Ca2+ signalling in the control of motility and guidance in mammalian sperm.

Stephen Publicover; LC Giojalas; ME Teves; GS de Oliveira; AA Garcia; Christopher Barratt; CV Harper

Ca2+ signalling in the control of motility and guidance in mammalian sperm.

Stephen Publicover, LC Giojalas, ME Teves, GS de Oliveira, AA Garcia, Christopher Barratt, CV Harper

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Abstract

Ca2+ signalling in the sperm plays a key role in the regulation of events preceding fertilisation. Control of motility, including hyperactivation and chemotaxis, is particularly dependent upon [Ca2+]i signalling in the principal piece of the flagellum and the midpiece. Here we briefly review the processes that contribute to regulation of [Ca2+]i in mammalian sperm and then examine two areas: (i) the regulation of hyperactivation by [Ca2+]i and the pivotal roles played by CatSpers (sperm-specific, Ca2+-permeable membrane channels) and intracellular Ca2+ stores in this process and (ii) the elevation of [Ca2+]i and consequent modulation of motility caused by progesterone including the ability of progesterone at micromolar concentrations to cause sperm hyperactivation and/or accumulation and the recent discovery that progesterone, at picomolar concentrations, acts as a chemoattractant for mammalian sperm..

Original language	English
Pages (from-to)	5623-37
Number of pages	15
Journal	Frontiers in Bioscience
Volume	13
Publication status	Published - 1 Jan 2008

Keywords

hyperactivation
calcium
motility
sperm
ryanodine receptor
CatSper
progesterone
chemotaxis
calcium store
review

Cite this

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title = "Ca2+ signalling in the control of motility and guidance in mammalian sperm.",

abstract = "Ca2+ signalling in the sperm plays a key role in the regulation of events preceding fertilisation. Control of motility, including hyperactivation and chemotaxis, is particularly dependent upon [Ca2+]i signalling in the principal piece of the flagellum and the midpiece. Here we briefly review the processes that contribute to regulation of [Ca2+]i in mammalian sperm and then examine two areas: (i) the regulation of hyperactivation by [Ca2+]i and the pivotal roles played by CatSpers (sperm-specific, Ca2+-permeable membrane channels) and intracellular Ca2+ stores in this process and (ii) the elevation of [Ca2+]i and consequent modulation of motility caused by progesterone including the ability of progesterone at micromolar concentrations to cause sperm hyperactivation and/or accumulation and the recent discovery that progesterone, at picomolar concentrations, acts as a chemoattractant for mammalian sperm..",

keywords = "hyperactivation, calcium, motility, sperm, ryanodine receptor, CatSper, progesterone, chemotaxis, calcium store, review",

author = "Stephen Publicover and LC Giojalas and ME Teves and {de Oliveira}, GS and AA Garcia and Christopher Barratt and CV Harper",

year = "2008",

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journal = "Frontiers in Bioscience",

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TY - JOUR

T1 - Ca2+ signalling in the control of motility and guidance in mammalian sperm.

AU - Publicover, Stephen

AU - Giojalas, LC

AU - Teves, ME

AU - de Oliveira, GS

AU - Garcia, AA

AU - Barratt, Christopher

AU - Harper, CV

PY - 2008/1/1

Y1 - 2008/1/1

N2 - Ca2+ signalling in the sperm plays a key role in the regulation of events preceding fertilisation. Control of motility, including hyperactivation and chemotaxis, is particularly dependent upon [Ca2+]i signalling in the principal piece of the flagellum and the midpiece. Here we briefly review the processes that contribute to regulation of [Ca2+]i in mammalian sperm and then examine two areas: (i) the regulation of hyperactivation by [Ca2+]i and the pivotal roles played by CatSpers (sperm-specific, Ca2+-permeable membrane channels) and intracellular Ca2+ stores in this process and (ii) the elevation of [Ca2+]i and consequent modulation of motility caused by progesterone including the ability of progesterone at micromolar concentrations to cause sperm hyperactivation and/or accumulation and the recent discovery that progesterone, at picomolar concentrations, acts as a chemoattractant for mammalian sperm..

AB - Ca2+ signalling in the sperm plays a key role in the regulation of events preceding fertilisation. Control of motility, including hyperactivation and chemotaxis, is particularly dependent upon [Ca2+]i signalling in the principal piece of the flagellum and the midpiece. Here we briefly review the processes that contribute to regulation of [Ca2+]i in mammalian sperm and then examine two areas: (i) the regulation of hyperactivation by [Ca2+]i and the pivotal roles played by CatSpers (sperm-specific, Ca2+-permeable membrane channels) and intracellular Ca2+ stores in this process and (ii) the elevation of [Ca2+]i and consequent modulation of motility caused by progesterone including the ability of progesterone at micromolar concentrations to cause sperm hyperactivation and/or accumulation and the recent discovery that progesterone, at picomolar concentrations, acts as a chemoattractant for mammalian sperm..

KW - hyperactivation

KW - calcium

KW - motility

KW - sperm

KW - ryanodine receptor

KW - CatSper

KW - progesterone

KW - chemotaxis

KW - calcium store

KW - review

M3 - Article

C2 - 18508611

SN - 1093-4715

VL - 13

SP - 5623

EP - 5637

JO - Frontiers in Bioscience

JF - Frontiers in Bioscience

ER -

Ca2+ signalling in the control of motility and guidance in mammalian sperm.

Abstract

Keywords

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