Maintaining serum response factor activity in the older heart equal to that of the young adult is associated with better cardiac response to isoproterenol stress

To understand the effect of transcription regulation in modulating cardiac aging, we sought to study the role of serum response factor (SRF), a key transcription factor in the heart that is normally increased with senescence and also in congestive heart failure. A Tet-Off gene expression system was used for cardiac-specific over-expression of a mutant SRF protein. In these binary transgenic mice, there is no age-related increase in SRF protein expression; in fact, there appeared to be a mild reduction of SRF protein (Mild-R SRF Tg). The older, middle-aged (15 mo) Mild-R SRF Tg mice appeared healthier and were better able to maintain their left ventricular systolic pressure (LVSP) in response to moderate beta-adrenergic stimulation compared with age-matched Non-Tg mice, which demonstrated a negative ionotropic response. The Mild-R SRF Tg hearts had lower mRNA expression of BNP (p < 0.05), and the sodium calcium exchanger (p < 0.05), compared to Non-Tg. Mild-R SRF Tg had higher mRNA levels of SERCA2 (p < 0.05) and ryanodine receptor 2 (p < 0.05) compared to Non-Tg hearts. These findings suggest that preventing the age-associated increase in SRF is associated with better preserved intracellular calcium handling and functional response to stress; it might be advantageous for the older adult heart. This mouse model could be helpful in elucidating the molecular mechanisms underlying certain age-related changes in cardiac reserve capacity and response to stress.