Haoya Liang scite author profile

L-type (CaV1.2) and P/Q-type (CaV2.1) calcium channels possess lobe-specific CaM regulation, where Ca2+ binding to one or the other lobe of CaM triggers regulation, even with inverted polarity of modulation between channels. Other major members of the CaV1-2 channel family, R-type (CaV2.3) and N-type (CaV2.2), have appeared to lack such CaM regulation. We report here that R- and N-type channels undergo Ca(2+)-dependent inactivation, which is mediated by the CaM N-terminal lobe and present only with mild Ca2+ buffering (0.5 mM EGTA) characteristic of many neurons. These features, together with the CaM regulatory profiles of L- and P/Q-type channels, are consistent with a simplifying principle for CaM signal detection in CaV1-2 channels-independent of channel context, the N- and C-terminal lobes of CaM appear invariably specialized for decoding local versus global Ca2+ activity, respectively.

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A modular switch for spatial Ca2+ selectivity in the calmodulin regulation of CaV channels

Dick

Tadross

Liang

et al. 2008

Nature

240

331

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FRET Two-Hybrid Mapping Reveals Function and Location of L-Type Ca2+ Channel CaM Preassociation

Erickson

Liang

Mori

et al. 2003

Neuron

222

326

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L-type Ca(2+) channels possess a Ca(2+)-dependent inactivation (CDI) mechanism, affording feedback in diverse neurobiological settings and serving as prototype for unconventional calmodulin (CaM) regulation emerging in many Ca(2+) channels. Crucial to such regulation is the preassociation of Ca(2+)-free CaM (apoCaM) to channels, facilitating rapid triggering of CDI as Ca(2+)/CaM shifts to a channel IQ site (IQ). Progress has been hindered by controversy over the preassociation site, as identified by in vitro assays. Most critical has been the failure to resolve a functional signature of preassociation. Here, we deploy novel FRET assays in live cells to identify a 73 aa channel segment, containing IQ, as the critical preassociation pocket. IQ mutations disrupting preassociation revealed accelerated voltage-dependent inactivation (VDI) as the functional hallmark of channels lacking preassociated CaM. Hence, the alpha(1C) IQ segment is multifunctional-serving as ligand for preassociation and as Ca(2+)/CaM effector site for CDI.

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Haoya Liang

Unified Mechanisms of Ca2+ Regulation across the Ca2+ Channel Family

A modular switch for spatial Ca2+ selectivity in the calmodulin regulation of CaV channels

FRET Two-Hybrid Mapping Reveals Function and Location of L-Type Ca2+ Channel CaM Preassociation

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