Abstract
The null mutation of cardiac Na(+)-Ca(2+) exchanger (NCX1) gene in mice caused death of embryo in utero at embryonic day (ED) 9.0-9.5 and this embryonic lethality appears resulted from abnormal heart development. In the present study, we investigated whether transgenic re-expression of NCX1 in mutant cardiac myocytes could rescue these lethal defects. Transgenic mice expressing the canine NCX1 in a cardiac specific manner were bred into the NCX1 knock-out background but did not prevent the fetal lethality associated with the NCX1 null allele. However, the NCX1 knock-out embryos with an NCX1 transgene survived with heart beatings until ED 10.5 which was one day longer than the survival of the NCX1 knock-out embryos (ED 9.5). At ED 10.5, however, the partially rescued NCX1 embryos might have succumbed to the lack of an organized vasculature in the yolk sacs. The placental labyrinth layer was reduced in size and largely avascular. The transgenic re-expression of NCX1 rescued heart beatings and survived longer, but was still insufficient for the mice to be completely rescued. Importantly, NCX1 was observed to express in the yolk sac and the placenta of wild type mice. The results suggest that defects in extra-embryonic compartments are causal to the lethality, and that NCX1 may play an important role in establishing vascularization in extra-embryonic tissues.
Highlights
Na+-Ca2+ exchanger 1 (NCX1) is known to play an essential role in Ca2+ homeostasis in cardiac muscle cells (Lee, 1985; reviewed in Blaustein and Lederer, 1999)
The protocol assumed that using the NCX1 gene from a different species would resume the function in mice as the homologs are highly conserved across species and known to be quite similar in physiological function (Maxwell et al, 1999)
This finding is suggestive of importance of NCX1 in cardiac function, several issues remain to be clarified
Summary
Na+-Ca2+ exchanger 1 (NCX1) is known to play an essential role in Ca2+ homeostasis in cardiac muscle cells (Lee, 1985; reviewed in Blaustein and Lederer, 1999). The functions of NCX1 in these cell types may be important in the regulation of intracellular Ca2+. These facts suggest that the Na+-Ca2+ exchanger may have a universal function of acting as a major pathway for the extrusion of Ca2+ from the cell interior and protecting cells from Ca2+ overload (reviewed in Blaustein and Lederer, 1999)
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