Abstract
L-type CaV1.2 channels are key regulators of gene expression, cell excitability and muscle contraction. CaV1.2 channels organize in clusters throughout the plasma membrane. This channel organization has been suggested to contribute to the concerted activation of adjacent CaV1.2 channels (e.g. cooperative gating). Here, we tested the hypothesis that dynamic intracellular and perimembrane trafficking of CaV1.2 channels is critical for formation and dissolution of functional channel clusters mediating cooperative gating. We found that CaV1.2 moves in vesicular structures of circular and tubular shape with diverse intracellular and submembrane trafficking patterns. Both microtubules and actin filaments are required for dynamic movement of CaV1.2 vesicles. These vesicles undergo constitutive homotypic fusion and fission events that sustain CaV1.2 clustering, channel activity and cooperative gating. Our study suggests that CaV1.2 clusters and activity can be modulated by diverse and unique intracellular and perimembrane vesicular dynamics to fine-tune Ca2+ signals.
Highlights
The L-type CaV1.2 channel is expressed in many cells where it plays an indispensable role in multiple physiological processes [1]
These results suggest that CaV1.2 channels preferentially cluster in structures that are fed by cytoskeleton-dependent trafficking of CaV1.2 vesicles in areas at/near the plasma membrane
Co-treatment of CaV1.2-RFP expressing cells with nocodazole and cytochalasin D (cyt-D) significantly reduced CaV1.2 sparklet properties, including cooperative gating behavior and coupling strength (Fig. 7D–H). These results suggest that dynamic trafficking of CaV1.2 vesicles may contribute to CaV1.2 clustering, channel activity and cooperative gating behavior
Summary
The L-type CaV1.2 channel is expressed in many cells where it plays an indispensable role in multiple physiological processes [1]. CaV1.2-containing vesicles undergo constitutive homotypic fusion and fission events with each other at/near the plasma membrane and throughout the intracellular compartment requiring trafficking via both actin filaments and microtubules. This directed trafficking maintains a pool of vesicles containing channels just underneath the surface membrane that along with fusion events facilitates CaV1.2 clustering, channel activity and functional cooperative gating between channels. These observations may have important implications for Ca2+ homeostasis in a number of physiological processes
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