Ischemic dysfunction in transgenic mice expressing troponin I lacking protein kinase C phosphorylation sites

Guy A. Macgowan; Congwu Du; Douglas B. Cowan; Christof Stamm; Francis X. Mcgowan; R. John Solaro; Alan P. Koretsky; Pedro J. Del Nido

doi:10.1152/ajpheart.2001.280.2.h835

Ischemic dysfunction in transgenic mice expressing troponin I lacking protein kinase C phosphorylation sites

Guy A. Macgowan
, Congwu Du
, Douglas B. Cowan
, Christof Stamm
, Francis X. Mcgowan
, R. John Solaro
, Alan P. Koretsky
, Pedro J. Del Nido

Dept of Biomedical Engineering

Carnegie Mellon University
University of Pittsburgh
Harvard University
University of Illinois at Chicago
National Institutes of Health

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

50 Scopus citations

Abstract

To determine the in vivo functional significance of troponin I (TnI) protein kinase C (PKC) phosphorylation sites, we created a transgenic mouse expressing mutant TnI, in which PKC phosphorylation sites at serines-43 and -45 were replaced by alanine. When we used high-perfusate calcium as a PKC activator, developed pressures in transgenic (TG) perfused hearts were similar to wild-type (WT) hearts (P = not significant, NS), though there was a 35% and 32% decrease in peak-systolic intracellular calcium (P < 0.01) and diastolic calcium (P < 0.005), respectively. The calcium transient duration was prolonged in the TG mice also (12-27%, ANOVA, P < 0.01). During global ischemia, TG hearts developed ischemic contracture to a greater extent than WT hearts (41 ± 18 vs. 69 ± 10 mmHg, perfusate calcium 3.5 mM, P < 0.01). In conclusion, expression of mutant TnI lacking PKC phosphorylation sites results in a marked alteration in the calcium-pressure relationship, and thus susceptibility to ischemic contracture. The reduced intracellular calcium and prolonged calcium transients suggests that a potent feedback mechanism exists between the myofilament and the processes controlling calcium homeostasis.

Original language	English
Pages (from-to)	H835-H843
Journal	American Journal of Physiology - Heart and Circulatory Physiology
Volume	280
Issue number	2 49-2
DOIs	https://doi.org/10.1152/ajpheart.2001.280.2.h835
State	Published - Feb 2001

Keywords

Calcium
Ischemia

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10.1152/ajpheart.2001.280.2.h835

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Macgowan, G. A., Du, C., Cowan, D. B., Stamm, C., Mcgowan, F. X., Solaro, R. J., Koretsky, A. P., & Del Nido, P. J. (2001). Ischemic dysfunction in transgenic mice expressing troponin I lacking protein kinase C phosphorylation sites. American Journal of Physiology - Heart and Circulatory Physiology, 280(2 49-2), H835-H843. https://doi.org/10.1152/ajpheart.2001.280.2.h835

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title = "Ischemic dysfunction in transgenic mice expressing troponin I lacking protein kinase C phosphorylation sites",

abstract = "To determine the in vivo functional significance of troponin I (TnI) protein kinase C (PKC) phosphorylation sites, we created a transgenic mouse expressing mutant TnI, in which PKC phosphorylation sites at serines-43 and -45 were replaced by alanine. When we used high-perfusate calcium as a PKC activator, developed pressures in transgenic (TG) perfused hearts were similar to wild-type (WT) hearts (P = not significant, NS), though there was a 35\% and 32\% decrease in peak-systolic intracellular calcium (P < 0.01) and diastolic calcium (P < 0.005), respectively. The calcium transient duration was prolonged in the TG mice also (12-27\%, ANOVA, P < 0.01). During global ischemia, TG hearts developed ischemic contracture to a greater extent than WT hearts (41 ± 18 vs. 69 ± 10 mmHg, perfusate calcium 3.5 mM, P < 0.01). In conclusion, expression of mutant TnI lacking PKC phosphorylation sites results in a marked alteration in the calcium-pressure relationship, and thus susceptibility to ischemic contracture. The reduced intracellular calcium and prolonged calcium transients suggests that a potent feedback mechanism exists between the myofilament and the processes controlling calcium homeostasis.",

keywords = "Calcium, Ischemia",

author = "Macgowan, \{Guy A.\} and Congwu Du and Cowan, \{Douglas B.\} and Christof Stamm and Mcgowan, \{Francis X.\} and Solaro, \{R. John\} and Koretsky, \{Alan P.\} and \{Del Nido\}, \{Pedro J.\}",

year = "2001",

month = feb,

doi = "10.1152/ajpheart.2001.280.2.h835",

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AU - Macgowan, Guy A.

AU - Du, Congwu

AU - Cowan, Douglas B.

AU - Stamm, Christof

AU - Mcgowan, Francis X.

AU - Solaro, R. John

AU - Koretsky, Alan P.

AU - Del Nido, Pedro J.

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N2 - To determine the in vivo functional significance of troponin I (TnI) protein kinase C (PKC) phosphorylation sites, we created a transgenic mouse expressing mutant TnI, in which PKC phosphorylation sites at serines-43 and -45 were replaced by alanine. When we used high-perfusate calcium as a PKC activator, developed pressures in transgenic (TG) perfused hearts were similar to wild-type (WT) hearts (P = not significant, NS), though there was a 35% and 32% decrease in peak-systolic intracellular calcium (P < 0.01) and diastolic calcium (P < 0.005), respectively. The calcium transient duration was prolonged in the TG mice also (12-27%, ANOVA, P < 0.01). During global ischemia, TG hearts developed ischemic contracture to a greater extent than WT hearts (41 ± 18 vs. 69 ± 10 mmHg, perfusate calcium 3.5 mM, P < 0.01). In conclusion, expression of mutant TnI lacking PKC phosphorylation sites results in a marked alteration in the calcium-pressure relationship, and thus susceptibility to ischemic contracture. The reduced intracellular calcium and prolonged calcium transients suggests that a potent feedback mechanism exists between the myofilament and the processes controlling calcium homeostasis.

AB - To determine the in vivo functional significance of troponin I (TnI) protein kinase C (PKC) phosphorylation sites, we created a transgenic mouse expressing mutant TnI, in which PKC phosphorylation sites at serines-43 and -45 were replaced by alanine. When we used high-perfusate calcium as a PKC activator, developed pressures in transgenic (TG) perfused hearts were similar to wild-type (WT) hearts (P = not significant, NS), though there was a 35% and 32% decrease in peak-systolic intracellular calcium (P < 0.01) and diastolic calcium (P < 0.005), respectively. The calcium transient duration was prolonged in the TG mice also (12-27%, ANOVA, P < 0.01). During global ischemia, TG hearts developed ischemic contracture to a greater extent than WT hearts (41 ± 18 vs. 69 ± 10 mmHg, perfusate calcium 3.5 mM, P < 0.01). In conclusion, expression of mutant TnI lacking PKC phosphorylation sites results in a marked alteration in the calcium-pressure relationship, and thus susceptibility to ischemic contracture. The reduced intracellular calcium and prolonged calcium transients suggests that a potent feedback mechanism exists between the myofilament and the processes controlling calcium homeostasis.

KW - Calcium

KW - Ischemia

UR - https://www.scopus.com/pages/publications/0035016561

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JO - American Journal of Physiology - Heart and Circulatory Physiology

JF - American Journal of Physiology - Heart and Circulatory Physiology

IS - 2 49-2

ER -

Ischemic dysfunction in transgenic mice expressing troponin I lacking protein kinase C phosphorylation sites

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