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2
Towards Metabolomic-Based Precision Approaches for Classifying and Treating Heart Failure.迈向基于代谢组学的心力衰竭分类与治疗精准方法
JACC Basic Transl Sci. 2024 Jul 31;9(9):1144-1158. doi: 10.1016/j.jacbts.2024.04.008. eCollection 2024 Sep.
3
Metabolic Effects of the SGLT2 Inhibitor Dapagliflozin in Heart Failure Across the Spectrum of Ejection Fraction.钠-葡萄糖协同转运蛋白 2 抑制剂达格列净对射血分数不同心衰患者的代谢影响
Circ Heart Fail. 2024 Nov;17(11):e011980. doi: 10.1161/CIRCHEARTFAILURE.124.011980. Epub 2024 Oct 18.
4
Empagliflozin alters lipid metabolism in the myocardium and liver in a prediabetes model with severe dyslipidemia.在伴有严重血脂异常的糖尿病前期模型中,恩格列净可改变心肌和肝脏中的脂质代谢。
Front Pharmacol. 2024 Jul 4;15:1393946. doi: 10.3389/fphar.2024.1393946. eCollection 2024.
5
Dapagliflozin reduces systemic inflammation in patients with type 2 diabetes without known heart failure.达格列净可降低无已知心力衰竭的 2 型糖尿病患者的全身炎症。
Cardiovasc Diabetol. 2024 Jun 7;23(1):197. doi: 10.1186/s12933-024-02294-z.
6
Targeted Metabolomic Profiling of Dapagliflozin in Heart Failure With Preserved Ejection Fraction: The PRESERVED-HF Trial.达格列净治疗射血分数保留心力衰竭的靶向代谢组学分析:PRESERVED-HF 试验。
JACC Heart Fail. 2024 Jun;12(6):999-1011. doi: 10.1016/j.jchf.2024.02.018. Epub 2024 Apr 17.
7
KDIGO 2024 Clinical Practice Guideline for the Evaluation and Management of Chronic Kidney Disease.KDIGO 2024慢性肾脏病评估与管理临床实践指南
Kidney Int. 2024 Apr;105(4S):S117-S314. doi: 10.1016/j.kint.2023.10.018.
8
Canagliflozin regulates metabolic reprogramming in diabetic kidney disease by inducing fasting-like and aestivation-like metabolic patterns.卡格列净通过诱导类似禁食和休眠的代谢模式来调节糖尿病肾病的代谢重编程。
Diabetologia. 2024 Apr;67(4):738-754. doi: 10.1007/s00125-023-06078-0. Epub 2024 Jan 18.
9
High Mannose Correlates With Surrogate Indexes of Insulin Resistance and Is Associated With an Increased Risk of Cardiovascular Events Independently of Glycemic Status and Traditional Risk Factors.高甘露糖与胰岛素抵抗的替代指标相关,且与心血管事件风险增加独立相关,与血糖状态和传统危险因素无关。
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10
Effect of dapagliflozin on proteomics and metabolomics of serum from patients with type 2 diabetes.达格列净对2型糖尿病患者血清蛋白质组学和代谢组学的影响。
Diabetol Metab Syndr. 2023 Dec 4;15(1):251. doi: 10.1186/s13098-023-01229-0.

代谢组学揭示钠-葡萄糖协同转运蛋白2抑制剂对2型糖尿病的益处

Metabolomics Insights into the Benefits of SGLT2 Inhibitors in Type 2 Diabetes.

作者信息

Kyriakidou Artemis, Koufakis Theocharis, Gika Helen, Kotsa Kalliopi

机构信息

Division of Endocrinology and Metabolism and Diabetes Center, First Department of Internal Medicine, Medical School, Aristotle University of Thessaloniki, AHEPA University Hospital, Thessaloniki, Greece.

Second Propedeutic Department of Internal Medicine, Aristotle University of Thessaloniki, Hippokration General Hospital, Thessaloniki, Greece.

出版信息

Clin Pharmacol. 2025 Aug 31;17:253-267. doi: 10.2147/CPAA.S497906. eCollection 2025.

DOI:10.2147/CPAA.S497906
PMID:40917466
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12410376/
Abstract

BACKGROUND

Sodium-glucose cotransporter 2 (SGLT2) inhibitors are an established class of agents in the treatment of type 2 diabetes mellitus (T2DM), with proven cardiovascular and renal benefits. However, their precise mechanisms of action remain incompletely understood. Metabolomics offers a powerful approach to uncovering drug-induced alterations in metabolic pathways.

AIM

This narrative review summarizes the available human evidence on the metabolomic effects of SGLT2 inhibitors, with a focus on their potential implications for metabolic adaptation and cardiorenal protection.

METHODS

We performed a comprehensive literature search of human studies that applied metabolomic analyses to evaluate the effects of SGLT2 inhibitors in T2DM. Both targeted and untargeted metabolomic approaches were considered.

RESULTS

Across studies, SGLT2 inhibitors consistently induce a metabolic shift away from glucose utilization toward more energy-efficient substrates. Key metabolite changes include increases in ketone bodies, alterations in branched-chain amino acids, and modulation of intermediates of the tricarboxylic acid cycle.

CONCLUSION

SGLT2 inhibitors consistently induce a metabolic shift away from glucose utilization toward more energy-efficient substrates, including ketone bodies, fatty acids, and certain amino acids. These metabolomic adaptations may underlie their observed cardiovascular and renal protective effects. While these findings support the "thrifty fuel" hypothesis, additional longitudinal studies with standardized methodologies and precision medicine approaches are needed to fully define the clinical significance of these metabolic adaptations.

摘要

背景

钠-葡萄糖协同转运蛋白2(SGLT2)抑制剂是治疗2型糖尿病(T2DM)的一类既定药物,已证实具有心血管和肾脏益处。然而,其确切作用机制仍未完全明确。代谢组学为揭示药物引起的代谢途径改变提供了一种有力方法。

目的

本叙述性综述总结了关于SGLT2抑制剂代谢组学效应的现有人类证据,重点关注其对代谢适应和心肾保护的潜在影响。

方法

我们对应用代谢组学分析评估SGLT2抑制剂在T2DM中作用的人类研究进行了全面文献检索。同时考虑了靶向和非靶向代谢组学方法。

结果

在各项研究中,SGLT2抑制剂始终诱导代谢从葡萄糖利用转向更节能的底物。关键代谢物变化包括酮体增加、支链氨基酸改变以及三羧酸循环中间体的调节。

结论

SGLT2抑制剂始终诱导代谢从葡萄糖利用转向更节能的底物,包括酮体、脂肪酸和某些氨基酸。这些代谢组学适应可能是其观察到的心肾保护作用的基础。虽然这些发现支持“节俭燃料”假说,但需要更多采用标准化方法和精准医学方法的纵向研究来充分确定这些代谢适应的临床意义。