Abstract

Proper calcium handling in cardiomyocytes is paramount to maintaining cardiomyocyte contractility and heart function. Data from our lab and others have established that store operated calcium entry (SOCE) is an essential component of cardiomyocyte calcium regulation. SOCE refers to calcium influx that is activated by depletion of endo/sarcoplasmic reticulum (E/SR) calcium stores. The pathway is mediated by STIM proteins, which act as calcium sensors in the E/SR, and ORAI calcium selective influx channels in the plasma membrane. Both upregulation and suppression of SOCE in cardiomyocytes result in cardiomyopathy, demonstrating that proper regulation of cardiomyocyte SOCE is essential. However, the mechanisms responsible for SOCE regulation in cardiomyocytes are not well understood. To this end, septin GTPases have emerged as regulators of SOCE in non-cardiac tissues, with septin 1, 2, or 4 depletion resulting in SOCE suppression and septin 7 depletion resulting in SOCE upregulation. The role of septins in cardiomyocytes is nearly completely unknown. Through intravital imaging analysis of Drosophila heart contractility, we show that cardiomyocyte specific RNAi-based depletion of septins 1, 2, or 4 results in dilated cardiomyopathy nearly identical to that caused by SOCE suppression. Overexpression of SERCA, which pumps Ca2+ into SR stores, reversed the septin 2 phenotype, suggesting a mechanism whereby septin depletion reduces SR Ca2+ store refilling due to suppressed SOCE. In further support of SR Ca2+ store depletion, we found through jRGECO-based Ca2+ imaging of contracting hearts that contractile Ca2+ transients were significantly reduced in septin 2-depleted cardiomyocytes compared to controls. Interestingly, septin 7 suppression resulted in hypertrophic cardiomyopathy like that caused by SOCE upregulation, and micro-computerized tomography (microCT) analysis of heart size further confirmed the hypertrophic phenotype of septin 7 depleted hearts. This septin 7 phenotype was reversed by Orai depletion, supporting a role for SOCE dysregulation in the septin 7 phenotype. These results demonstrate for the first time an essential role for septins in cardiomyocyte physiology involving regulation of Ca2+ homeostasis and cycling. National institutes of Health. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

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