Guanylyl cyclase-A phosphorylation decreases cardiac hypertrophy and improves systolic function in male, but not female, mice

Brandon M. Wagner; Jerid W. Robinson; Chastity L. Healy; Madeline Gauthier; Deborah M. Dickey; Siu Pok Yee; John W. Osborn; Timothy D. O'Connell; Lincoln R. Potter

doi:10.1096/fj.202100600rrr

Guanylyl cyclase-A phosphorylation decreases cardiac hypertrophy and improves systolic function in male, but not female, mice

Brandon M. Wagner, Jerid W. Robinson, Chastity L. Healy, Madeline Gauthier, Deborah M. Dickey, Siu Pok Yee, John W. Osborn, Timothy D. O'Connell, Lincoln R. Potter

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

5 Scopus citations

Abstract

Atrial natriuretic peptide (NP) and BNP increase cGMP, which reduces blood pressure and cardiac hypertrophy by activating guanylyl cyclase (GC)-A, also known as NPR-A or Npr1. Although GC-A is highly phosphorylated, and dephosphorylation inactivates the enzyme, the significance of GC-A phosphorylation to heart structure and function remains unknown. To identify in vivo processes that are regulated by GC-A phosphorylation, we substituted glutamates for known phosphorylation sites to make GC-A^8E/8E mice that express an enzyme that cannot be inactivated by dephosphorylation. GC-A activity, but not protein, was increased in heart and kidney membranes from GC-A^8E/8E mice. Activities were threefold higher in female compared to male cardiac ventricles. Plasma cGMP and testosterone were elevated in male and female GC-A^8E/8E mice, but aldosterone was only increased in mutant male mice. Plasma and urinary creatinine concentrations were decreased and increased, respectively, but blood pressure and heart rate were unchanged in male GC-A^8E/8E mice. Heart weight to body weight ratios for GC-A^8E/8E male, but not female, mice were 12% lower with a 14% reduction in cardiomyocyte cross-sectional area. Subcutaneous injection of fsANP, a long-lived ANP analog, increased plasma cGMP and decreased aldosterone in male GC-A^WT/WT and GC-A^8E/8E mice at 15 min, but only GC-A^8E/8E mice had elevated levels of plasma cGMP and aldosterone at 60 min. fsANP reduced ventricular ERK1/2 phosphorylation to a greater extent and for a longer time in the male mutant compared to WT mice. Finally, ejection fractions were increased in male but not female hearts from GC-A^8E/8E mice. We conclude that increased phosphorylation-dependent GC-A activity decreases cardiac ERK activity, which results in smaller male hearts with improved systolic function.

Original language	English (US)
Article number	e22069
Journal	FASEB Journal
Volume	36
Issue number	1
DOIs	https://doi.org/10.1096/fj.202100600rrr
State	Published - Jan 2022

Bibliographical note

Funding Information:
This work was supported by the National Institutes of Health Grant R01GM098309, a University of Minnesota Foundation Bridge Grant, a University of Minnesota‐Mayo Clinic Partnership Grant, a University of Minnesota Academic Health Center Faculty Research and Development Grant, and Grants from the Fund for Science and the Hormone Receptor Fund to LRP. NIHT32DK007203 Grant supported JWR. NIH R01HL130099 and NIH R01HL152215 to TDO also funded portions of this work

Funding Information:
This work was supported by the National Institutes of Health Grant R01GM098309, a University of Minnesota Foundation Bridge Grant, a University of Minnesota-Mayo Clinic Partnership Grant, a University of Minnesota Academic Health Center Faculty Research and Development Grant, and Grants from the Fund for Science and the Hormone Receptor Fund to LRP. NIHT32DK007203 Grant supported JWR. NIH R01HL130099 and NIH R01HL152215 to TDO also funded portions of this work The authors thank Dr. Laurinda Jaffe for sharing the GC-A-8E mice as well as for providing helpful comments on multiple versions of this manuscript. We thank Drs. Michael Kalwat and Melanie Cobb for helpful advice regarding ERK1/2 Western blots. We acknowledge the Phenotyping Core at the University of Minnesota for surgical and technical expertise on data acquisition using telemetry devices. We thank Dr. Pilar Ariza-Guzman for the implantation and monitoring of the telemetry devices. The authors also acknowledge the University of Minnesota Imaging Centers for advice and support for echocardiography studies.

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© 2021 Federation of American Societies for Experimental Biology

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Research Support, N.I.H., Extramural
Research Support, Non-U.S. Gov't

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@article{fcfdb74461734c3f88a0dcbe3120c6d1,

title = "Guanylyl cyclase-A phosphorylation decreases cardiac hypertrophy and improves systolic function in male, but not female, mice",

abstract = "Atrial natriuretic peptide (NP) and BNP increase cGMP, which reduces blood pressure and cardiac hypertrophy by activating guanylyl cyclase (GC)-A, also known as NPR-A or Npr1. Although GC-A is highly phosphorylated, and dephosphorylation inactivates the enzyme, the significance of GC-A phosphorylation to heart structure and function remains unknown. To identify in vivo processes that are regulated by GC-A phosphorylation, we substituted glutamates for known phosphorylation sites to make GC-A8E/8E mice that express an enzyme that cannot be inactivated by dephosphorylation. GC-A activity, but not protein, was increased in heart and kidney membranes from GC-A8E/8E mice. Activities were threefold higher in female compared to male cardiac ventricles. Plasma cGMP and testosterone were elevated in male and female GC-A8E/8E mice, but aldosterone was only increased in mutant male mice. Plasma and urinary creatinine concentrations were decreased and increased, respectively, but blood pressure and heart rate were unchanged in male GC-A8E/8E mice. Heart weight to body weight ratios for GC-A8E/8E male, but not female, mice were 12% lower with a 14% reduction in cardiomyocyte cross-sectional area. Subcutaneous injection of fsANP, a long-lived ANP analog, increased plasma cGMP and decreased aldosterone in male GC-AWT/WT and GC-A8E/8E mice at 15 min, but only GC-A8E/8E mice had elevated levels of plasma cGMP and aldosterone at 60 min. fsANP reduced ventricular ERK1/2 phosphorylation to a greater extent and for a longer time in the male mutant compared to WT mice. Finally, ejection fractions were increased in male but not female hearts from GC-A8E/8E mice. We conclude that increased phosphorylation-dependent GC-A activity decreases cardiac ERK activity, which results in smaller male hearts with improved systolic function.",

author = "Wagner, {Brandon M.} and Robinson, {Jerid W.} and Healy, {Chastity L.} and Madeline Gauthier and Dickey, {Deborah M.} and Yee, {Siu Pok} and Osborn, {John W.} and O'Connell, {Timothy D.} and Potter, {Lincoln R.}",

note = "Funding Information: This work was supported by the National Institutes of Health Grant R01GM098309, a University of Minnesota Foundation Bridge Grant, a University of Minnesota‐Mayo Clinic Partnership Grant, a University of Minnesota Academic Health Center Faculty Research and Development Grant, and Grants from the Fund for Science and the Hormone Receptor Fund to LRP. NIHT32DK007203 Grant supported JWR. NIH R01HL130099 and NIH R01HL152215 to TDO also funded portions of this work Funding Information: This work was supported by the National Institutes of Health Grant R01GM098309, a University of Minnesota Foundation Bridge Grant, a University of Minnesota-Mayo Clinic Partnership Grant, a University of Minnesota Academic Health Center Faculty Research and Development Grant, and Grants from the Fund for Science and the Hormone Receptor Fund to LRP. NIHT32DK007203 Grant supported JWR. NIH R01HL130099 and NIH R01HL152215 to TDO also funded portions of this work The authors thank Dr. Laurinda Jaffe for sharing the GC-A-8E mice as well as for providing helpful comments on multiple versions of this manuscript. We thank Drs. Michael Kalwat and Melanie Cobb for helpful advice regarding ERK1/2 Western blots. We acknowledge the Phenotyping Core at the University of Minnesota for surgical and technical expertise on data acquisition using telemetry devices. We thank Dr. Pilar Ariza-Guzman for the implantation and monitoring of the telemetry devices. The authors also acknowledge the University of Minnesota Imaging Centers for advice and support for echocardiography studies. Publisher Copyright: {\textcopyright} 2021 Federation of American Societies for Experimental Biology",

year = "2022",

month = jan,

doi = "10.1096/fj.202100600rrr",

language = "English (US)",

volume = "36",

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T1 - Guanylyl cyclase-A phosphorylation decreases cardiac hypertrophy and improves systolic function in male, but not female, mice

AU - Wagner, Brandon M.

AU - Robinson, Jerid W.

AU - Healy, Chastity L.

AU - Gauthier, Madeline

AU - Dickey, Deborah M.

AU - Yee, Siu Pok

AU - Osborn, John W.

AU - O'Connell, Timothy D.

AU - Potter, Lincoln R.

N1 - Funding Information: This work was supported by the National Institutes of Health Grant R01GM098309, a University of Minnesota Foundation Bridge Grant, a University of Minnesota‐Mayo Clinic Partnership Grant, a University of Minnesota Academic Health Center Faculty Research and Development Grant, and Grants from the Fund for Science and the Hormone Receptor Fund to LRP. NIHT32DK007203 Grant supported JWR. NIH R01HL130099 and NIH R01HL152215 to TDO also funded portions of this work Funding Information: This work was supported by the National Institutes of Health Grant R01GM098309, a University of Minnesota Foundation Bridge Grant, a University of Minnesota-Mayo Clinic Partnership Grant, a University of Minnesota Academic Health Center Faculty Research and Development Grant, and Grants from the Fund for Science and the Hormone Receptor Fund to LRP. NIHT32DK007203 Grant supported JWR. NIH R01HL130099 and NIH R01HL152215 to TDO also funded portions of this work The authors thank Dr. Laurinda Jaffe for sharing the GC-A-8E mice as well as for providing helpful comments on multiple versions of this manuscript. We thank Drs. Michael Kalwat and Melanie Cobb for helpful advice regarding ERK1/2 Western blots. We acknowledge the Phenotyping Core at the University of Minnesota for surgical and technical expertise on data acquisition using telemetry devices. We thank Dr. Pilar Ariza-Guzman for the implantation and monitoring of the telemetry devices. The authors also acknowledge the University of Minnesota Imaging Centers for advice and support for echocardiography studies. Publisher Copyright: © 2021 Federation of American Societies for Experimental Biology

PY - 2022/1

Y1 - 2022/1

N2 - Atrial natriuretic peptide (NP) and BNP increase cGMP, which reduces blood pressure and cardiac hypertrophy by activating guanylyl cyclase (GC)-A, also known as NPR-A or Npr1. Although GC-A is highly phosphorylated, and dephosphorylation inactivates the enzyme, the significance of GC-A phosphorylation to heart structure and function remains unknown. To identify in vivo processes that are regulated by GC-A phosphorylation, we substituted glutamates for known phosphorylation sites to make GC-A8E/8E mice that express an enzyme that cannot be inactivated by dephosphorylation. GC-A activity, but not protein, was increased in heart and kidney membranes from GC-A8E/8E mice. Activities were threefold higher in female compared to male cardiac ventricles. Plasma cGMP and testosterone were elevated in male and female GC-A8E/8E mice, but aldosterone was only increased in mutant male mice. Plasma and urinary creatinine concentrations were decreased and increased, respectively, but blood pressure and heart rate were unchanged in male GC-A8E/8E mice. Heart weight to body weight ratios for GC-A8E/8E male, but not female, mice were 12% lower with a 14% reduction in cardiomyocyte cross-sectional area. Subcutaneous injection of fsANP, a long-lived ANP analog, increased plasma cGMP and decreased aldosterone in male GC-AWT/WT and GC-A8E/8E mice at 15 min, but only GC-A8E/8E mice had elevated levels of plasma cGMP and aldosterone at 60 min. fsANP reduced ventricular ERK1/2 phosphorylation to a greater extent and for a longer time in the male mutant compared to WT mice. Finally, ejection fractions were increased in male but not female hearts from GC-A8E/8E mice. We conclude that increased phosphorylation-dependent GC-A activity decreases cardiac ERK activity, which results in smaller male hearts with improved systolic function.

AB - Atrial natriuretic peptide (NP) and BNP increase cGMP, which reduces blood pressure and cardiac hypertrophy by activating guanylyl cyclase (GC)-A, also known as NPR-A or Npr1. Although GC-A is highly phosphorylated, and dephosphorylation inactivates the enzyme, the significance of GC-A phosphorylation to heart structure and function remains unknown. To identify in vivo processes that are regulated by GC-A phosphorylation, we substituted glutamates for known phosphorylation sites to make GC-A8E/8E mice that express an enzyme that cannot be inactivated by dephosphorylation. GC-A activity, but not protein, was increased in heart and kidney membranes from GC-A8E/8E mice. Activities were threefold higher in female compared to male cardiac ventricles. Plasma cGMP and testosterone were elevated in male and female GC-A8E/8E mice, but aldosterone was only increased in mutant male mice. Plasma and urinary creatinine concentrations were decreased and increased, respectively, but blood pressure and heart rate were unchanged in male GC-A8E/8E mice. Heart weight to body weight ratios for GC-A8E/8E male, but not female, mice were 12% lower with a 14% reduction in cardiomyocyte cross-sectional area. Subcutaneous injection of fsANP, a long-lived ANP analog, increased plasma cGMP and decreased aldosterone in male GC-AWT/WT and GC-A8E/8E mice at 15 min, but only GC-A8E/8E mice had elevated levels of plasma cGMP and aldosterone at 60 min. fsANP reduced ventricular ERK1/2 phosphorylation to a greater extent and for a longer time in the male mutant compared to WT mice. Finally, ejection fractions were increased in male but not female hearts from GC-A8E/8E mice. We conclude that increased phosphorylation-dependent GC-A activity decreases cardiac ERK activity, which results in smaller male hearts with improved systolic function.

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Guanylyl cyclase-A phosphorylation decreases cardiac hypertrophy and improves systolic function in male, but not female, mice

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Guanylyl cyclase-A phosphorylation decreases cardiac hypertrophy and improves systolic function in male, but not female, mice

Abstract

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Small Animal Imaging

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