Human G109E-inhibitor-1 impairs cardiac function and promotes arrhythmias

Kobra Haghighi; Tracy J. Pritchard; Guan Sheng Liu; Vivek P. Singh; Philip Bidwell; Chi Keung Lam; Elizabeth Vafiadaki; Parthib Das; Jianyong Ma; Swati Kunduri; Despina Sanoudou; Stela Florea; Erica Vanderbilt; Hong Shang Wang; Jack Rubinstein; Roger J. Hajjar; Evangelia G. Kranias

doi:10.1016/j.yjmcc.2015.10.004

Human G109E-inhibitor-1 impairs cardiac function and promotes arrhythmias

Kobra Haghighi, Tracy J. Pritchard, Guan Sheng Liu, Vivek P. Singh, Philip Bidwell, Chi Keung Lam, Elizabeth Vafiadaki, Parthib Das, Jianyong Ma, Swati Kunduri, Despina Sanoudou, Stela Florea, Erica Vanderbilt, Hong Shang Wang, Jack Rubinstein, Roger J. Hajjar, Evangelia G. Kranias

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

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Abstract

A hallmark of human and experimental heart failure is deficient sarcoplasmic reticulum (SR) Ca-uptake reflecting impaired contractile function. This is at least partially attributed to dephosphorylation of phospholamban by increased protein phosphatase 1 (PP1) activity. Indeed inhibition of PP1 by transgenic overexpression or gene-transfer of constitutively active inhibitor-1 improved Ca-cycling, preserved function and decreased fibrosis in small and large animal models of heart failure, suggesting that inhibitor-1 may represent a potential therapeutic target. We recently identified a novel human polymorphism (G109E) in the inhibitor-1 gene with a frequency of 7% in either normal or heart failure patients. Transgenic mice, harboring cardiac-specific expression of G109E inhibitor-1, exhibited decreases in contractility, Ca-kinetics and SR Ca-load. These depressive effects were relieved by isoproterenol stimulation. Furthermore, stress conditions (2 Hz +/- Iso) induced increases in Ca-sparks, Ca-waves (60% of G109E versus 20% in wild types) and after-contractions (76% of G109E versus 23% of wild types) in mutant cardiomyocytes. Similar findings were obtained by acute expression of the G109E variant in adult cardiomyocytes in the absence or presence of endogenous inhibitor-1. The underlying mechanisms included reduced binding of mutant inhibitor-1 to PP1, increased PP1 activity, and dephosphorylation of phospholamban at Ser16 and Thr17. However, phosphorylation of the ryanodine receptor at Ser2808 was not altered while phosphorylation at Ser2814 was increased, consistent with increased activation of Ca/calmodulin-dependent protein kinase II (CaMKII), promoting aberrant SR Ca-release. Parallel in vivo studies revealed that mutant mice developed ventricular ectopy and complex ventricular arrhythmias (including bigeminy, trigeminy and ventricular tachycardia), when challenged with isoproterenol. Inhibition of CaMKII activity by KN-93 prevented the increased propensity to arrhythmias. These findings suggest that the human G109E inhibitor-1 variant impairs SR Ca-cycling and promotes arrhythmogenesis under stress conditions, which may present an additional insult in the compromised function of heart failure carriers.

Original language	English (US)
Pages (from-to)	349-359
Number of pages	11
Journal	Journal of Molecular and Cellular Cardiology
Volume	89
DOIs	https://doi.org/10.1016/j.yjmcc.2015.10.004
State	Published - Dec 1 2015
Externally published	Yes

Bibliographical note

Funding Information:
This work was supported by National Institutes of Health grants HL064018 , HL026057 ( EGK ) and by R01 HL117505 , HL093183 and P50 HL112324 ( RJH ).

Publisher Copyright:
© 2015 Elsevier Ltd.

Keywords

Calcium cycling
Cardiac function
Heart failure
Inhibitor-1
Protein phosphatase 1

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.yjmcc.2015.10.004

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Haghighi, K., Pritchard, T. J., Liu, G. S., Singh, V. P., Bidwell, P., Lam, C. K., Vafiadaki, E., Das, P., Ma, J., Kunduri, S., Sanoudou, D., Florea, S., Vanderbilt, E., Wang, H. S., Rubinstein, J., Hajjar, R. J., & Kranias, E. G. (2015). Human G109E-inhibitor-1 impairs cardiac function and promotes arrhythmias. Journal of Molecular and Cellular Cardiology, 89, 349-359. https://doi.org/10.1016/j.yjmcc.2015.10.004

Haghighi, K, Pritchard, TJ, Liu, GS, Singh, VP, Bidwell, P, Lam, CK, Vafiadaki, E, Das, P, Ma, J, Kunduri, S, Sanoudou, D, Florea, S, Vanderbilt, E, Wang, HS, Rubinstein, J, Hajjar, RJ & Kranias, EG 2015, 'Human G109E-inhibitor-1 impairs cardiac function and promotes arrhythmias', Journal of Molecular and Cellular Cardiology, vol. 89, pp. 349-359. https://doi.org/10.1016/j.yjmcc.2015.10.004

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title = "Human G109E-inhibitor-1 impairs cardiac function and promotes arrhythmias",

abstract = "A hallmark of human and experimental heart failure is deficient sarcoplasmic reticulum (SR) Ca-uptake reflecting impaired contractile function. This is at least partially attributed to dephosphorylation of phospholamban by increased protein phosphatase 1 (PP1) activity. Indeed inhibition of PP1 by transgenic overexpression or gene-transfer of constitutively active inhibitor-1 improved Ca-cycling, preserved function and decreased fibrosis in small and large animal models of heart failure, suggesting that inhibitor-1 may represent a potential therapeutic target. We recently identified a novel human polymorphism (G109E) in the inhibitor-1 gene with a frequency of 7% in either normal or heart failure patients. Transgenic mice, harboring cardiac-specific expression of G109E inhibitor-1, exhibited decreases in contractility, Ca-kinetics and SR Ca-load. These depressive effects were relieved by isoproterenol stimulation. Furthermore, stress conditions (2 Hz +/- Iso) induced increases in Ca-sparks, Ca-waves (60% of G109E versus 20% in wild types) and after-contractions (76% of G109E versus 23% of wild types) in mutant cardiomyocytes. Similar findings were obtained by acute expression of the G109E variant in adult cardiomyocytes in the absence or presence of endogenous inhibitor-1. The underlying mechanisms included reduced binding of mutant inhibitor-1 to PP1, increased PP1 activity, and dephosphorylation of phospholamban at Ser16 and Thr17. However, phosphorylation of the ryanodine receptor at Ser2808 was not altered while phosphorylation at Ser2814 was increased, consistent with increased activation of Ca/calmodulin-dependent protein kinase II (CaMKII), promoting aberrant SR Ca-release. Parallel in vivo studies revealed that mutant mice developed ventricular ectopy and complex ventricular arrhythmias (including bigeminy, trigeminy and ventricular tachycardia), when challenged with isoproterenol. Inhibition of CaMKII activity by KN-93 prevented the increased propensity to arrhythmias. These findings suggest that the human G109E inhibitor-1 variant impairs SR Ca-cycling and promotes arrhythmogenesis under stress conditions, which may present an additional insult in the compromised function of heart failure carriers.",

keywords = "Calcium cycling, Cardiac function, Heart failure, Inhibitor-1, Protein phosphatase 1",

author = "Kobra Haghighi and Pritchard, {Tracy J.} and Liu, {Guan Sheng} and Singh, {Vivek P.} and Philip Bidwell and Lam, {Chi Keung} and Elizabeth Vafiadaki and Parthib Das and Jianyong Ma and Swati Kunduri and Despina Sanoudou and Stela Florea and Erica Vanderbilt and Wang, {Hong Shang} and Jack Rubinstein and Hajjar, {Roger J.} and Kranias, {Evangelia G.}",

note = "Funding Information: This work was supported by National Institutes of Health grants HL064018 , HL026057 ( EGK ) and by R01 HL117505 , HL093183 and P50 HL112324 ( RJH ). Publisher Copyright: {\textcopyright} 2015 Elsevier Ltd.",

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doi = "10.1016/j.yjmcc.2015.10.004",

language = "English (US)",

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T1 - Human G109E-inhibitor-1 impairs cardiac function and promotes arrhythmias

AU - Haghighi, Kobra

AU - Pritchard, Tracy J.

AU - Liu, Guan Sheng

AU - Singh, Vivek P.

AU - Bidwell, Philip

AU - Lam, Chi Keung

AU - Vafiadaki, Elizabeth

AU - Das, Parthib

AU - Ma, Jianyong

AU - Kunduri, Swati

AU - Sanoudou, Despina

AU - Florea, Stela

AU - Vanderbilt, Erica

AU - Wang, Hong Shang

AU - Rubinstein, Jack

AU - Hajjar, Roger J.

AU - Kranias, Evangelia G.

N1 - Funding Information: This work was supported by National Institutes of Health grants HL064018 , HL026057 ( EGK ) and by R01 HL117505 , HL093183 and P50 HL112324 ( RJH ). Publisher Copyright: © 2015 Elsevier Ltd.

PY - 2015/12/1

Y1 - 2015/12/1

N2 - A hallmark of human and experimental heart failure is deficient sarcoplasmic reticulum (SR) Ca-uptake reflecting impaired contractile function. This is at least partially attributed to dephosphorylation of phospholamban by increased protein phosphatase 1 (PP1) activity. Indeed inhibition of PP1 by transgenic overexpression or gene-transfer of constitutively active inhibitor-1 improved Ca-cycling, preserved function and decreased fibrosis in small and large animal models of heart failure, suggesting that inhibitor-1 may represent a potential therapeutic target. We recently identified a novel human polymorphism (G109E) in the inhibitor-1 gene with a frequency of 7% in either normal or heart failure patients. Transgenic mice, harboring cardiac-specific expression of G109E inhibitor-1, exhibited decreases in contractility, Ca-kinetics and SR Ca-load. These depressive effects were relieved by isoproterenol stimulation. Furthermore, stress conditions (2 Hz +/- Iso) induced increases in Ca-sparks, Ca-waves (60% of G109E versus 20% in wild types) and after-contractions (76% of G109E versus 23% of wild types) in mutant cardiomyocytes. Similar findings were obtained by acute expression of the G109E variant in adult cardiomyocytes in the absence or presence of endogenous inhibitor-1. The underlying mechanisms included reduced binding of mutant inhibitor-1 to PP1, increased PP1 activity, and dephosphorylation of phospholamban at Ser16 and Thr17. However, phosphorylation of the ryanodine receptor at Ser2808 was not altered while phosphorylation at Ser2814 was increased, consistent with increased activation of Ca/calmodulin-dependent protein kinase II (CaMKII), promoting aberrant SR Ca-release. Parallel in vivo studies revealed that mutant mice developed ventricular ectopy and complex ventricular arrhythmias (including bigeminy, trigeminy and ventricular tachycardia), when challenged with isoproterenol. Inhibition of CaMKII activity by KN-93 prevented the increased propensity to arrhythmias. These findings suggest that the human G109E inhibitor-1 variant impairs SR Ca-cycling and promotes arrhythmogenesis under stress conditions, which may present an additional insult in the compromised function of heart failure carriers.

AB - A hallmark of human and experimental heart failure is deficient sarcoplasmic reticulum (SR) Ca-uptake reflecting impaired contractile function. This is at least partially attributed to dephosphorylation of phospholamban by increased protein phosphatase 1 (PP1) activity. Indeed inhibition of PP1 by transgenic overexpression or gene-transfer of constitutively active inhibitor-1 improved Ca-cycling, preserved function and decreased fibrosis in small and large animal models of heart failure, suggesting that inhibitor-1 may represent a potential therapeutic target. We recently identified a novel human polymorphism (G109E) in the inhibitor-1 gene with a frequency of 7% in either normal or heart failure patients. Transgenic mice, harboring cardiac-specific expression of G109E inhibitor-1, exhibited decreases in contractility, Ca-kinetics and SR Ca-load. These depressive effects were relieved by isoproterenol stimulation. Furthermore, stress conditions (2 Hz +/- Iso) induced increases in Ca-sparks, Ca-waves (60% of G109E versus 20% in wild types) and after-contractions (76% of G109E versus 23% of wild types) in mutant cardiomyocytes. Similar findings were obtained by acute expression of the G109E variant in adult cardiomyocytes in the absence or presence of endogenous inhibitor-1. The underlying mechanisms included reduced binding of mutant inhibitor-1 to PP1, increased PP1 activity, and dephosphorylation of phospholamban at Ser16 and Thr17. However, phosphorylation of the ryanodine receptor at Ser2808 was not altered while phosphorylation at Ser2814 was increased, consistent with increased activation of Ca/calmodulin-dependent protein kinase II (CaMKII), promoting aberrant SR Ca-release. Parallel in vivo studies revealed that mutant mice developed ventricular ectopy and complex ventricular arrhythmias (including bigeminy, trigeminy and ventricular tachycardia), when challenged with isoproterenol. Inhibition of CaMKII activity by KN-93 prevented the increased propensity to arrhythmias. These findings suggest that the human G109E inhibitor-1 variant impairs SR Ca-cycling and promotes arrhythmogenesis under stress conditions, which may present an additional insult in the compromised function of heart failure carriers.

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KW - Cardiac function

KW - Heart failure

KW - Inhibitor-1

KW - Protein phosphatase 1

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ER -

Human G109E-inhibitor-1 impairs cardiac function and promotes arrhythmias

Abstract

Bibliographical note

Keywords

UN SDGs

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