Data-dependent and -independent acquisition lipidomics analysis reveals the tissue-dependent effect of metformin on lipid metabolism.

IF 3.5 3区 医学 Q2 ENDOCRINOLOGY & METABOLISM
Grace Scheidemantle, Likun Duan, Mareca Lodge, Magdalina J Cummings, Dalton Hilovsky, Eva Pham, Xiaoqiu Wang, Arion Kennedy, Xiaojing Liu
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引用次数: 0

Abstract

Introduction: Despite the well-recognized health benefits, the mechanisms and site of action of metformin remains elusive. Metformin-induced global lipidomic changes in plasma of animal models and human subjects have been reported. However, there is a lack of systemic evaluation of metformin-induced lipidomic changes in different tissues. Metformin uptake requires active transporters such as organic cation transporters (OCTs), and hence, it is anticipated that metformin actions are tissue-dependent. In this study, we aim to characterize metformin effects in non-diabetic male mice with a special focus on lipidomics analysis. The findings from this study will help us to better understand the cell-autonomous (direct actions in target cells) or non-cell-autonomous (indirect actions in target cells) mechanisms of metformin and provide insights into the development of more potent yet safe drugs targeting a particular organ instead of systemic metabolism for metabolic regulations without major side effects.

Objectives: To characterize metformin-induced lipidomic alterations in different tissues of non-diabetic male mice and further identify lipids affected by metformin through cell-autonomous or systemic mechanisms based on the correlation between lipid alterations in tissues and the corresponding in-tissue metformin concentrations.

Methods: A dual extraction method involving 80% methanol followed by MTBE (methyl tert-butyl ether) extraction enables the analysis of free fatty acids, polar metabolites, and lipids. Extracts from tissues and plasma of male mice treated with or without metformin in drinking water for 12 days were analyzed using HILIC chromatography coupled to Q Exactive Plus mass spectrometer or reversed-phase liquid chromatography coupled to MS/MS scan workflow (hybrid mode) on LC-Orbitrap Exploris 480 mass spectrometer using biologically relevant lipids-containing inclusion list for data-independent acquisition (DIA), named as BRI-DIA workflow followed by data-dependent acquisition (DDA), to maximum the coverage of lipids and minimize the negative effect of stochasticity of precursor selection on experimental consistency and reproducibility.

Results: Lipidomics analysis of 6 mouse tissues and plasma allowed a systemic evaluation of lipidomic changes induced by metformin in different tissues. We observed that (1) the degrees of lipidomic changes induced by metformin treatment overly correlated with tissue concentrations of metformin; (2) the impact on lysophosphatidylcholine (lysoPC) and cardiolipins was positively correlated with tissue concentrations of metformin, while neutral lipids such as triglycerides did not correlate with the corresponding tissue metformin concentrations; (3) increase of intestinal tricarboxylic acid (TCA) cycle intermediates after metformin treatment.

Conclusion: The data collected in this study from non-diabetic mice with 12-day metformin treatment suggest that the overall metabolic effect of metformin is positively correlated with tissue concentrations and the effect on individual lipid subclass is via both cell-autonomous mechanisms (cardiolipins and lysoPC) and non-cell-autonomous mechanisms (triglycerides).

Abstract Image

数据依赖性和非依赖性采集脂质组学分析揭示了二甲双胍对脂质代谢的组织依赖性影响。
简介:尽管二甲双胍对健康的益处已得到广泛认可,但其作用机制和作用部位仍难以捉摸。二甲双胍诱导动物模型和人体血浆中脂质组的整体变化已有报道。然而,目前还缺乏对二甲双胍诱导的不同组织脂质体变化的系统评估。二甲双胍的吸收需要有机阳离子转运体(OCTs)等活性转运体的参与,因此,预计二甲双胍的作用与组织有关。在本研究中,我们旨在描述二甲双胍对非糖尿病雄性小鼠的影响,重点是脂质组学分析。这项研究的结果将有助于我们更好地理解二甲双胍的细胞自主(直接作用于靶细胞)或非细胞自主(间接作用于靶细胞)机制,并为开发针对特定器官而非全身代谢的更强效、更安全的药物提供见解,从而实现无重大副作用的代谢调节:表征二甲双胍诱导的非糖尿病雄性小鼠不同组织的脂质体改变,并根据组织中脂质改变与相应组织内二甲双胍浓度之间的相关性,进一步确定二甲双胍通过细胞自主或全身机制影响脂质体:方法:采用80%甲醇和MTBE(甲基叔丁基醚)双重萃取法对游离脂肪酸、极性代谢物和脂质进行分析。采用HILIC色谱-Q Exactive Plus质谱仪或反相液相色谱-MS/MS扫描工作流程(混合模式),在LC-Orbitrap Exploris 480质谱仪上使用与生物相关的脂质包含列表进行数据独立采集(DIA),分析了在饮用水中添加或不添加二甲双胍12天的雄性小鼠的组织和血浆提取物、该工作流程被命名为 "BRI-DIA 工作流程",然后再进行 "数据依赖性采集(DDA)",以最大限度地扩大脂质的覆盖范围,并将前体选择的随机性对实验一致性和重现性的负面影响降至最低。结果通过对 6 种小鼠组织和血浆进行脂质组学分析,可以系统评估二甲双胍在不同组织中引起的脂质组学变化。我们观察到:(1)二甲双胍治疗诱导的脂质体变化程度与组织中二甲双胍的浓度过度相关;(2)溶血磷脂酰胆碱(lysoPC)和心磷脂的影响与组织中二甲双胍的浓度呈正相关,而甘油三酯等中性脂质与相应组织中二甲双胍的浓度无关;(3)二甲双胍治疗后肠道三羧酸(TCA)循环中间产物增加:本研究从非糖尿病小鼠身上收集的 12 天二甲双胍治疗数据表明,二甲双胍的整体代谢效应与组织浓度呈正相关,对单个脂质亚类的影响是通过细胞自主机制(心磷脂和溶血磷脂)和非细胞自主机制(甘油三酯)产生的。
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来源期刊
Metabolomics
Metabolomics 医学-内分泌学与代谢
CiteScore
6.60
自引率
2.80%
发文量
84
审稿时长
2 months
期刊介绍: Metabolomics publishes current research regarding the development of technology platforms for metabolomics. This includes, but is not limited to: metabolomic applications within man, including pre-clinical and clinical pharmacometabolomics for precision medicine metabolic profiling and fingerprinting metabolite target analysis metabolomic applications within animals, plants and microbes transcriptomics and proteomics in systems biology Metabolomics is an indispensable platform for researchers using new post-genomics approaches, to discover networks and interactions between metabolites, pharmaceuticals, SNPs, proteins and more. Its articles go beyond the genome and metabolome, by including original clinical study material together with big data from new emerging technologies.
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