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pubmed:abstractText |
There is growing evidence that Ca(v)2.3 (alpha1E, E-type) transcripts may encode the ion-conducting subunit of a subclass of R-type Ca(2+) channels, a heterogeneous group of channels by definition resistant to blockers of L-, N-, and P/Q-type Ca(2+) channels. To understand whether splice variation of Ca(v)2.3 contributes to the divergence of R-type channels, individual variants of Ca(v)2.3 were constructed and expressed in HEK-293 cells. With Ba(2+) as charge carrier, the tested biophysical properties were similar. In Ca(2+), the inactivation time course was slower and the recovery from short-term inactivation was faster; however, this occurred only in variants containing a 19-amino-acid-long insertion, which is typical for neuronal Ca(v)2.3 Ca(2+) channel subunits. This different Ca(2+) sensitivity is not responsible for the major differences between various R-type channels, and future studies might clarify its importance for in vivo synaptic or dendritic integration and the reasons for its loss in endocrine Ca(v)2.3 splice variants.
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