2022
DOI: 10.3390/ijms23116333
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A Review on the Role of Bicarbonate and Proton Transporters during Sperm Capacitation in Mammals

Abstract: Alkalinization of sperm cytosol is essential for plasma membrane hyperpolarization, hyperactivation of motility, and acrosomal exocytosis during sperm capacitation in mammals. The plasma membrane of sperm cells contains different ion channels implicated in the increase of internal pH (pHi) by favoring either bicarbonate entrance or proton efflux. Bicarbonate transporters belong to the solute carrier families 4 (SLC4) and 26 (SLC26) and are currently grouped into Na+/HCO3− transporters and Cl−/HCO3− exchangers.… Show more

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Cited by 19 publications
(7 citation statements)
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“…One of the most important roles of ROS in sperm physiology (Figure 2) concerns the process of capacitation by which spermatozoa undergo dramatic changes in the membrane composition and acquire hyperactivated motility, leading to the acrosome reaction and fertilisation [53,54]. The molecular processes behind capacitation include an increase in pH, Ca 2+ and HCO 3 − influx, efflux of cholesterol from the plasma membrane, an increase in cyclic adenosine monophosphate (cAMP) concentration; and protein hyperphosphorylation [55,56]. During capacitation, the concentration of O 2…”
Section: Ros and Sperm Physiologymentioning
confidence: 99%
“…One of the most important roles of ROS in sperm physiology (Figure 2) concerns the process of capacitation by which spermatozoa undergo dramatic changes in the membrane composition and acquire hyperactivated motility, leading to the acrosome reaction and fertilisation [53,54]. The molecular processes behind capacitation include an increase in pH, Ca 2+ and HCO 3 − influx, efflux of cholesterol from the plasma membrane, an increase in cyclic adenosine monophosphate (cAMP) concentration; and protein hyperphosphorylation [55,56]. During capacitation, the concentration of O 2…”
Section: Ros and Sperm Physiologymentioning
confidence: 99%
“…Notably, alkalinization of the intracellular pH (pH i ) of spermatozoa is required for sperm capacitation in mammals as well as for hyperactivation of sperm motility, chemotaxis, the acrosome reaction (AR), and fertilization [ 17 , 18 ]. HCO 3 − and H + transport are critical processes in pH i regulation [ 19 ]. pH homeostasis in the male reproductive tract is managed primarily by the transporters solute carrier 4 (SLC4) and solute carrier 26 (SLC26), Na + -H + exchangers (NHEs), carbonic anhydrases (CAs), monocarboxylate transporters (MCTs), and hydrogen voltage-gated channels (HVCN1), as well as by other channels and enzymes associated with pH regulation, including Ca 2+ channels (CatSper) [ 20 ], K + channels (SLO3) [ 21 ], and soluble adenylate cyclase (sAC) [ 22 ].…”
Section: Introductionmentioning
confidence: 99%
“…An increase in pH i and alkalization of sperm cytosol is essential for hyperpolarization of the plasmatic membrane and later hyperactivation of sperm motility via a Ca 2+ -dependent pathway. Membrane potential (Em) or resting membrane potential (Em r ) reflects different concentrations of ions (mmol/L) between intra- and extra-cellular spaces [ 1 , 2 , 3 ]. During capacitation, sperm cells change membrane potential by the process called hyperpolarization, which increases a negative charge of membrane through to reduced permeability for Na + and increased permeability for K + .…”
Section: Introductionmentioning
confidence: 99%