前确定的与葡萄糖耐量相关的QTL。
2型糖尿病(T2D)是一种多基因、多因素的慢性代谢性疾病。估计有4.63亿20岁至79岁的人患有糖尿病,预计到2045年这一数字将增加到7亿,造成严重的全球健康负担。糖尿病的多基因变异受环境变量的影响。T2D被认为是一种无声的疾病,在被诊断出来之前可以发展多年。因此,在环境暴露相似的人群中寻找T2D和代谢综合征的遗传标记对于理解这些复杂的特征性疾病的机制至关重要。因此,在此,我们展示了协作杂交(CC)小鼠参考群体的独家使用,以确定新的数量性状位点(QTL),并随后提出了与宿主对高脂肪饮食的葡萄糖耐量相关的基因。在这项研究中,我们使用了来自60个不同CC系的539只小鼠。在高脂肪饮食刺激12周后,通过3小时腹腔葡萄糖耐量试验(IPGTT)检测高脂肪饮食刺激对糖尿病的影响。采用IBM SPSS Statistic 23统计软件包进行数据分析。然后,计算IPGTT试验中特定时间点和不同时间点之间的血糖浓度以及葡萄糖清除的曲线下总面积(AUC0-180),并将其作为糖尿病存在和严重程度的标志。观察到男性和女性的AUC0-180平均值分别为51,267.5和36,537.5 mg/dL,代表1.4倍的差异,有利于女性,较低的AUC0-180表明足够的葡萄糖清除。在CC群体中,每个特定CC系的两性平均差异AUC0-180差异很大。在我们的研究中,共鉴定了46个与不同研究表型相关的QTL,称为T2DSL及其数量,用于2型糖尿病特异性位点及其数量,其中19个QTL之前没有被定位。其余27个QTL的基因组间隔在我们的研究中得到了很好的定位。其中,40个QTL的基因组位点在11个不同的峰或基因组位点上重叠(聚集),其余6个QTL是独特的。此外,我们的研究还显示了建立者单倍型效应的复杂模式,其中野生来源的菌株(主要是PWK)在AUC值的增加中起着重要作用。
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来源期刊
Mammalian Genome
Mammalian Genome 生物-生化与分子生物学
CiteScore
4.00
自引率
0.00%
发文量
33
审稿时长
6-12 weeks
期刊介绍: Mammalian Genome focuses on the experimental, theoretical and technical aspects of genetics, genomics, epigenetics and systems biology in mouse, human and other mammalian species, with an emphasis on the relationship between genotype and phenotype, elucidation of biological and disease pathways as well as experimental aspects of interventions, therapeutics, and precision medicine. The journal aims to publish high quality original papers that present novel findings in all areas of mammalian genetic research as well as review articles on areas of topical interest. The journal will also feature commentaries and editorials to inform readers of breakthrough discoveries as well as issues of research standards, policies and ethics.
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