尿液代谢组学有助于深入了解 1 型糖尿病患者的冠状动脉疾病。

IF 8.5 1区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS
Anni A Antikainen, Stefan Mutter, Valma Harjutsalo, Lena M Thorn, Per-Henrik Groop, Niina Sandholm
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引用次数: 0

摘要

背景:1 型糖尿病会增加罹患冠状动脉疾病(CAD)的风险。高通量代谢组学可用于鉴定与疾病相关的代谢物,从而深入了解疾病的病理生理学,并作为临床实践中的预测标记物。与血液相比,尿液的调控不那么严格,因此可以更早地发现与疾病相关的标记物。我们研究了尿液代谢组学与 1 型糖尿病患者发生 CAD 的关系:我们对芬兰糖尿病肾病研究中的 2501 名 1 型糖尿病成人进行了前瞻性研究。209名参与者在10年的随访中发生了并发症。我们利用高通量靶向尿液代谢组学平台分析了基线尿液样本,得出了 54 种代谢物。利用这些数据,我们进行了全代谢组生存分析、相关网络分析和代谢组状态分析,以预测突发的冠心病:结果:尿液中的 3- 羟基异丁酸与 10 年内发病率较低的 CAD 相关,根据网络分析,这可能反映了较年轻的年龄和肾功能的改善。尿液中的黄嘌呤核苷与 10 年后的冠心病发病率有关。在网络分析中,黄嘌呤核苷与尿尿囊素基线相关,尿尿囊素是氧化应激的标志物。此外,尿液中的反式乌头酸和4-脱氧苏氨酸也与5年期冠心病发病率的降低有关。代谢组状态分析支持使用与 CAD 相关的尿液代谢物来提高预测准确性,尤其是在较短的随访期间。此外,尿液中的反式乌头酸盐和4-脱氧苏氨酸与5年后发生的CAD减少有关。网络分析进一步表明,肾小球滤过率对未来患有和未患有冠心病的个体尿液代谢组的影响不同:我们首次对1型糖尿病患者的冠状动脉粥样硬化进行了高通量尿代谢组学分析,发现黄嘌呤核苷、3-羟基异丁酸、反式乌头酸和4-脱氧苏氨酸与冠状动脉粥样硬化的发生有关。此外,代谢组学状态分析还提高了对并发症的预测能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Urinary metabolomics provide insights into coronary artery disease in individuals with type 1 diabetes.

Background: Type 1 diabetes increases the risk of coronary artery disease (CAD). High-throughput metabolomics may be utilized to identify metabolites associated with disease, thus, providing insight into disease pathophysiology, and serving as predictive markers in clinical practice. Urine is less tightly regulated than blood, and therefore, may enable earlier discovery of disease-associated markers. We studied urine metabolomics in relation to incident CAD in individuals with type 1 diabetes.

Methods: We prospectively studied CAD in 2501 adults with type 1 diabetes from the Finnish Diabetic Nephropathy Study. 209 participants experienced incident CAD within the 10-year follow-up. We analyzed the baseline urine samples with a high-throughput targeted urine metabolomics platform, which yielded 54 metabolites. With the data, we performed metabolome-wide survival analyses, correlation network analyses, and metabolomic state profiling for prediction of incident CAD.

Results: Urinary 3-hydroxyisobutyrate was associated with decreased 10-year incident CAD, which according to the network analysis, likely reflects younger age and improved kidney function. Urinary xanthosine was associated with 10-year incident CAD. In the network analysis, xanthosine correlated with baseline urinary allantoin, which is a marker of oxidative stress. In addition, urinary trans-aconitate and 4-deoxythreonate were associated with decreased 5-year incident CAD. Metabolomic state profiling supported the usage of CAD-associated urinary metabolites to improve prediction accuracy, especially during shorter follow-up. Furthermore, urinary trans-aconitate and 4-deoxythreonate were associated with decreased 5-year incident CAD. The network analysis further suggested glomerular filtration rate to influence the urinary metabolome differently between individuals with and without future CAD.

Conclusions: We have performed the first high-throughput urinary metabolomics analysis on CAD in individuals with type 1 diabetes and found xanthosine, 3-hydroxyisobutyrate, trans-aconitate, and 4-deoxythreonate to be associated with incident CAD. In addition, metabolomic state profiling improved prediction of incident CAD.

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来源期刊
Cardiovascular Diabetology
Cardiovascular Diabetology 医学-内分泌学与代谢
CiteScore
12.30
自引率
15.10%
发文量
240
审稿时长
1 months
期刊介绍: Cardiovascular Diabetology is a journal that welcomes manuscripts exploring various aspects of the relationship between diabetes, cardiovascular health, and the metabolic syndrome. We invite submissions related to clinical studies, genetic investigations, experimental research, pharmacological studies, epidemiological analyses, and molecular biology research in this field.
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