Regulation of insulin secretion involves the coordinated control of ion channels in the beta-cell membrane. We have isolated and characterized cDNA and genomic clones encoding a voltage-dependent K+ channel isoform expressed in human islets and in a human insulinoma. This K+ channel isoform, designated hPCN1, with a deduced amino acid sequence of 613 residues (Mr = 67,097), is related to the Shaker family of Drosophila K+ channels. hPCN1 is homologous to two other human K+ channel isoforms we have isolated, hPCN2 and hPCN3, with 55% and 65% amino acid sequence identity, respectively. The electrophysiological characteristics of hPCN1 were determined after microinjection of synthetic RNA into Xenopus oocytes. Two-microelectrode voltage-clamp recordings of oocytes injected with hPCN1 RNA revealed a voltage-dependent outward K+ current that inactivated slowly with time. Outward currents were inhibited by 4-aminopyridine with a Ki less than 0.10 mM and were relatively insensitive to tetraethylammonium ion or Ba2+. A delayed rectifier K+ channel such as hPCN1 could restore the resting membrane potential of beta cells after depolarization and thereby contribute to the regulation of insulin secretion.
[1]
B. Rudy,et al.
Leucine-zipper motif update
,
1989,
Nature.
[2]
H. Sambrook.
Molecular cloning : a laboratory manual. Cold Spring Harbor, NY
,
1989
.
[3]
Y. Jan,et al.
Multiple potassium–channel components are produced by alternative splicing at the Shaker locus in Drosophila
,
1988,
Nature.
[4]
H. Malke.
T. Maniatis, E. F. Fritsch and J. Sambrook, Molecular Cloning: A Laboratory Manual, X + 545 S., 61 Abb., 28 Tab. Cold Spring Harbor, N. Y. 1982. Cold Spring Harbor Laboratory
,
1984
.