Abstract
L-type (alpha(1C)) calcium channels inactivate rapidly in response
to localized elevation of intracellular Ca$^2+$, providing negative
Ca$^2+$ feedback in a diverse array of biological contexts. The
dominant Ca$^2+$ sensor for such Ca$^2+$-dependent inactivation
has recently been identified as calmodulin, which appears to be constitutively
tethered to the channel complex. This Ca$^2+$ sensor induces
channel inactivation by Ca$^2+$-dependent CaM binding to an IQ-like
motif situated on the carboxyl tail of alpha(1C). Apart from the
IQ region, another crucial site for Ca$^2+$ inactivation appears
to be a consensus Ca$^2+$-binding, EF-hand motif, located approximately
100 amino acids upstream on the carboxyl terminus. However, the importance
of this EF-hand motif for channel inactivation has become controversial
since the original report from our lab implicating a critical role
for this domain. Here, we demonstrate not only that the consensus
EF hand is essential for Ca$^2+$ inactivation, but that a four-amino
acid cluster (VVTL) within the F helix of the EF-hand motif is
itself essential for Ca$^2+$ inactivation. Mutating these amino
acids to their counterparts in non-inactivating alpha(1E) calcium
channels (MYEM) almost completely ablates Ca$^2+$ inactivation.
In fact, only a single amino acid change of the second valine within
this cluster to tyrosine (V1548Y) supports much of the functional
knockout. However, mutations of presumed Ca$^2+$-coordinating
residues in the consensus EF hand reduce Ca$^2+$ inactivation
by only approximately 2-fold, fitting poorly with the EF hand serving
as a contributory inactivation Ca$^2+$ sensor, in which Ca$^2+$
binds according to a classic mechanism. We therefore suggest that
while CaM serves as Ca$^2+$ sensor for inactivation, the EF-hand
motif of alpha(1C) may support the transduction of Ca$^2+$-CaM
binding into channel inactivation. The proposed transduction role
for the consensus EF hand is compatible with the detailed Ca$^2+$-inactivation
properties of wild-type and mutant V1548Y channels, as gauged by
a novel inactivation model incorporating multivalent Ca$^2+$
binding of CaM.
Description
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Tags
- 10733970
- Acid
- Amino
- Binding
- Biological,
- Biophysics,
- Calcium
- Calcium,
- Calmodulin,
- Cell
- Channels,
- Consensus
- Data,
- Feedback,
- Gov't,
- Humans,
- L-Type,
- Line,
- Membrane
- Models,
- Molecular
- Motifs,
- Mutagenesis,
- P.H.S.,
- Potentials,
- Protein
- Proteins,
- Recombinant
- Research
- Secondary,
- Sequence
- Sequence,
- Site-Directed,
- Sites,
- Structure,
- Support,
- U.S.