The SNAP-25 protein family

Anna Kádková; Julika Radecke; Jakob B Sørensen

doi:10.1016/j.neuroscience.2018.09.020

The SNAP-25 protein family

Anna Kádková, Julika Radecke, Jakob B Sørensen

Neuronal Signalling

12 Citations (Scopus)

Abstract

SNARE-complexes drive the fusion of membrane-bound vesicles with target membranes or with each other (homotypic fusion). The SNARE-proteins are subdivided into Qa, Qb, Qc and R-SNAREs depending on their position in the four-helical SNARE-bundle. Here, we review the SNAP-25 protein sub-family, which includes both the Qb and Qc SNARE-domains within a single protein. In vertebrates, this sub-family consists of SNAP-25, SNAP-23, SNAP-29 and SNAP-47, named for their apparent molecular weights. SNAP-25 and SNAP-23 are specialized for driving regulated exocytosis. SNAP-25 performs this function in the nervous system, and in neuroendocrine cells, where fast Ca2+-dependent triggering is required in order to synchronize release with an electrical signal, whereas SNAP-23 drives regulated exocytosis in most other cases that have been studied, e.g. platelet exocytosis or glucose transporter trafficking. SNAP-25 is regulated by alternative splicing, phosphorylation and by G-protein binding, and it regulates Ca2+-channels, neuronal survival and postsynaptic spine development. SNAP-23 is primarily regulated by phosphorylation within the linker connecting Qb to Qc. Cross-rescue experiments show that SNAP-25 and SNAP-23 can (at least partly) substitute for each other, whereas SNAP-29 and SNAP-47 cannot. SNAP-29 is present on intracellular membranes and performs functions in autophagosome-to-lysosome fusion, among others. An overlapping function for SNAP-47 was described; in addition, SNAP-47 mediates postsynaptic AMPA-receptor insertion. Overall, the presence of two SNARE-domains confers members of this family the ability to associate to different Qa and R-SNAREs and drive diverse membrane fusion reactions; one member of the family, SNAP-25, has been devoted entirely to Ca2+-triggered fusion and has taken on a number of additional, regulatory roles.

Original language	English
Journal	Neuroscience
Volume	420
Pages (from-to)	50-71
Number of pages	22
ISSN	0306-4522
DOIs	https://doi.org/10.1016/j.neuroscience.2018.09.020
Publication status	Published - 10 Nov 2019

Keywords

exocytosis
SNAP23
SNAP25
SNAP29
SNAP47
SNARE-proteins

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10.1016/j.neuroscience.2018.09.020

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title = "The SNAP-25 protein family",

abstract = "SNARE-complexes drive the fusion of membrane-bound vesicles with target membranes or with each other (homotypic fusion). The SNARE-proteins are subdivided into Qa, Qb, Qc and R-SNAREs depending on their position in the four-helical SNARE-bundle. Here, we review the SNAP-25 protein sub-family, which includes both the Qb and Qc SNARE-domains within a single protein. In vertebrates, this sub-family consists of SNAP-25, SNAP-23, SNAP-29 and SNAP-47, named for their apparent molecular weights. SNAP-25 and SNAP-23 are specialized for driving regulated exocytosis. SNAP-25 performs this function in the nervous system, and in neuroendocrine cells, where fast Ca2+-dependent triggering is required in order to synchronize release with an electrical signal, whereas SNAP-23 drives regulated exocytosis in most other cases that have been studied, e.g. platelet exocytosis or glucose transporter trafficking. SNAP-25 is regulated by alternative splicing, phosphorylation and by G-protein binding, and it regulates Ca2+-channels, neuronal survival and postsynaptic spine development. SNAP-23 is primarily regulated by phosphorylation within the linker connecting Qb to Qc. Cross-rescue experiments show that SNAP-25 and SNAP-23 can (at least partly) substitute for each other, whereas SNAP-29 and SNAP-47 cannot. SNAP-29 is present on intracellular membranes and performs functions in autophagosome-to-lysosome fusion, among others. An overlapping function for SNAP-47 was described; in addition, SNAP-47 mediates postsynaptic AMPA-receptor insertion. Overall, the presence of two SNARE-domains confers members of this family the ability to associate to different Qa and R-SNAREs and drive diverse membrane fusion reactions; one member of the family, SNAP-25, has been devoted entirely to Ca2+-triggered fusion and has taken on a number of additional, regulatory roles.",

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author = "Anna K{\'a}dkov{\'a} and Julika Radecke and S{\o}rensen, {Jakob B}",

year = "2019",

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doi = "10.1016/j.neuroscience.2018.09.020",

language = "English",

volume = "420",

pages = "50--71",

journal = "Neuroscience",

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TY - JOUR

T1 - The SNAP-25 protein family

AU - Kádková, Anna

AU - Radecke, Julika

AU - Sørensen, Jakob B

PY - 2019/11/10

Y1 - 2019/11/10

N2 - SNARE-complexes drive the fusion of membrane-bound vesicles with target membranes or with each other (homotypic fusion). The SNARE-proteins are subdivided into Qa, Qb, Qc and R-SNAREs depending on their position in the four-helical SNARE-bundle. Here, we review the SNAP-25 protein sub-family, which includes both the Qb and Qc SNARE-domains within a single protein. In vertebrates, this sub-family consists of SNAP-25, SNAP-23, SNAP-29 and SNAP-47, named for their apparent molecular weights. SNAP-25 and SNAP-23 are specialized for driving regulated exocytosis. SNAP-25 performs this function in the nervous system, and in neuroendocrine cells, where fast Ca2+-dependent triggering is required in order to synchronize release with an electrical signal, whereas SNAP-23 drives regulated exocytosis in most other cases that have been studied, e.g. platelet exocytosis or glucose transporter trafficking. SNAP-25 is regulated by alternative splicing, phosphorylation and by G-protein binding, and it regulates Ca2+-channels, neuronal survival and postsynaptic spine development. SNAP-23 is primarily regulated by phosphorylation within the linker connecting Qb to Qc. Cross-rescue experiments show that SNAP-25 and SNAP-23 can (at least partly) substitute for each other, whereas SNAP-29 and SNAP-47 cannot. SNAP-29 is present on intracellular membranes and performs functions in autophagosome-to-lysosome fusion, among others. An overlapping function for SNAP-47 was described; in addition, SNAP-47 mediates postsynaptic AMPA-receptor insertion. Overall, the presence of two SNARE-domains confers members of this family the ability to associate to different Qa and R-SNAREs and drive diverse membrane fusion reactions; one member of the family, SNAP-25, has been devoted entirely to Ca2+-triggered fusion and has taken on a number of additional, regulatory roles.

AB - SNARE-complexes drive the fusion of membrane-bound vesicles with target membranes or with each other (homotypic fusion). The SNARE-proteins are subdivided into Qa, Qb, Qc and R-SNAREs depending on their position in the four-helical SNARE-bundle. Here, we review the SNAP-25 protein sub-family, which includes both the Qb and Qc SNARE-domains within a single protein. In vertebrates, this sub-family consists of SNAP-25, SNAP-23, SNAP-29 and SNAP-47, named for their apparent molecular weights. SNAP-25 and SNAP-23 are specialized for driving regulated exocytosis. SNAP-25 performs this function in the nervous system, and in neuroendocrine cells, where fast Ca2+-dependent triggering is required in order to synchronize release with an electrical signal, whereas SNAP-23 drives regulated exocytosis in most other cases that have been studied, e.g. platelet exocytosis or glucose transporter trafficking. SNAP-25 is regulated by alternative splicing, phosphorylation and by G-protein binding, and it regulates Ca2+-channels, neuronal survival and postsynaptic spine development. SNAP-23 is primarily regulated by phosphorylation within the linker connecting Qb to Qc. Cross-rescue experiments show that SNAP-25 and SNAP-23 can (at least partly) substitute for each other, whereas SNAP-29 and SNAP-47 cannot. SNAP-29 is present on intracellular membranes and performs functions in autophagosome-to-lysosome fusion, among others. An overlapping function for SNAP-47 was described; in addition, SNAP-47 mediates postsynaptic AMPA-receptor insertion. Overall, the presence of two SNARE-domains confers members of this family the ability to associate to different Qa and R-SNAREs and drive diverse membrane fusion reactions; one member of the family, SNAP-25, has been devoted entirely to Ca2+-triggered fusion and has taken on a number of additional, regulatory roles.

KW - exocytosis

KW - SNAP23

KW - SNAP25

KW - SNAP29

KW - SNAP47

KW - SNARE-proteins

U2 - 10.1016/j.neuroscience.2018.09.020

DO - 10.1016/j.neuroscience.2018.09.020

M3 - Review

C2 - 30267828

SN - 0306-4522

VL - 420

SP - 50

EP - 71

JO - Neuroscience

JF - Neuroscience

ER -

The SNAP-25 protein family

Abstract

Keywords

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