Metabolomic Profiles and Heart Failure Risk in Black Adults: Insights From the Jackson Heart Study

Usman A. Tahir; Daniel H. Katz; Tianyi Zhao; Debby Ngo; Daniel E. Cruz; Jeremy M. Robbins; Zsu Zsu Chen; Bennet Peterson; Mark D. Benson; Xu Shi; Lucas Dailey; Charlotte Andersson; Ramachandran S. Vasan; Yan Gao; Changyu Shen; Adolfo Correa; Michael E. Hall; Thomas J. Wang; Clary B. Clish; James G. Wilson; Robert E. Gerszten

doi:10.1161/CIRCHEARTFAILURE.120.007275

Metabolomic Profiles and Heart Failure Risk in Black Adults: Insights From the Jackson Heart Study

Usman A. Tahir, Daniel H. Katz, Tianyi Zhao, Debby Ngo, Daniel E. Cruz, Jeremy M. Robbins, Zsu Zsu Chen, Bennet Peterson, Mark D. Benson, Xu Shi, Lucas Dailey, Charlotte Andersson, Ramachandran S. Vasan, Yan Gao, Changyu Shen, Adolfo Correa, Michael E. Hall, Thomas J. Wang, Clary B. Clish, James G. WilsonRobert E. Gerszten

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Background: Heart failure (HF) is a heterogeneous disease characterized by significant metabolic disturbances; however, the breadth of metabolic dysfunction before the onset of overt disease is not well understood. The purpose of this study was to determine the association of circulating metabolites with incident HF to uncover novel metabolic pathways to disease. Methods: We performed targeted plasma metabolomic profiling in a deeply phenotyped group of Black adults from the JHS (Jackson Heart Study; n=2199). We related metabolites associated with incident HF to established etiological mechanisms, including increased left ventricular mass index and incident coronary heart disease. Furthermore, we evaluated differential associations of metabolites with HF with preserved ejection fraction versus HF with reduced ejection fraction. Results: Metabolites associated with incident HF included products of posttranscriptional modifications of RNA, as well as polyamine and nitric oxide metabolism. A subset of metabolite-HF associations was independent of well-established HF pathways such as increased left ventricular mass index and incident coronary heart disease and included homoarginine (per 1 SD increase in metabolite level, hazard ratio, 0.77; P=1.2×10^-3), diacetylspermine (hazard ratio, 1.34; P=3.4×10^-3), and uridine (hazard ratio, 0.79; P, 3×10^-4). Furthermore, metabolites involved in pyrimidine metabolism (orotic acid) and collagen turnover (N-methylproline) among others were part of a distinct metabolic signature that differentiated individuals with HF with preserved ejection fraction versus HF with reduced ejection fraction. Conclusions: The integration of clinical phenotyping with plasma metabolomic profiling uncovered novel metabolic processes in nontraditional disease pathways underlying the heterogeneity of HF development in Black adults.

Original language	English (US)
Pages (from-to)	E007275
Journal	Circulation: Heart Failure
Volume	14
Issue number	1
DOIs	https://doi.org/10.1161/CIRCHEARTFAILURE.120.007275
State	Published - Jan 1 2021

Keywords

heart diseases
heart failure
medicine
metabolomics
plasma

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine

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10.1161/CIRCHEARTFAILURE.120.007275

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Tahir, U. A., Katz, D. H., Zhao, T., Ngo, D., Cruz, D. E., Robbins, J. M., Chen, Z. Z., Peterson, B., Benson, M. D., Shi, X., Dailey, L., Andersson, C., Vasan, R. S., Gao, Y., Shen, C., Correa, A., Hall, M. E., Wang, T. J., Clish, C. B., ... Gerszten, R. E. (2021). Metabolomic Profiles and Heart Failure Risk in Black Adults: Insights From the Jackson Heart Study. Circulation: Heart Failure, 14(1), E007275. https://doi.org/10.1161/CIRCHEARTFAILURE.120.007275

Tahir, UA, Katz, DH, Zhao, T, Ngo, D, Cruz, DE, Robbins, JM, Chen, ZZ, Peterson, B, Benson, MD, Shi, X, Dailey, L, Andersson, C, Vasan, RS, Gao, Y, Shen, C, Correa, A, Hall, ME, Wang, TJ, Clish, CB, Wilson, JG & Gerszten, RE 2021, 'Metabolomic Profiles and Heart Failure Risk in Black Adults: Insights From the Jackson Heart Study', Circulation: Heart Failure, vol. 14, no. 1, pp. E007275. https://doi.org/10.1161/CIRCHEARTFAILURE.120.007275

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title = "Metabolomic Profiles and Heart Failure Risk in Black Adults: Insights From the Jackson Heart Study",

abstract = "Background: Heart failure (HF) is a heterogeneous disease characterized by significant metabolic disturbances; however, the breadth of metabolic dysfunction before the onset of overt disease is not well understood. The purpose of this study was to determine the association of circulating metabolites with incident HF to uncover novel metabolic pathways to disease. Methods: We performed targeted plasma metabolomic profiling in a deeply phenotyped group of Black adults from the JHS (Jackson Heart Study; n=2199). We related metabolites associated with incident HF to established etiological mechanisms, including increased left ventricular mass index and incident coronary heart disease. Furthermore, we evaluated differential associations of metabolites with HF with preserved ejection fraction versus HF with reduced ejection fraction. Results: Metabolites associated with incident HF included products of posttranscriptional modifications of RNA, as well as polyamine and nitric oxide metabolism. A subset of metabolite-HF associations was independent of well-established HF pathways such as increased left ventricular mass index and incident coronary heart disease and included homoarginine (per 1 SD increase in metabolite level, hazard ratio, 0.77; P=1.2×10-3), diacetylspermine (hazard ratio, 1.34; P=3.4×10-3), and uridine (hazard ratio, 0.79; P, 3×10-4). Furthermore, metabolites involved in pyrimidine metabolism (orotic acid) and collagen turnover (N-methylproline) among others were part of a distinct metabolic signature that differentiated individuals with HF with preserved ejection fraction versus HF with reduced ejection fraction. Conclusions: The integration of clinical phenotyping with plasma metabolomic profiling uncovered novel metabolic processes in nontraditional disease pathways underlying the heterogeneity of HF development in Black adults.",

keywords = "heart diseases, heart failure, medicine, metabolomics, plasma",

author = "Tahir, {Usman A.} and Katz, {Daniel H.} and Tianyi Zhao and Debby Ngo and Cruz, {Daniel E.} and Robbins, {Jeremy M.} and Chen, {Zsu Zsu} and Bennet Peterson and Benson, {Mark D.} and Xu Shi and Lucas Dailey and Charlotte Andersson and Vasan, {Ramachandran S.} and Yan Gao and Changyu Shen and Adolfo Correa and Hall, {Michael E.} and Wang, {Thomas J.} and Clish, {Clary B.} and Wilson, {James G.} and Gerszten, {Robert E.}",

year = "2021",

month = jan,

day = "1",

doi = "10.1161/CIRCHEARTFAILURE.120.007275",

language = "English (US)",

volume = "14",

pages = "E007275",

journal = "Circulation: Heart Failure",

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TY - JOUR

T1 - Metabolomic Profiles and Heart Failure Risk in Black Adults

T2 - Insights From the Jackson Heart Study

AU - Tahir, Usman A.

AU - Katz, Daniel H.

AU - Zhao, Tianyi

AU - Ngo, Debby

AU - Cruz, Daniel E.

AU - Robbins, Jeremy M.

AU - Chen, Zsu Zsu

AU - Peterson, Bennet

AU - Benson, Mark D.

AU - Shi, Xu

AU - Dailey, Lucas

AU - Andersson, Charlotte

AU - Vasan, Ramachandran S.

AU - Gao, Yan

AU - Shen, Changyu

AU - Correa, Adolfo

AU - Hall, Michael E.

AU - Wang, Thomas J.

AU - Clish, Clary B.

AU - Wilson, James G.

AU - Gerszten, Robert E.

PY - 2021/1/1

Y1 - 2021/1/1

N2 - Background: Heart failure (HF) is a heterogeneous disease characterized by significant metabolic disturbances; however, the breadth of metabolic dysfunction before the onset of overt disease is not well understood. The purpose of this study was to determine the association of circulating metabolites with incident HF to uncover novel metabolic pathways to disease. Methods: We performed targeted plasma metabolomic profiling in a deeply phenotyped group of Black adults from the JHS (Jackson Heart Study; n=2199). We related metabolites associated with incident HF to established etiological mechanisms, including increased left ventricular mass index and incident coronary heart disease. Furthermore, we evaluated differential associations of metabolites with HF with preserved ejection fraction versus HF with reduced ejection fraction. Results: Metabolites associated with incident HF included products of posttranscriptional modifications of RNA, as well as polyamine and nitric oxide metabolism. A subset of metabolite-HF associations was independent of well-established HF pathways such as increased left ventricular mass index and incident coronary heart disease and included homoarginine (per 1 SD increase in metabolite level, hazard ratio, 0.77; P=1.2×10-3), diacetylspermine (hazard ratio, 1.34; P=3.4×10-3), and uridine (hazard ratio, 0.79; P, 3×10-4). Furthermore, metabolites involved in pyrimidine metabolism (orotic acid) and collagen turnover (N-methylproline) among others were part of a distinct metabolic signature that differentiated individuals with HF with preserved ejection fraction versus HF with reduced ejection fraction. Conclusions: The integration of clinical phenotyping with plasma metabolomic profiling uncovered novel metabolic processes in nontraditional disease pathways underlying the heterogeneity of HF development in Black adults.

AB - Background: Heart failure (HF) is a heterogeneous disease characterized by significant metabolic disturbances; however, the breadth of metabolic dysfunction before the onset of overt disease is not well understood. The purpose of this study was to determine the association of circulating metabolites with incident HF to uncover novel metabolic pathways to disease. Methods: We performed targeted plasma metabolomic profiling in a deeply phenotyped group of Black adults from the JHS (Jackson Heart Study; n=2199). We related metabolites associated with incident HF to established etiological mechanisms, including increased left ventricular mass index and incident coronary heart disease. Furthermore, we evaluated differential associations of metabolites with HF with preserved ejection fraction versus HF with reduced ejection fraction. Results: Metabolites associated with incident HF included products of posttranscriptional modifications of RNA, as well as polyamine and nitric oxide metabolism. A subset of metabolite-HF associations was independent of well-established HF pathways such as increased left ventricular mass index and incident coronary heart disease and included homoarginine (per 1 SD increase in metabolite level, hazard ratio, 0.77; P=1.2×10-3), diacetylspermine (hazard ratio, 1.34; P=3.4×10-3), and uridine (hazard ratio, 0.79; P, 3×10-4). Furthermore, metabolites involved in pyrimidine metabolism (orotic acid) and collagen turnover (N-methylproline) among others were part of a distinct metabolic signature that differentiated individuals with HF with preserved ejection fraction versus HF with reduced ejection fraction. Conclusions: The integration of clinical phenotyping with plasma metabolomic profiling uncovered novel metabolic processes in nontraditional disease pathways underlying the heterogeneity of HF development in Black adults.

KW - heart diseases

KW - heart failure

KW - medicine

KW - metabolomics

KW - plasma

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Metabolomic Profiles and Heart Failure Risk in Black Adults: Insights From the Jackson Heart Study

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