AI Article Synopsis
- MK2-null mice show normal survival rates and initial cardiac function, but exhibit early signs of diastolic dysfunction and altered heart rate dynamics.
- MK2 deficiency results in increased expression of key metabolic genes and affects mitochondrial sensitivity in the heart.
- The findings suggest that MK2 plays a crucial role in autonomic heart regulation, mitochondrial function, and early cardiac remodeling during pressure overload.
Article Abstract
Background Mitogen-activated protein kinase-activated protein kinase-2 (MK2) is a protein serine/threonine kinase activated by p38α/β. Herein, we examine the cardiac phenotype of pan MK2-null (MK2) mice. Methods and Results Survival curves for male MK2 and MK2 mice did not differ (Mantel-Cox test, =0.580). At 12 weeks of age, MK2 mice exhibited normal systolic function along with signs of possible early diastolic dysfunction; however, aging was not associated with an abnormal reduction in diastolic function. Both R-R interval and P-R segment durations were prolonged in MK2-deficient mice. However, heart rates normalized when isolated hearts were perfused ex vivo in working mode. Ca transients evoked by field stimulation or caffeine were similar in ventricular myocytes from MK2 and MK2 mice. MK2 mice had lower body temperature and an age-dependent reduction in body weight. mRNA levels of key metabolic genes, including , , , and were increased in hearts from MK2 mice. For equivalent respiration rates, mitochondria from MK2 hearts showed a significant decrease in Ca sensitivity to mitochondrial permeability transition pore opening. Eight weeks of pressure overload increased left ventricular mass in MK2 and MK2 mice; however, after 2 weeks the increase was significant in MK2 but not MK2 mice. Finally, the pressure overload-induced decrease in systolic function was attenuated in MK2 mice 2 weeks, but not 8 weeks, after constriction of the transverse aorta. Conclusions Collectively, these results implicate MK2 in (1) autonomic regulation of heart rate, (2) cardiac mitochondrial function, and (3) the early stages of myocardial remodeling in response to chronic pressure overload.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7955338 | PMC |
| http://dx.doi.org/10.1161/JAHA.120.017791 | DOI Listing |
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