Ken Liu scite author profile

Ken Liu

5Publications

43Citation Statements Received

115Citation Statements Given

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114

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Emory University

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Mitochondrial H ₂ S Regulates BCAA Catabolism in Heart Failure

Xia

Sharp

et al. 2022

Circulation Research

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BACKGROUND: Hydrogen sulfide (H 2 S) exerts mitochondria-specific actions that include the preservation of oxidative phosphorylation, biogenesis, and ATP synthesis, while inhibiting cell death. 3-MST (3-mercaptopyruvate sulfurtransferase) is a mitochondrial H 2 S-producing enzyme whose functions in the cardiovascular disease are not fully understood. In the current study, we investigated the effects of global 3-MST deficiency in the setting of pressure overload–induced heart failure. METHODS: Human myocardial samples obtained from patients with heart failure undergoing cardiac surgeries were probed for 3-MST protein expression. 3-MST knockout mice and C57BL/6J wild-type mice were subjected to transverse aortic constriction to induce pressure overload heart failure with reduced ejection fraction. Cardiac structure and function, vascular reactivity, exercise performance, mitochondrial respiration, and ATP synthesis efficiency were assessed. In addition, untargeted metabolomics were utilized to identify key pathways altered by 3-MST deficiency. RESULTS: Myocardial 3-MST was significantly reduced in patients with heart failure compared with nonfailing controls. 3-MST KO mice exhibited increased accumulation of branched-chain amino acids in the myocardium, which was associated with reduced mitochondrial respiration and ATP synthesis, exacerbated cardiac and vascular dysfunction, and worsened exercise performance following transverse aortic constriction. Restoring myocardial branched-chain amino acid catabolism with 3,6-dichlorobenzo1[b]thiophene-2-carboxylic acid (BT2) and administration of a potent H 2 S donor JK-1 ameliorates the detrimental effects of 3-MST deficiency in heart failure with reduced ejection fraction. CONCLUSIONS: Our data suggest that 3-MST derived mitochondrial H 2 S may play a regulatory role in branched-chain amino acid catabolism and mediate critical cardiovascular protection in heart failure.

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Large-scale, enzyme-based xenobiotic identification for exposomics

Liu

Lee

Singer

et al. 2020

Preprint

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Advances in genomics have revealed many of the genetic underpinnings of human disease, but exposomics methods are currently inadequate to obtain a similar level of understanding of environmental contributions to human disease. Exposomics methods are limited by low abundance of xenobiotic metabolites and lack of authentic standards, which precludes identification using solely mass spectrometry-based criteria. Here, we develop and validate a method for enzymatic generation of xenobiotic metabolites for use with high-resolution mass spectrometry (HRMS) for chemical identification. Generated xenobiotic metabolites were used to confirm identities of respective metabolites in mice and human samples based upon accurate mass, retention time and co-occurrence with related xenobiotic metabolites. The results establish a generally applicable enzyme-based identification (EBI) for mass spectrometry identification of xenobiotic metabolites.

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Plasma Metabolomics Analysis of Aspirin Treatment and Risk of Colorectal Adenomas

Barry

Fedirko

Jin

et al. 2022

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Despite substantial observational and experimental evidence that aspirin use can provide protection against the development of colorectal neoplasia, our understanding of the molecular mechanisms involved is inadequate and limits our ability to use this drug effectively and safely for chemoprevention. We employed an untargeted plasma metabolomics approach using liquid chromatography with high-resolution mass spectroscopy to explore novel metabolites that may contribute to the chemopreventive effects of aspirin. Associations between levels of metabolic features in plasma and aspirin treatment were investigated among 523 participants in a randomized placebo-controlled clinical trial of two doses of aspirin (81 or 325 mg/day) and were linked to risk of colorectal adenoma occurrence over 3 years of follow-up. Metabolic pathways that were altered with aspirin treatment included linoleate and glycerophospholipid metabolism for the 81-mg dose and carnitine shuttle for both doses. Metabolites whose levels increased with 81 mg/day aspirin treatment and were also associated with decreased risk of adenomas during follow-up included certain forms of lysophosphatidylcholine and lysophosphatidylethanolamine as well as trihydroxyoctadecenoic acid, which is a derivative of linoleic acid and is upstream of cyclooxygenase inhibition by aspirin in the linoleate and arachidonic acid metabolism pathways. In conclusion, our findings regarding lysophospholipids and metabolites in the linoleate metabolism pathway may provide novel insights into the chemopreventive effects of aspirin in the colorectum, although they should be considered hypothesis-generating at this time. Prevention Relevance: This research used metabolomics, an innovative discovery-based approach, to identify molecular changes in human blood that may help to explain how aspirin use reduces the risk of colorectal neoplasia in some individuals. Ultimately, this work could have important implications for optimizing aspirin use in the prevention of colorectal cancer.

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Supplementary Table from Plasma Metabolomics Analysis of Aspirin Treatment and Risk of Colorectal Adenomas

Barry¹,

Fedirko²,

Jin³

et al. 2023

Preprint

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Supplementary Table from Plasma Metabolomics Analysis of Aspirin Treatment and Risk of Colorectal Adenomas

Barry¹,

Fedirko²,

Jin³

et al. 2023

Preprint

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Ken Liu

Mitochondrial H ₂ S Regulates BCAA Catabolism in Heart Failure

Large-scale, enzyme-based xenobiotic identification for exposomics

Plasma Metabolomics Analysis of Aspirin Treatment and Risk of Colorectal Adenomas

Supplementary Table from Plasma Metabolomics Analysis of Aspirin Treatment and Risk of Colorectal Adenomas

Supplementary Table from Plasma Metabolomics Analysis of Aspirin Treatment and Risk of Colorectal Adenomas

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Ken Liu

Mitochondrial H 2 S Regulates BCAA Catabolism in Heart Failure

Large-scale, enzyme-based xenobiotic identification for exposomics

Plasma Metabolomics Analysis of Aspirin Treatment and Risk of Colorectal Adenomas

Supplementary Table from Plasma Metabolomics Analysis of Aspirin Treatment and Risk of Colorectal Adenomas

Supplementary Table from Plasma Metabolomics Analysis of Aspirin Treatment and Risk of Colorectal Adenomas

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Mitochondrial H ₂ S Regulates BCAA Catabolism in Heart Failure