The life cycle of voltage-gated Ca 2+  channels in neurons: an update on the trafficking of neuronal calcium channels

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Abstract

Neuronal voltage-gated Ca ²⁺ (Ca _V) channels play a critical role in cellular excitability, synaptic transmission, excitation–transcription coupling and activation of intracellular signaling pathways. Ca _V channels are multiprotein complexes and their functional expression in the plasma membrane involves finely tuned mechanisms, including forward trafficking from the endoplasmic reticulum (ER) to the plasma membrane, endocytosis and recycling. Whether genetic or acquired, alterations and defects in the trafficking of neuronal Ca _V channels can have severe physiological consequences. In this review, we address the current evidence concerning the regulatory mechanisms which underlie precise control of neuronal Ca _V channel trafficking and we discuss their potential as therapeutic targets.

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Most cited references 180

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Calcium signaling.

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Calcium ions (Ca(2+)) impact nearly every aspect of cellular life. This review examines the principles of Ca(2+) signaling, from changes in protein conformations driven by Ca(2+) to the mechanisms that control Ca(2+) levels in the cytoplasm and organelles. Also discussed is the highly localized nature of Ca(2+)-mediated signal transduction and its specific roles in excitability, exocytosis, motility, apoptosis, and transcription.

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Membrane trafficking between organelles by vesiculotubular carriers is fundamental to the existence of eukaryotic cells. Central in ensuring that cargoes are delivered to their correct destinations are the Rab GTPases, a large family of small GTPases that control membrane identity and vesicle budding, uncoating, motility and fusion through the recruitment of effector proteins, such as sorting adaptors, tethering factors, kinases, phosphatases and motors. Crosstalk between multiple Rab GTPases through shared effectors, or through effectors that recruit selective Rab activators, ensures the spatiotemporal regulation of vesicle traffic. Functional impairments of Rab pathways are associated with diseases, such as immunodeficiencies, cancer and neurological disorders.

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M J Berridge, P. Lipp, M Bootman (2000)

The universality of calcium as an intracellular messenger depends on its enormous versatility. Cells have a calcium signalling toolkit with many components that can be mixed and matched to create a wide range of spatial and temporal signals. This versatility is exploited to control processes as diverse as fertilization, proliferation, development, learning and memory, contraction and secretion, and must be accomplished within the context of calcium being highly toxic. Exceeding its normal spatial and temporal boundaries can result in cell death through both necrosis and apoptosis.

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Author and article information

Contributors

Gerald W. Zamponi

Journal

Journal ID (nlm-ta): Neuronal Signal

Journal ID (iso-abbrev): Neuronal Signal

Journal ID (publisher-id): ns

Title: Neuronal Signaling

Publisher: Portland Press Ltd.

ISSN (Electronic): 2059-6553

Publication date Collection: April 2021

Publication date (Electronic): 23 February 2021

Volume: 5

Issue: 1

Electronic Location Identifier: NS20200095

Affiliations

Department of Physiology and Pharmacology, Alberta Children’s Hospital Research Institute, Hotchkiss Brain Institute, Cumming School of Medicine, University of Calgary, Calgary, AB, Canada

Author notes

Correspondence: Gerald W. Zamponi ( zamponi@ 123456ucalgary.ca )

Article

Publisher ID: NS20200095

DOI: 10.1042/NS20200095

PMC ID: 7905535

SO-VID: c155906d-7b3a-40f0-a7a3-52c34aa4eaed

License:

This is an open access article published by Portland Press Limited on behalf of the Biochemical Society and distributed under the Creative Commons Attribution License 4.0 (CC BY).

History

Date received : 13 January 2021

Date revision received : 10 February 2021

Date accepted : 15 February 2021

Date: 16 February 2021

Page count

Pages: 17

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The life cycle of voltage-gated Ca ²⁺ channels in neurons: an update on the trafficking of neuronal calcium channels

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Abstract

Related collections

Neuronal Signaling

Most cited references 180

Calcium signaling.

Rab GTPases as coordinators of vesicle traffic.

The versatility and universality of calcium signalling.

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