Lynda K. Doolittle scite author profile

Elevations of sperm Ca 2؉ seem to be responsible for an asymmetric form of motility called hyperactivation, which is first seen near the time of fertilization. The mechanism by which intracellular Ca 2؉ concentrations increase remains unknown despite considerable investigation. Although several prototypical voltage-gated calcium channels are present in spermatozoa, they are not essential for motility. Furthermore, the forward velocity and percentage of motility of spermatozoa are associated with infertility, but their importance relative to hyperactivation also remains unknown. We show here that disruption of the gene for a recently described sperm-specific voltage-gated cation channel, CatSper2, fails to significantly alter sperm production, protein tyrosine phosphorylation that is associated with capacitation, induction of the acrosome reaction, forward velocity, or percentage of motility, yet CatSper2 ؊͞؊ males are completely infertile. The defect that we identify in the null sperm cells is a failure to acquire hyperactivated motility, which seems to render spermatozoa incapable of generating the ''power'' needed for penetration of the extracellular matrix of the egg. A loss of power is suggested also by experiments in which the viscosity of the medium was increased after incubation of spermatozoa in normal capacitating conditions. In highviscosity medium, CatSper2-null spermatozoa lost the ability to swim forward, whereas wild-type cells continued to move forward. Thus, CatSper2 is responsible for driving hyperactivated motility, and, even with typical sperm forward velocities, fertilization is not possible in the absence of this highly active form of motility.hyperactivation ͉ spermatozoa ͉ infertility

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A new sperm-specific Na+/H+ Exchanger required for sperm motility and fertility

Wang

et al. 2003

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It has long been speculated that intracellular pH is a critical regulator of both invertebrate and vertebrate sperm motility, and sodium-hydrogen exchange has been suggested as a mediator of such pH(i) regulation in various instances. Two sodium-hydrogen exchangers (NHE1 and NHE5) are expressed in spermatozoa. However, elimination of the NHE1 gene fails to cause infertility, suggesting that normal sperm function is maintained in NHE1-null animals. Here, we used a functionally unbiased signal peptide trap screen to identify a novel sperm-specific NHE. The NHE contains 14 predicted transmembrane segments, including a potential voltage sensor and a consensus cyclic nucleotide-binding motif. Testis histology, sperm numbers and morphology were normal, but NHE-null males were completely infertile with severely diminished sperm motility. The addition of ammonium chloride, which elevates intracellular pH, partially rescued the motility and fertility defects. Surprisingly, cyclic AMP analogues almost completely rescued the motility and infertility phenotypes. The existence of this new sperm NHE provides an attractive contraceptive target, given its cell-specific expression and absolute requirement for fertility.

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Lynda K. Doolittle

Organization of Chromatin by Intrinsic and Regulated Phase Separation

Hyperactivated sperm motility driven by CatSper2 is required for fertilization

A new sperm-specific Na+/H+ Exchanger required for sperm motility and fertility

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