Genetic Reduction in Left Ventricular Protein Kinase C-α and Adverse Ventricular Remodeling in Human Subjects

Ray Hu; Michael P. Morley; Jeffrey Brandimarto; Nathan R. Tucker; Victoria A. Parsons; Sihai D. Zhao; Benjamin Meder; Hugo A. Katus; Frank Rühle; Monika Stoll; Eric Villard; François Cambien; Honghuang Lin; Nicholas L. Smith; Janine F. Felix; Ramachandran S. Vasan; Pim van der Harst; Christopher Newton-Cheh; Jin Li; Cecilia E. Kim; Hakon Hakonarson; Sridhar Hannenhalli; Euan A. Ashley; Christine S. Moravec; W. H.Wilson Tang; Marjorie Maillet; Jeffery D. Molkentin; Patrick T. Ellinor; Kenneth B. Margulies; Thomas P. Cappola

doi:10.1161/CIRCGEN.117.001901

Genetic Reduction in Left Ventricular Protein Kinase C-α and Adverse Ventricular Remodeling in Human Subjects

Ray Hu, Michael P. Morley, Jeffrey Brandimarto, Nathan R. Tucker, Victoria A. Parsons, Sihai D. Zhao, Benjamin Meder, Hugo A. Katus, Frank Rühle, Monika Stoll, Eric Villard, François Cambien, Honghuang Lin, Nicholas L. Smith, Janine F. Felix, Ramachandran S. Vasan, Pim van der Harst, Christopher Newton-Cheh, Jin Li, Cecilia E. KimHakon Hakonarson, Sridhar Hannenhalli, Euan A. Ashley, Christine S. Moravec, W. H.Wilson Tang, Marjorie Maillet, Jeffery D. Molkentin, Patrick T. Ellinor, Kenneth B. Margulies, Thomas P. Cappola

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Resumen

BACKGROUND: Inhibition of PKC-α (protein kinase C-α) enhances contractility and cardioprotection in animal models, but effects in humans are unknown. Genotypes at rs9912468 strongly associate with PRKCA expression in the left ventricle, enabling genetic approaches to measure effects of reduced PKC-α in human populations. METHODS AND RESULTS: We analyzed the cis expression quantitative trait locus for PRKCA marked by rs9912468 using 313 left ventricular specimens from European Ancestry patients. The forward strand minor allele (G) at rs9912468 is associated with reduced PKC-α transcript abundance (1.7-fold reduction in minor allele homozygotes, P=1×10-41). This association was cardiac specific in expression quantitative trait locus data sets that span 16 human tissues. Cardiac epigenomic data revealed a predicted enhancer in complete (R2=1.0) linkage disequilibrium with rs9912468 within intron 2 of PRKCA. We cloned this region and used reporter constructs to verify cardiac-specific enhancer activity in vitro in cardiac and noncardiac cells and in vivo in zebrafish. The PRKCA enhancer contains 2 common genetic variants and 4 haplotypes; the haplotype correlated with the rs9912468 PKC-α-lowering allele (G) showed lowest activity. In contrast to previous reports in animal models, the PKC-α-lowering allele is associated with adverse left ventricular remodeling (higher mass, larger diastolic dimension), reduced fractional shortening, and higher risk of dilated cardiomyopathy in human populations. CONCLUSIONS: These findings support PKC-α as a regulator of the human heart but suggest that PKC-α inhibition may adversely affect the left ventricle depending on timing and duration. Pharmacological studies in human subjects are required to discern potential benefits and harms of PKC-α inhibitors as an approach to treat heart disease.

Idioma original	English (US)
Páginas (desde-hasta)	e001901
Publicación	Circulation. Genomic and precision medicine
Volumen	11
N.º	3
DOI	https://doi.org/10.1161/CIRCGEN.117.001901
Estado	Published - mar 1 2018
Publicado de forma externa	Sí

ASJC Scopus subject areas

Genetics
Cardiology and Cardiovascular Medicine
Genetics(clinical)

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10.1161/CIRCGEN.117.001901

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Hu, R., Morley, M. P., Brandimarto, J., Tucker, N. R., Parsons, V. A., Zhao, S. D., Meder, B., Katus, H. A., Rühle, F., Stoll, M., Villard, E., Cambien, F., Lin, H., Smith, N. L., Felix, J. F., Vasan, R. S., van der Harst, P., Newton-Cheh, C., Li, J., ... Cappola, T. P. (2018). Genetic Reduction in Left Ventricular Protein Kinase C-α and Adverse Ventricular Remodeling in Human Subjects. Circulation. Genomic and precision medicine, 11(3), e001901. https://doi.org/10.1161/CIRCGEN.117.001901

Hu, R, Morley, MP, Brandimarto, J, Tucker, NR, Parsons, VA, Zhao, SD, Meder, B, Katus, HA, Rühle, F, Stoll, M, Villard, E, Cambien, F, Lin, H, Smith, NL, Felix, JF, Vasan, RS, van der Harst, P, Newton-Cheh, C, Li, J, Kim, CE, Hakonarson, H, Hannenhalli, S, Ashley, EA, Moravec, CS, Tang, WHW, Maillet, M, Molkentin, JD, Ellinor, PT, Margulies, KB & Cappola, TP 2018, 'Genetic Reduction in Left Ventricular Protein Kinase C-α and Adverse Ventricular Remodeling in Human Subjects', Circulation. Genomic and precision medicine, vol. 11, n.º 3, pp. e001901. https://doi.org/10.1161/CIRCGEN.117.001901

@article{0435d1a935684d418c2e2669801a88b9,

title = "Genetic Reduction in Left Ventricular Protein Kinase C-α and Adverse Ventricular Remodeling in Human Subjects",

abstract = "BACKGROUND: Inhibition of PKC-α (protein kinase C-α) enhances contractility and cardioprotection in animal models, but effects in humans are unknown. Genotypes at rs9912468 strongly associate with PRKCA expression in the left ventricle, enabling genetic approaches to measure effects of reduced PKC-α in human populations. METHODS AND RESULTS: We analyzed the cis expression quantitative trait locus for PRKCA marked by rs9912468 using 313 left ventricular specimens from European Ancestry patients. The forward strand minor allele (G) at rs9912468 is associated with reduced PKC-α transcript abundance (1.7-fold reduction in minor allele homozygotes, P=1×10-41). This association was cardiac specific in expression quantitative trait locus data sets that span 16 human tissues. Cardiac epigenomic data revealed a predicted enhancer in complete (R2=1.0) linkage disequilibrium with rs9912468 within intron 2 of PRKCA. We cloned this region and used reporter constructs to verify cardiac-specific enhancer activity in vitro in cardiac and noncardiac cells and in vivo in zebrafish. The PRKCA enhancer contains 2 common genetic variants and 4 haplotypes; the haplotype correlated with the rs9912468 PKC-α-lowering allele (G) showed lowest activity. In contrast to previous reports in animal models, the PKC-α-lowering allele is associated with adverse left ventricular remodeling (higher mass, larger diastolic dimension), reduced fractional shortening, and higher risk of dilated cardiomyopathy in human populations. CONCLUSIONS: These findings support PKC-α as a regulator of the human heart but suggest that PKC-α inhibition may adversely affect the left ventricle depending on timing and duration. Pharmacological studies in human subjects are required to discern potential benefits and harms of PKC-α inhibitors as an approach to treat heart disease.",

keywords = "gene expression regulation, genetics, heart failure, protein kinase C, ventricular remodeling",

author = "Ray Hu and Morley, {Michael P.} and Jeffrey Brandimarto and Tucker, {Nathan R.} and Parsons, {Victoria A.} and Zhao, {Sihai D.} and Benjamin Meder and Katus, {Hugo A.} and Frank R{\"u}hle and Monika Stoll and Eric Villard and Fran{\c c}ois Cambien and Honghuang Lin and Smith, {Nicholas L.} and Felix, {Janine F.} and Vasan, {Ramachandran S.} and {van der Harst}, Pim and Christopher Newton-Cheh and Jin Li and Kim, {Cecilia E.} and Hakon Hakonarson and Sridhar Hannenhalli and Ashley, {Euan A.} and Moravec, {Christine S.} and Tang, {W. H.Wilson} and Marjorie Maillet and Molkentin, {Jeffery D.} and Ellinor, {Patrick T.} and Margulies, {Kenneth B.} and Cappola, {Thomas P.}",

note = "Publisher Copyright: {\textcopyright} 2018 American Heart Association, Inc.",

year = "2018",

month = mar,

day = "1",

doi = "10.1161/CIRCGEN.117.001901",

language = "English (US)",

volume = "11",

pages = "e001901",

journal = "Circulation. Genomic and precision medicine",

issn = "1942-325X",

publisher = "Lippincott Williams and Wilkins Ltd.",

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TY - JOUR

T1 - Genetic Reduction in Left Ventricular Protein Kinase C-α and Adverse Ventricular Remodeling in Human Subjects

AU - Hu, Ray

AU - Morley, Michael P.

AU - Brandimarto, Jeffrey

AU - Tucker, Nathan R.

AU - Parsons, Victoria A.

AU - Zhao, Sihai D.

AU - Meder, Benjamin

AU - Katus, Hugo A.

AU - Rühle, Frank

AU - Stoll, Monika

AU - Villard, Eric

AU - Cambien, François

AU - Lin, Honghuang

AU - Smith, Nicholas L.

AU - Felix, Janine F.

AU - Vasan, Ramachandran S.

AU - van der Harst, Pim

AU - Newton-Cheh, Christopher

AU - Li, Jin

AU - Kim, Cecilia E.

AU - Hakonarson, Hakon

AU - Hannenhalli, Sridhar

AU - Ashley, Euan A.

AU - Moravec, Christine S.

AU - Tang, W. H.Wilson

AU - Maillet, Marjorie

AU - Molkentin, Jeffery D.

AU - Ellinor, Patrick T.

AU - Margulies, Kenneth B.

AU - Cappola, Thomas P.

PY - 2018/3/1

Y1 - 2018/3/1

N2 - BACKGROUND: Inhibition of PKC-α (protein kinase C-α) enhances contractility and cardioprotection in animal models, but effects in humans are unknown. Genotypes at rs9912468 strongly associate with PRKCA expression in the left ventricle, enabling genetic approaches to measure effects of reduced PKC-α in human populations. METHODS AND RESULTS: We analyzed the cis expression quantitative trait locus for PRKCA marked by rs9912468 using 313 left ventricular specimens from European Ancestry patients. The forward strand minor allele (G) at rs9912468 is associated with reduced PKC-α transcript abundance (1.7-fold reduction in minor allele homozygotes, P=1×10-41). This association was cardiac specific in expression quantitative trait locus data sets that span 16 human tissues. Cardiac epigenomic data revealed a predicted enhancer in complete (R2=1.0) linkage disequilibrium with rs9912468 within intron 2 of PRKCA. We cloned this region and used reporter constructs to verify cardiac-specific enhancer activity in vitro in cardiac and noncardiac cells and in vivo in zebrafish. The PRKCA enhancer contains 2 common genetic variants and 4 haplotypes; the haplotype correlated with the rs9912468 PKC-α-lowering allele (G) showed lowest activity. In contrast to previous reports in animal models, the PKC-α-lowering allele is associated with adverse left ventricular remodeling (higher mass, larger diastolic dimension), reduced fractional shortening, and higher risk of dilated cardiomyopathy in human populations. CONCLUSIONS: These findings support PKC-α as a regulator of the human heart but suggest that PKC-α inhibition may adversely affect the left ventricle depending on timing and duration. Pharmacological studies in human subjects are required to discern potential benefits and harms of PKC-α inhibitors as an approach to treat heart disease.

AB - BACKGROUND: Inhibition of PKC-α (protein kinase C-α) enhances contractility and cardioprotection in animal models, but effects in humans are unknown. Genotypes at rs9912468 strongly associate with PRKCA expression in the left ventricle, enabling genetic approaches to measure effects of reduced PKC-α in human populations. METHODS AND RESULTS: We analyzed the cis expression quantitative trait locus for PRKCA marked by rs9912468 using 313 left ventricular specimens from European Ancestry patients. The forward strand minor allele (G) at rs9912468 is associated with reduced PKC-α transcript abundance (1.7-fold reduction in minor allele homozygotes, P=1×10-41). This association was cardiac specific in expression quantitative trait locus data sets that span 16 human tissues. Cardiac epigenomic data revealed a predicted enhancer in complete (R2=1.0) linkage disequilibrium with rs9912468 within intron 2 of PRKCA. We cloned this region and used reporter constructs to verify cardiac-specific enhancer activity in vitro in cardiac and noncardiac cells and in vivo in zebrafish. The PRKCA enhancer contains 2 common genetic variants and 4 haplotypes; the haplotype correlated with the rs9912468 PKC-α-lowering allele (G) showed lowest activity. In contrast to previous reports in animal models, the PKC-α-lowering allele is associated with adverse left ventricular remodeling (higher mass, larger diastolic dimension), reduced fractional shortening, and higher risk of dilated cardiomyopathy in human populations. CONCLUSIONS: These findings support PKC-α as a regulator of the human heart but suggest that PKC-α inhibition may adversely affect the left ventricle depending on timing and duration. Pharmacological studies in human subjects are required to discern potential benefits and harms of PKC-α inhibitors as an approach to treat heart disease.

KW - gene expression regulation

KW - genetics

KW - heart failure

KW - protein kinase C

KW - ventricular remodeling

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U2 - 10.1161/CIRCGEN.117.001901

DO - 10.1161/CIRCGEN.117.001901

M3 - Article

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SN - 1942-325X

VL - 11

SP - e001901

JO - Circulation. Genomic and precision medicine

JF - Circulation. Genomic and precision medicine

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ER -

Genetic Reduction in Left Ventricular Protein Kinase C-α and Adverse Ventricular Remodeling in Human Subjects

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