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. 2000 Jun 15;348(Pt 3):657–665.

Modulation of the smooth-muscle L-type Ca2+ channel alpha1 subunit (alpha1C-b) by the beta2a subunit: a peptide which inhibits binding of beta to the I-II linker of alpha1 induces functional uncoupling.

A Hohaus 1, M Poteser 1, C Romanin 1, N Klugbauer 1, F Hofmann 1, I Morano 1, H Haase 1, K Groschner 1
PMCID: PMC1221110  PMID: 10839999

Abstract

Modulation of the smooth-muscle Ca(2+) channel alpha1C-b subunit by the auxiliary beta2a subunit was studied in the HEK 293 (cell line from human embryonic kidney cells) expression system. In addition, we tested whether the alpha1-beta interaction in functional channels is sensitive to an 18-amino-acid synthetic peptide that corresponds to the sequence of the defined major interaction domain in the cytoplasmic I-II linker of alpha1C (AID-peptide). Ca(2+) channels derived by co-expression of alpha1C-b and beta2a subunits exhibited an about 3-fold higher open probability (P(o)) than alpha1C-b channels. High-P(o) gating of alpha1C-b.beta2a channels was associated with the occurrence of long-lasting channel openings [mean open time (tau)>10 ms] which were rarely observed in alpha1C-b channels. Modulation of fast gating by the beta2a subunit persisted in the cell-free, inside-out recording configuration. Biochemical experiments showed that the AID-peptide binds with appreciable affinity to beta2 subunits of native Ca(2+) channels. Binding of the beta2 protein to immobilized AID-peptide was specifically inhibited (K(i) of 100 nM) by preincubation with free (uncoupled) AID-peptide, but not by a corresponding scrambled peptide. Administration of the AID-peptide (10 microM) to the cytoplasmic side of inside-out patches induced a substantial reduction of P(o) of alpha1C-b.beta2a channels. The scrambled control peptide failed to affect alpha1C-b. beta2a channels, and the AID-peptide (10 microM) did not modify alpha1C-b channel function in the absence of expressed beta2a subunit. Our results demonstrate that the beta2a subunit controls fast gating of alpha1C-b channels, and suggest the alpha1-beta interaction domain in the cytoplasmic I-II linker of alpha1C (AID) as a possible target of modulation of the channel. Moreover, our data are consistent with a model of alpha1-beta interaction that is based on multiple interaction sites, including AID as a determinant of the affinity of the alpha1-beta interaction.

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