Fig. S3

Fig. S3

MP signaling is activated in endocardial and epicardial cells after injury and transgenic overexpression of bmp2b is sufficient to induce accumulation of nuclear pSmad1/5/8 and expression of the BMP target gene id1. Related to Figure 4.

(A) BMP signaling, as revealed by expression of nuclear pSmad1/5/8, is activated in endocardial cells (marked by fli1a:eGFP expression, arrow) and epicardial cells (marked by ET(krt4:eGFP) expression, arrow) at 3 dpi. Scale bar, 25 µm.

(B) At 21 dpi, hsp70l:nog3; myl7:GFP double transgenic fish heat-shocked using the same regime as shown in Figure 5B display a smaller area of ventricular myocardial tissue (positive for myl7:GFP) than heat-shocked myl7:GFP-only siblings. In contrast, hsp70l:bmp2b; myl7:GFP double transgenics contain more myocardial tissue than myl7:GFP-only controls. Size of the myocardial tissue relative to the whole ventricle normalized to myl7:GFP-only siblings is plotted. Error bars represent SEM. Student’s t test, p = 0.0081 (nog3), p = 0.018 (bmp2b).

(C) Overexpression of bmp2b for 6 days via daily heat-shock is sufficient to induce expression of nuclear pSmad1/5/8 in uninjured hsp70l:bmp2b transgenic hearts but not in heat-shocked wild-type hearts. Scale bar, 50 µm.

(D) RT-PCR reveals that overexpression of bmp2b for 2 days via daily heat-shock is sufficient to enhance the expression of bmp2b and id1, a conserved BMP target gene, in hsp70l:bmp2b transgenic hearts compared to heat-shocked wild-type siblings at 3 dpi. β-actin serves as loading control.

(E) hsp70l:bmp2b transgenic hearts and respective wild-type siblings heat-shocked daily for 6 days do not show different wound sizes at 7 dpi. Error bars represent SEM. Student’s t test, p = 0.9.