Abstract
BackgroundSodium channels predominantly expressed in brain are expressed in myocardial tissue and play an important role in cardiac physiology. Alterations of sodium channels are known to result in neurological disease in infancy and childhood. It will be of interest to study the expression of brain-type sodium channels in the developing myocardium.MethodsThe expression of neuronal sodium channels (SCN1A, SCN8A) and the cardiac isoform SCN5A in the developing rat myocardium was studied by rtPCR, Western blot, and immunohistochemistry at different stages of antenatal and postnatal development.ResultsSignificant changes of sodium channel expression during development were detected. Whereas SCN5A RNA increased to maximum levels on day 21 after birth, the highest SCN1A RNA levels were detected on day 1 to 7 after birth. SCN8A RNA was maximally expressed during embryonic development. At the protein level, the amount of SCN5A protein increased along with the RNA level. SCN1A protein level decreased after birth in contrast to RNA expression. Western blot could not detect SCN8A protein in the myocardium at any stage of development. Immunohistochemistry however proved the presence of SCN8A protein in the developing rat myocardium.ConclusionsHeart- and brain-type sodium channels are differentially expressed during ontogenesis. The high expression level of SCN1A in the perinatal period and early infancy indicates its importance in preserving a regular cardiac rhythm in this early phase of life. Altered regulation of sodium channels might result in severe cardiac rhythm disturbances.
Highlights
Sodium channels predominantly expressed in brain are expressed in myocardial tissue and play an important role in cardiac physiology
The aim of the present study was to elucidate the differential expression of heart-type as well as brain-type voltage-gated sodium channel (VGSC) α-subunits during ontogenesis in the rat myocardium on RNA and protein level in a quantitative approach
RNA expression at stage day 17 of gestation (E17) was set to 100% as a reference value for all genes analyzed at any developmental stage
Summary
Sodium channels predominantly expressed in brain are expressed in myocardial tissue and play an important role in cardiac physiology. It will be of interest to study the expression of brain-type sodium channels in the developing myocardium. Ten different isoforms of the pore-forming VGSC α-subunit have been described in the literature [3,4]. The quantitative expression of each isoform varies between different tissues [3]. Besides cardiac-specific pore-forming VGSC αsubunits, there is evidence that other forms of VGSC αsubunits, which are mainly expressed in skeletal muscle. Krause et al Molecular and Cellular Pediatrics (2015) 2:5 experiments using human cardiac myocytes from pediatric as well as adult patients suggest developmental changes in sodium current properties of cardiac myocytes [14]. Data on the details of the developmental expression of VGSC and its regulation in the myocardium are rare yet
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