Department of Medicine, Boston University School of Medicine, Boston, MA, USA.
Sections of Cardiology and Preventive Medicine and Epidemiology, Department of Medicine, Boston University School of Medicine, 72 E Concord Street, Suite L-516, Boston, MA, 02118, USA.
Curr Diab Rep. 2022 Feb;22(2):65-76. doi: 10.1007/s11892-022-01449-0. Epub 2022 Feb 3.
Metabolomics enables rapid interrogation of widespread metabolic processes making it well suited for studying diabetes. Here, we review the current status of metabolomic investigation in diabetes, highlighting its applications for improving risk prediction and mechanistic understanding.
Findings of metabolite associations with type 2 diabetes risk have confirmed experimental observations (e.g., branched-chain amino acids) and also pinpointed novel pathways of diabetes risk (e.g., dimethylguanidino valeric acid). In type 1 diabetes, abnormal metabolite patterns are observed prior to the development of autoantibodies and hyperglycemia. Diabetes complications display specific metabolite signatures that are distinct from the metabolic derangements of diabetes and differ across vascular beds. Lastly, metabolites respond acutely to pharmacologic treatment, providing opportunities to understand inter-individual treatment responses. Metabolomic studies have elucidated biological mechanisms underlying diabetes development, complications, and therapeutic response. While not yet ready for clinical translation, metabolomics is a powerful and promising precision medicine tool.
代谢组学能够快速研究广泛的代谢过程,非常适合研究糖尿病。在这里,我们综述了代谢组学在糖尿病中的研究现状,强调了其在改善风险预测和机制理解方面的应用。
与 2 型糖尿病风险相关的代谢物的发现既证实了实验观察结果(例如支链氨基酸),也确定了糖尿病风险的新途径(例如二甲基胍基戊酸)。在 1 型糖尿病中,在自身抗体和高血糖出现之前就观察到了异常的代谢物模式。糖尿病并发症表现出特定的代谢物特征,与糖尿病的代谢紊乱不同,并且在不同的血管床中也不同。最后,代谢物对药物治疗有急性反应,为了解个体间治疗反应提供了机会。代谢组学研究阐明了糖尿病发展、并发症和治疗反应的生物学机制。虽然还没有准备好进行临床转化,但代谢组学是一种强大且有前途的精准医疗工具。