Utilization of the genetically encoded calcium indicator Salsa6F in cardiac applications

Abstract

Calcium signaling is a critical process required for cellular mechanisms such as cardiac contractility. The inability of the cell to properly activate or regulate calcium signaling can lead to contractile dysfunction. In isolated cardiomyocytes, calcium signaling has been primarily studied using calcium fluorescent dyes, however these dyes have limited applicability to whole organs. Here, we crossed the Salsa6f mouse which expresses a genetically encoded ratiometric cytosolic calcium indicator with a cardiomyocyte specific inducible cre to temporally-induce expression and studied cytosolic calcium transients in isolated cardiomyocytes and modified Langendorff heart preparations. Isolated cardiomyocytes expressing Salsa6f or Fluo-4AM loaded were compared. We also crossed the Salsa6f mouse with a floxed Polycystin 2 (PC2) mouse to test the feasibility of using the Salsa6f mouse to measure calcium transients in PC2 heterozygous or homozygous knock out mice. Although there are caveats in the applicability of the Salsa6f mouse, there are clear advantages to using the Salsa6f mouse to measure whole heart calcium signals.

Keywords: calcium handling; calcium transients; cardiomyocyte; genetically encoded calcium indicators.

Figure 1.. Cardiac function of Salsa6f expressing mice is not affected.

A. Electrocardiogram of non-expressing Salsa6f (Control) mice (top) and Salsa6f expressing mice (bottom). B. No significant difference was observed of the left ventricle mass between the control (black) and the Salsa6f (gold) expressing mice. Dots represent individual mice. Bars represent mean±SEM. C-D. Quantification of the ejection fraction and fractional shortening showed no significant difference between control and Salsa expressing mice. Dots represent individual mice. Bars represent mean±SEM. E-G. Left ventricular diameter (LV/ID) (E), left ventricular posterior wall (LV/PW) (F), left ventricular anterior wall (LV/AW) (G) showed no difference between control and Salsa6f expressing mice. Dots represent individual mice. Bars represent mean±SEM. H. Heartbeat between the control and Salsa6f expressing mice are within normal range. Dots represent individual mice. Bars represent mean±SEM.

Figure 2.. Measurement of calcium transients of isolated single cardiomyocytes.

A. Representative images of isolated Salsa6f expressing cardiomyocytes. B. Representative calcium transients of electrically paced cardiomyocytes in the absence (black line) or presence of 10nM isoproterenol (blue line) acquired with wide-field microscopy. C. Cytosolic systolic calcium amplitude was significantly increased in isolated single cardiomyocytes in the presence of 10nM isoproterenol (blue bar). D, E. Representative calcium transients of Salsa expressing (D) or Fluo-4AM loaded (E) cardiomyocytes acquired with confocal line-scan microscopy. F. Calcium amplitude was similar in the electrically paced Salsa6f or Fluo-4AM loaded cardiomyocyte. Dots represent individual cardiomyocytes analyzed. Statistical analysis was performed using student’s t-test using non-parametric follow up analysis.

Figure 3.. Paired measurements of calcium transients in cardiomyocytes.

A, F. Representative calcium transients with a pacing-Caffeine(10mM)-pacing protocol in Salsa6f expressing (A) or Fluo-4AM loaded (F) cardiomyocytes before and after the addition of 100nM of isoproterenol. B, G. The voltage evoked calcium amplitude before and after presence of 100nM isoproterenol in Salsa6f expressing (B) or Fluo-4AM loaded (G) cardiomyocytes. C, H. The tau of decay of the evoked calcium amplitude before and after presence of 100nM isoproterenol in Salsa6f expressing (C) or Fluo-4AM loaded (H) cardiomyocytes. D, I. The caffeine evoked calcium amplitude before and after presence of 100nM isoproterenol in Salsa6f expressing (D) or Fluo-4AM loaded (I) cardiomyocytes. E, J. The calcium amplitude of the first evoked transient after store depletion, representing the L-type current, before and after presence of 100nM isoproterenol in Salsa6f expressing (E) or Fluo-4AM loaded (J) cardiomyocytes Dots represent individual cardiomyocytes analyzed. Statistical analysis was performed using paired analysis and student’s t-test. p-values are listed in the figure.

Figure 4.. Imaging of excised whole hearts expressing Salsa6f.

A. Images of the experimental and imaging setup of the excised hearts expressing Salsa6f. B. Representative images of Salsa6f expressing right atria. C. Representative tracing of baseline calcium transients (top) and after the addition of 10nM of isoproterenol (bottom) of Salsa6f transient hearts. D. Systolic calcium amplitude was significantly increase after the addition of 10nM of isoproterenol. Dots represent individual mice. n=5-6 mice. Bar graphs represent mean±SEM. Statistical analysis was performed using student’s t-test. p-values are listed in the figure.

Figure 5.. Analysis of calcium transient from whole hearts in heterozygous and homozygous cardiac deletion of PC2 mice.

A. Representative calcium transient before and after addition of isoproterenol (10nM) in PC2 heterozygous (top) or knock out (bottom) mice. B. Heart rate of heterozygous mice was not increased after the addition of isoproterenol while it significantly increased in the knockout mice. Bar graphs are mean±SEM. Dots represent individual mice (n=5-6 mice). Statistical analysis was performed using 2-way ANOVA. p-values listed in figure. C. Calcium amplitude comparison between control (black bars), PC2 heterozygous (green bars) and PC2 knock-out (red) in the absence or presence of isoproterenol. Bar graphs are mean±SEM. Dots represent quantification of 5 sections in the right atria from 5-6 mice. Statistical analysis was performed using 2-way ANOVA. p-values listed in figure. D. Peak cytosolic systolic calcium was significantly increased in PC2 heterozygous (green bars) and PC2 knock out (red bars). Statistical analysis was performed using One-way ANOVA. p-values listed in figure. E. Peak cytosolic systolic calcium was significantly increased in the presence of isoproterenol in both PC2 heterozygous (green bars) and PC2 knock out (red bars). Bar graphs are mean±SEM. Dots represent quantification of 5 sections in the right atria from 5-6 mice. Statistical analysis was performed using One-way ANOVA. p-values listed in figure.