Calcium buffering and excitation-contraction coupling in developing avian myocardium.

This report provides a detailed analysis of developmental changes in cytoplasmic free calcium (Ca(2+)) buffering and excitation-contraction coupling in embryonic chick ventricular myocytes. The peak magnitude of field-stimulated Ca(2+) transients declined by 41% between embryonic day (ED) 5 and 15, with most of the decline occurring between ED5 and 11. This was due primarily to a decrease in Ca(2+) currents.

Cardiac neural crest ablation alters aortic smooth muscle force and voltage-sensitive Ca2+ responses.

Ablation of the premigratory cardiac neural crest (CNC) from the chick embryo results in a malformed outflow tract vasculature termed persistent truncus arteriosus (PTA). In addition, loss of the CNC disrupts myocardial excitation-contraction (EC) coupling, decreases intracellular Ca2+ transients, and depresses force generation. We examined if similar defects occurred in the neural crest-derived smooth muscle of the aortic arch in a test of the hypothesis that loss of elements from the CNC disrupts EC coupling and force production in the smooth muscle of the tunica media of the aortic arch.

FGF-8 in the ventral pharynx alters development of myocardial calcium transients after neural crest ablation.

Cardiac neural crest ablation results in depressed myocardial calcium transients and elevated proliferation in myocardium at a stage when cardiac neural crest cells are not in contact with the myocardium. To test the hypothesis that cardiac neural crest-derived cells, which migrate into the caudal, ventral pharynx at stage 14, block a signal from the ventral pharynx, we cultured stage 12 chick heart tube or myocardial strips in the presence or absence of ventral pharynx. We found that myocardium cultured with ventral pharynx that had not yet contacted neural crest cells had significantly reduced calcium transients and an increased rate of proliferation.

Colocalization of dihydropyridine and ryanodine receptors in developing heart with a neural crest-associated defect.

Background: Neural crest-associated congenital heart defects in humans are among the most lethal and costly to treat. In avian and mouse embryos with persistent truncus arteriosus (PTA), the most severe of the neural crest anomalies, there is poor cardiac function because of impaired excitation-contraction coupling. One possible explanation for poor excitation-contraction coupling is that peripheral junctions, composed of closely associated sarcoplasmic reticulum Ca(2+) release channels (ryanodine receptors) and surface membrane L-type Ca(2+) channels (dihydropyridine receptors), are not well colocalized.

Protein osmotic pressure and the state of water in frog myoplasm.

We measured the osmotic pressure of diffusible myoplasmic proteins in frog (Rana temporaria) skeletal muscle fibers by using single Sephadex beads as osmometers and dialysis membranes as protein filters. The state of the myoplasmic water was probed by determining the osmotic coefficient of parvalbumin, a small, abundant diffusible protein distributed throughout the fluid myoplasm. Tiny sections of membrane (3.