Identification and spatial distribution of glycine receptor subunits in human sperm.

The human sperm surface glycine receptor (GLR) plays a role in an important fertilization event, the sperm acrosome reaction. Here, by western blot analysis, we report the presence of GLRA1, GLRA2, GLRA3, and GLRB subunits in human sperm. Immunolocalization studies showed that the GLRA1 and GLRA2 subunits are present in the equatorial region, the GLRA3 subunit in the flagellar principal piece, and the GLRB subunit in the acrosomal region of sperm. This first demonstration of isoforms of the sperm GLRA subunit and of a differential spatial distribution of the alpha and beta subunits on the surface of mammalian sperm suggests the possibility that human sperm GLRs have more than one function.

Identification of agrinSN isoform and muscle-specific receptor tyrosine kinase (MuSK) [corrected] in sperm.

We previously demonstrated several nicotinic acetylcholine receptor (nAChR) subunits and associated proteins in human sperm. Here, we identified in sperm for the first time two additional nAChR-associated molecules: (1) agrin(SN)Z(+) in human sperm localized in the posterior post-acrosomal, neck, and flagellar mid-piece regions; (2) a low-molecular weight isoform of muscle-specific receptor tyrosine kinase in human and mouse sperm localized in the flagellar mid-piece of human sperm.

Mice deficient in CHRNA7, a subunit of the nicotinic acetylcholine receptor, produce sperm with impaired motility.

In this study we investigate the role of the CHRNA7 subunit (also known as the alpha7 subunit) of the nicotinic acetylcholine receptor in mouse sperm function. We confirm by reverse-transcription-polymerase chain reaction the expression in adult mouse testis of Chrna7 mRNA and demonstrate the subunit's presence in mouse sperm by immunoblot. Alpha-bungarotoxin binds a range of nicotinic acetylcholine receptor subunits, including the CHRNA7 subunit. Localization studies using a fluorescent alpha-bungarotoxin-tetramethyl-rhodamine conjugate revealed specific binding sites on the midpiece of mouse sperm with fainter alpha-bungarotoxin binding on the remainder of the flagellum. Mice engineered with a double-null disruption of the Chrna7 gene displayed only faint fluorescence on the midpiece, suggesting that the CHRNA7 contributed the majority of the observed alpha-bungarotoxin binding sites. The location of alpha-bungarotoxin binding suggested that nicotinic acetylcholine receptors may play an ionotropic role in sperm motility. Sperm from Chrna7(-/-) mice display no difference in number, morphology, viability or spontaneous acrosome reaction rate compared with Chrna7(+/+) sperm. Studies using computer-assisted sperm analysis indicate the motility of Chrna7(-/-) sperm is significantly impaired. This impairment is characterized by significantly reduced swimming velocities, failure to maintain vigorous swimming, and lower levels of hyperactivated swimming patterns in Chrna7(-/-) sperm compared with Chrna7(+/+) sperm. This is the first genetic evidence that sperm nicotinic acetylcholine receptors are important for maintenance of normal sperm motility.

Studies of sperm from mutant mice suggesting that two neurotransmitter receptors are important to the zona pellucida-initiated acrosome reaction.

Two sperm neurotransmitter receptor/channels, the glycine receptor (GlyR) and a nicotinic acetylcholine receptor containing an alpha7 subunit (alpha7nAChR) were previously shown to be important to the mouse acrosome reaction (AR) initiated by solubilized egg zona pellucida (ZP). Here, we investigated whether sperm from homozygous mutant mice with a single amino acid mutation in the alpha subunit of their GlyR and sperm from homozygous mutant mice with an engineered disruption of the gene for the nicotinic acetylcholine receptor alpha7 subunit could undergo the AR on ZP-intact eggs. Wild-type and mutant sperm were treated with 3-quinuclidinyl benzilate (QNB), known to be an inhibitor of the ZP-initiated AR (but shown in the present work not to inhibit the acetylcholine-initiated AR). The ZP-initiated AR on ZP-intact eggs should occur only in sperm not treated with QNB. The absence of such an increase in the untreated mutant sperm would demonstrate that such sperm were unable to respond to the intact ZP. The results demonstrated for the first time that GlyR mutant sperm do not undergo the AR on ZP-intact mouse eggs, and that their ability to fertilize is inhibited by 63% in vitro. Moreover, we found that GlyR mutant sperm exhibited normal capacitation and confirmed that they not undergo the AR initiated by solubilized mouse ZP. Our studies demonstrated for the first time that sperm from mutant alpha7nAChR mice exhibit normal capacitation, do not undergo the AR in response to acetylcholine, solubilized ZP or on ZP-intact eggs, and display a 25% reduction in fertilization in vitro. This is the first genetic evidence for the importance of the alpha7nAChR in the ZP-initiated AR. While defects in either the GlyR or the alpha7nAChR completely inhibit the ZP-initiated AR, fertilization by these mutant sperm can still occur in vitro, probably due to sperm that complete spontaneous AR on the ZP.

Nicotinic acetylcholine receptor subunits and associated proteins in human sperm.

We demonstrated previously the involvement of a nicotinic acetylcholine receptor containing an alpha7 subunit in the human sperm acrosome reaction (a modified exocytotic event essential to fertilization). Here we report the presence in human sperm of alpha7, alpha9, alpha3, alpha5, and beta4 nicotinic acetylcholine receptor subunits and the following proteins known to be associated with the receptor in the somatic cell: rapsyn and the tyrosine kinases c-SRC and FYN. The alpha7 subunit appears to exist as a homomer in the posterior post-acrosomal and neck regions of sperm and is probably linked to the cytoskeleton via rapsyn. The alpha3, alpha5, and beta4 subunits are present in the sperm flagellar mid-piece of sperm and possibly exist as alpha3alpha5beta4 and/or alpha3beta4 channels. The alpha9 subunit is present in the sperm mid-piece. We detected the FYN and c-SRC tyrosine kinases in the flagellar mid-piece region. Both co-precipitated only with the nicotinic acetylcholine receptor beta4 subunit. Immunolocalization with a C-terminal SRC kinase antibody, which recognizes several members of SRC kinase family, detected a SRC kinase co-localized with the alpha7 subunit in the neck region of sperm. Immunoprecipitation studies with that antibody demonstrated that the alpha7 subunit is associated with a SRC kinase. Antagonists of tyrosine phosphorylation inhibited the acetylcholine-initiated acrosome reaction, suggesting the involvement of a SRC kinase in the acrosome reaction.

The sperm, a neuron with a tail: 'neuronal' receptors in mammalian sperm.

A number of plasma membrane receptor types originally thought to be specific to neurons have been found in other somatic cells. More surprisingly, the mammalian sperm and neuron appear to share many of these 'neuronal' receptors. The morphology, chromosome number, genomic activity, and functions of those two cell types are as unlike as any two cells in the body, but they both achieve their highly disparate goals with the aid of a number of the same receptors. Exocytosis in neurons and sperm is essential to the functions of these cells and is strongly influenced by similar receptors. 'Neuronal' receptor types in sperm may also play a role in the control of sperm motility (a function of course not shared by neurons). This review will consider the evidence for the presence of sperm plasma membrane 'neuronal' receptors and for their significance to mammalian sperm function. The persuasiveness of the evidence varies depending on the receptor being considered, but there is strong experimental support for the presence and importance of a number of 'neuronal' receptors in sperm.

Evidence suggesting that the mouse sperm acrosome reaction initiated by the zona pellucida involves an alpha7 nicotinic acetylcholine receptor.

The mammalian sperm acrosome reaction (AR) is essential to fertilization and is believed to be initiated in vivo by ZP3, a glycoprotein component of the egg zona pellucida (ZP). Recently, we reported the results of antagonist studies suggesting that a nicotinic acetylcholine receptor (nAChR) containing an alpha7 subunit (alpha7nAChR) plays a role in the human sperm AR initiated by recombinant human ZP3 or by acetylcholine (ACh). Here, we show that ACh can initiate the mouse sperm AR and that antagonists of the nAChR inhibit the AR initiated by ACh or by ZP obtained from ovarian oocytes (isolated heat-solubilized mouse ZP). Preincubation with three antagonists of the nAChR, alpha-bungarotoxin (100 nM), alpha-conotoxin IMI (100 nM), and methyllycaconitine (100 nM), significantly blocked AR initiation by ACh or by isolated heat-solubilized mouse ZP (P

A nicotinic acetylcholine receptor is involved in the arosome reaction of human sperm initiated by recombinant human ZP3.

One of the essential steps in mammalian fertilization is the acrosome reaction (AR), a modified exocytotic event in the sperm head that occurs upon contact with the glycoprotein matrix of the zona pellucida (ZP) surrounding the oocyte. Acetylcholine (ACh) at concentrations of 10-250 micro M and nicotine at 10-250 nM significantly initiate the AR of capacitated human sperm. Preincubation with three antagonists of the nicotinic acetylcholine receptor (nAChR), alpha-bungarotoxin (alpha-BTX, 100 nM), alpha-conotoxin IMI (alpha-CTX IMI, 250 nM and 25 nM), and methyllycaconitine (MLA, 100 nM and 10 nM), significantly blocked AR initiation by ACh. alpha-BTX is an anatagonist of several nAChRs, including the alpha7 nAChR, and alpha-CTX IMI and MLA are highly specific antagonists of alpha7 subunit-containing AChRs. The sperm nAChR plays a role in the AR initiated in vitro by a purified recombinant human ZP protein (rhZP3). Previously, rhZP3 was able to stimulate the AR by mechanisms similar to those seen with native ZP. Preincubation of human sperm with alpha-BTX (from 10 micro M to 100 nM), alpha-CTX IMI (250 and 100 nM), or MLA (100 nM and 10 nM) caused a significant inhibition in the rhZP3-initated AR. The inhibition of the ACh-initiated and rhZP3-initiated AR by these nAChR antagonists strongly suggests the involvement of an alpha7 subunit-containing nAChR in the AR initiated by both ligands. AR initiation by progesterone was not inhibited by MLA or alpha-BTX, suggesting that this particularnAChR is not involved in the AR initiated by that ligand. In vitro results show for the first time that ACh can initiate the human sperm AR and strongly suggest that a human sperm alpha7 subunit-containing nAChR plays a role in the rhZP3-initiated AR. This nAChR ligand-gated ion channel may be important to the signal transduction events of ZP-initiated AR in vivo.

Detection of glycine receptor/Cl- channel beta subunit transcripts in mouse testis.

The sperm glycine receptor/Cl- channel (GlyR) is important to the initiation of the mammalian sperm acrosome reaction by the egg zona pellucida, but its presence in spermatogenic cells has not been demonstrated. Reverse transcriptase-polymerase chain reaction studies confirmed that GlyR beta subunit transcripts similar to those of the neuronal GlyR beta subunit are present in the testis of Swiss Webster mice. In situ hybridisation analysis demonstrated that GlyR beta subunit mRNAs were expressed within the germ cells of seminiferous tubules in those mice.

A role for the human sperm glycine receptor/Cl(-) channel in the acrosome reaction initiated by recombinant ZP3.

Previously, we have demonstrated an essential role for the neuronal glycine receptor (GlyR) in the acrosome reaction (AR) of mouse and porcine sperm initiated by the egg zona pellucida (ZP). In the present study, we have demonstrated presence of the GlyR in human sperm by immunoprecipitation and Western blot analysis, investigated the potential of a recombinant human ZP3 (rhZP3) preparation as an alternative research tool to solubilized human ZP, and shown that the human sperm GlyR is essential to the human AR initiated by rhZP3. Additionally, we have been able to demonstrate that rhZP3 possesses biological activity, because it is able to rapidly stimulate the AR in capacitated human sperm and its action is blocked by the addition of pertussis toxin. Moreover, spectrofluorometric studies using fura-2-loaded human sperm have shown that rhZP3 triggers a peak-and-plateau rise in intracellular Ca(2+) levels similar to that seen with solubilized mammalian ZP. These results suggest that the actions of rhZP3 and solubilized ZP are elicited via the same signal transduction pathways. Furthermore, incubation of human sperm with an antibody directed against the alpha1 subunit of the human spinal cord GlyR or with 50 nM strychnine caused significant inhibition in the rhZP3-initated AR. Finally, studies using fura-2-loaded human sperm showed that 50 nM strychnine was also able to inhibit the Ca(2+) influx associated with addition of rhZP3. These results further support the view that rhZP3 and the ZP work through the same mechanisms, show that the GlyR is involved in rhZP3-initiated AR, and suggest that the GlyR may also play a role in the early signal transduction cascades associated with ZP-initiated AR in vivo.