Initiation Of Acrosome Reaction Research Articles

Acetylcholine causes an increase of intracellular calcium in human sperm

Sperm nicotinic acetylcholine receptors (nAChRs) can influence motility and the initiation of acrosome reaction (AR). We report that AR initiation by acetylcholine (ACh) in capacitated human sperm requires both Na+ and Ca2+ in the external medium. Pre-incubation with 50 microM 3-quinuclidinyl benzilate (QNB) or 50 nM strychnine failed to inhibit the ACh-initiated AR, demonstrating that muscarinic AChRs and nAChRs containing alpha9 subunits do not mediate this event. Choline (2.5, 5 and 10 mM), a highly specific but low potency agonist of the alpha7 nAChR initiated AR, with its effect blocked by the nAChR antagonist methyllycaconitine (MLA). ACh (50-400 microM) stimulated a small transient rise in the intracellular Ca2+ in sperm populations loaded with FURA-2, with 200 microM ACh being maximal (146 nM +/- 23 SEM). The nAChR antagonists, alpha-bungarotoxin (alpha-BTX) and MLA, reduced the ACh-initiated Ca2+ rise by 75 and 78%, respectively, demonstrating the majority of the rise is mediated through nAChRs containing alpha7 or alpha9 subunits. Single cell imaging studies using FLUO-3 resolved two patterns of ACh-stimulated Ca2+ increase in the sperm head: 94% of responding sperm displayed a rise (59.6% +/- 5.7 SEM increase from resting fluorescence intensity), returning to resting levels over a period of 2-3 min. The remaining sperm (6%) displayed a sharp spike of Ca2+ ( approximately 1 min; 86% +/- 4.3 SEM change in fluorescence intensity), followed by abrupt loss of fluorescence, a pattern suggestive of AR. A Ca2+ influx in the sperm midpiece appeared to accompany the Ca2+ influx seen in the head. These observations confirm an ionotropic role for nAChRs in sperm function.

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 </= 0.002). Because the only nAChR subunit known to bind all three antagonists is the alpha7, an alpha7nAChR appears to be involved in the mouse sperm AR initiated by mouse ZP or by ACh. The nAChR antagonists did not inhibit the AR initiated by calcium ionophore A23187, suggesting that the role of alpha7nAChR is upstream from Ca2+ influx. Pertussis toxin (PTX, 100 ng/ml) did not inhibit the AR initiated by ACh, suggesting that the alpha7nAChR might be a candidate for the PTX-insensitive, poorly selective cation channel shown previously to play a role in ZP-initiated mouse sperm AR. These studies with mouse sperm and ovary-derived ZP strongly support our previous conclusion that activation of an alpha7nAChR is important to the mammalian AR initiated by the egg ZP.

Maitotoxin, A Presumed Calcium Channel Activator, Induces the Acrosome Reaction in Mussel Spermatozoa: (maitotoxin/acrosome reaction/calcium channel activator/calcium channel antagonist/mussel sperm).

Maitotoxin, a presumed activator of the voltage-sensitive calcium channel, induced the acrosome reaction in the mussel, Mytilus edulis at physiological pH and in the starfish, Asterias amurensis at pH 9.5. The induction of acrosome reaction by maitotoxin depended upon external Ca2+ and was inhibited by two types of calcium channel blockers; verapamil and diltiazem. These results suggest that the activation of the voltage-sensitive calcium channel takes an important part in the initiation of acrosome reaction in Mytilus and other animals.

A glycolytic product is obligatory for initiation of the sperm acrosome reaction and whiplash motility required for fertilization in the mouse.

The substrate requirements for capacitation of epididymal mouse spermatozoa, initiation of the acrosome reaction and support of fertilization of mouse eggs in vitro were examined by assessing not only fertilization rates, but also the stages of egg activation and sperm head decondensation in fertilized eggs to monitor the temporal aspects of these processes. Although early events of capacitation did not require exogenous substrates, the fertilization process was effectively blocked at the terminal stages of capacitation in the absence of a glycolysable sugar, and addition of glucose was obligatory to initiate both the acrosome reaction and the whiplash motility associated with fertilizing ability. Once the spermatozoa had been primed by glucose, however, the removal of exogenous glucose did not block fertilization. The need for oxidative metabolism was excluded because successful fertilization could be achieved with glucose as the sole exogenous substrate under strictly anaerobic conditions or in the presence of 2.5 microM-oligomycin. We suggest, therefore, that epididymal mouse spermatozoa can be almost completely capacitated in the absence of metabolic processes simply by release into substrate-free medium. They require exposure to glucose to permit induction of the acrosome reaction and motility changes, necessary prerequisites for fertilization; such exposure is followed by rapid and synchronous penetration of eggs.