Acrosin activation follows its surface exposure and precedes membrane fusion in human sperm acrosome reaction

Evidence has accumulated suggesting multiple roles of acrosin in fertilization, including its participation in early steps of gamete recognition and binding. However, the implication of acrosin in many of these processes is not compatible with its presumptive sequestration within the sperm acrosome until a late phase of the acrosome reaction. In an earlier study (J. Tesarik, J. Drahorad, J. Peknicova, 1988, Fertil. Steril. 50, 133–141), we reported the binding of an anti-acrosin monoclonal antibody (MO-AKR.1) to the plasma membrane overlying the acrosome of human spermatozoa starting the acrosome reaction. In this study, we characterized further this antibody with regard to its reactivity with different forms of acrosin and found that it recognizes specifically an active form of this enzyme and does not react with its proenzyme form. MO-AKR.1 was thus used as a probe for in situ analysis of acrosin activation during the acrosome reaction. When suspensions of living spermatozoa were incubated with MO-AKR.1 and with another monoclonal antibody (T6) directed to an intra-acrosomal cytoskeletal protein, significantly more spermatozoa reacted with the former antibody than with the latter; this indicated that some of the spermatozoa showing acrosin immunoreactivity carried activated acrosin on the cell surface, while their acrosome was still impermeable to intra-acrosomal-directed probes. The size of this particular sperm subpopulation was increased by the action of follicular fluid (a natural acrosome reaction inducer), but not ionophore A23187 (an artificial acrosome reaction inducer); it corresponded to the proportion of spermatozoa showing acrosin immunoreactivity on the plasma membrane but neither intra-acrosomal staining nor perceptible membrane perturbations when examined by immunoelectron microscopy. When spermatozoa were pre-incubated with protease inhibitors before the addition of acrosome reaction-inducing agents, the percentage of cells binding MO-AKR.1 was markedly reduced. These data suggest that limited acrosin activation on the sperm plasma membrane is an early event in the physiological acrosome reaction.

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Mechanism of human sperm activation by extracellular ATP

AJP Cell Physiology ◽

10.1152/ajpcell.1996.270.6.c1709 ◽

1996 ◽

Vol 270 (6) ◽

pp. C1709-C1714 ◽

Cited By ~ 34

Author(s):

C. Foresta ◽

M. Rossato ◽

P. Chiozzi ◽

F. Di Virgilio

Keyword(s):

Plasma Membrane ◽

Acrosome Reaction ◽

Human Sperm ◽

Extracellular Atp ◽

Effective Concentration ◽

Na Channel ◽

Monovalent Cations ◽

Sperm Activation ◽

Gated Channel ◽

Sperm Plasma Membrane

We have identified the mechanism whereby extracellular ATP (ATPe) triggers the acrosome reaction in human spermatozoa. This nucleotide opens a ligand-gated ion channel expressed on the sperm plasma membrane. ATPe threshold and 50% effective concentration calculated on the total added ATPe are 0.1 and 2 mM, respectively, corresponding to a free ATP concentration (ATP4-) of 3 and 200 microM, respectively. The ATPe-gated channel is selective for monovalent cations (Na+, choline, and methylglucamine), whereas on the contrary, permeability to Ca2+ is negligible. Isosmolar replacement of extracellular Na+ with sucrose fully blocked ATPe-dependent sperm activation, thus suggesting a mandatory role for Na+ influx. These results show that human sperm express an ATPe-gated Na+ channel that might have an important role in sperm activation before egg fertilization.

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Mouse gamete interactions during fertilization in vitro. Chlortetracycline as a fluorescent probe for the mouse sperm acrosome reaction.

The Journal of Cell Biology ◽

10.1083/jcb.83.3.544 ◽

1979 ◽

Vol 83 (3) ◽

pp. 544-555 ◽

Cited By ~ 215

Author(s):

P M Saling ◽

B T Storey

Keyword(s):

Plasma Membrane ◽

Fluorescent Probe ◽

Zona Pellucida ◽

Acrosome Reaction ◽

Sperm Head ◽

Fertilization In Vitro ◽

Ionophore A23187 ◽

Mouse Sperm ◽

Sperm Acrosome

We have developed an assay for detecting the acrosome reaction in mouse sperm using chlortetracycline (CTC) as a fluorescent probe. Sperm known to be intact with nonreacted acrosomes show CTC fluorescence in the presence of Ca2+ over the anterior portion of the sperm head on the plasma membrane covering the acrosome. Sperm which have undergone the acrosome reaction do not show fluorescence on the sperm head. Mouse sperm bind to zonae pellucidae of cumulus-free eggs in vitro in a Ca2+-dependent reaction; these sperm are intact by the CTC assay. Intact sperm bind to mechanically isolated zonae under the same conditions: the egg is apparently unnecessary for this inital reaction. Sperm suspensions, in which greater than 50% of the motile population had completed the acrosome reaction, were prepared by incubation in hyperosmolal medium followed by treatment with the divalent cation ionophore, A23187. Cumulus-free eggs challenged with such sperm suspensions preferentially bind intact sperm; acrosome-reacted sperm do not bind. We conclude that the plasma membrane of the mouse sperm is responsible for recognition of the egg's zona pellucida and that the obligatory sequence of reactions leading to fusion of mouse gametes is binding of the intact sperm to the zona pellucida, followed by the acrosome reaction at the zona surface, followed in turn by sperm penetration of the zona.

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The Use of Anti-VDAC2 Antibody for the Combined Assessment of Human Sperm Acrosome Integrity and Ionophore A23187-Induced Acrosome Reaction

PLoS ONE ◽

10.1371/journal.pone.0016985 ◽

2011 ◽

Vol 6 (2) ◽

pp. e16985 ◽

Cited By ~ 13

Author(s):

Bianjiang Liu ◽

Peng Wang ◽

Zengjun Wang ◽

Wei Zhang

Keyword(s):

Acrosome Reaction ◽

Human Sperm ◽

Ionophore A23187 ◽

Acrosome Integrity ◽

Sperm Acrosome

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Evaluation of the human sperm acrosome reaction using a monoclonal antibody, GB24, and fluorescence-activated cell sorter

Reproduction ◽

10.1530/jrf.0.0870699 ◽

1989 ◽

Vol 87 (2) ◽

pp. 699-706 ◽

Cited By ~ 61

Author(s):

P. Fenichel ◽

B. L. Hsi ◽

D. Farahifar ◽

M. Donzeaut ◽

D. Barrier-Delpech ◽

...

Keyword(s):

Monoclonal Antibody ◽

Acrosome Reaction ◽

Human Sperm ◽

Cell Sorter ◽

Sperm Acrosome Reaction ◽

Sperm Acrosome

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Behaviour and role of an intra-acrosomal antigenic molecule, acrin 3, during mouse fertilisation in vitro

Zygote ◽

10.1017/s096719940000112x ◽

2000 ◽

Vol 8 (4) ◽

pp. 329-338 ◽

Cited By ~ 1

Author(s):

D.K. Saxena ◽

I. Tanii ◽

T. Oh-oka ◽

K. Yoshinaga ◽

K. Toshimori

Keyword(s):

Monoclonal Antibody ◽

Plasma Membrane ◽

Zona Pellucida ◽

Acrosome Reaction ◽

Formation Rate ◽

Dependent Manner ◽

Sperm Plasma Membrane ◽

Dose Dependent

In this study we examined the behaviour and role of an intra-acrosomal antigenic molecule, acrin 3, during mouse fertilisation in vitro by assessing the effect of its pertinent monoclonal antibody mMC101. Experiments were designed to assess the effect of mMC101 on sperm–zona pellucida binding, the acrosome reaction, zona pellucida penetration, sperm–egg fusion, and fertilisation in vitro. mMC101 did not affect sperm motility or primary and secondary binding to the zona pellucida, but significantly inhibited fertilisation of zona-pellucida-intact oocytes in a dose-dependent manner. In the presence of mMC101 at 100 μg/ml concentration in TYH medium, none of the oocytes developed to pronuclear stage by 5 h after co-incubation of the gametes, but the pronucleus formation rate recovered to some extent (45.3%) after 8 h, indicating a delay of early embryonic development. mMC101 also delayed and significantly suppressed zona pellucida penetration by sperm. Acrin 3 dispersed and did not remain on completely acrosome-reacted sperm. Although mMC101 did not influence the zona-pellucida-induced acrosome reaction, it significantly inhibited fertilisation when acrosome-reacted sperm in the presence of mMC101 inseminated zona-pellucida-free oocytes. However, fertilisation remained unaffected when acrosome-reacted sperm in the absence of mMC101 inseminated zona-pellucida-free oocytes even in its presence. Thus, acrin 3 appears to facilitate zona pellucida penetration and is also likely to be involved in sperm–oocyte fusion by modifying the sperm plasma membrane during the acrosome reaction.

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Polyphosphoinositide breakdown and subsequent exocytosis in the Ca2+/ionophore-induced acrosome reaction of mammalian spermatozoa

Biochemical Journal ◽

10.1042/bj2590397 ◽

1989 ◽

Vol 259 (2) ◽

pp. 397-406 ◽

Cited By ~ 76

Author(s):

E R S Roldan ◽

R A P Harrison

Keyword(s):

Acrosome Reaction ◽

Fertilization In Vitro ◽

Ionophore A23187 ◽

Bivalent Cation ◽

Phosphoinositide Breakdown ◽

Phosphoinositide Cycle ◽

Phosphatidylinositol 4 ◽

Sperm Acrosome Reaction ◽

Sperm Acrosome

An investigation was made of the modifications in phospholipids that occur during the exocytotic event known as the ‘sperm acrosome reaction’. Phospholipids were prelabelled with 32P, and exocytosis was induced with Ca2+ and the ionophore A23187. When incubated with [32P]Pi in various media suitable for supporting sperm survival or fertilization in vitro, spermatozoa from all five species examined (ram, boar, guinea pig, mouse and human) incorporated 32P rapidly into the components of the phosphoinositide cycle. There were differences both between species and between media with respect to the actual rate of incorporation of label, and also between species with respect to other phospholipids labelled. Treatment of spermatozoa with Ca2+ and A23187 to induce the acrosome reaction resulted in a rapid breakdown of phosphatidylinositol 4, 5-bisphosphate and phosphatidylinositol 4-phosphate, which was complete within 3 min; there was also a great increase in labelling of phosphatidate. Occurrence of acrosome reactions in the sperm population was only observed after 5-10 min and reached a maximum response of greater than 90% after more than 30 min. The phosphoinositide breakdown was related to subsequent exocytosis: after EGTA/ionophore treatment, neither inositide breakdown nor exocytosis took place; however, later addition of Ca2+ resulted in immediate inositide breakdown, and exocytosis followed, with a delay relative to Ca2+ addition exactly similar to that following standard Ca2+/ionophore treatment. Neomycin inhibited both inositide breakdown and subsequent exocytosis provided it was added together with Ca2+ and ionophore; however, if the drug was added 3 min after Ca2+ and ionophore (by which time inositide breakdown was already complete), exocytosis was not inhibited. Ca2+ seemed to have several consecutive roles in the acrosome reaction. Low (micromolar) levels of free Ca2+ were needed both for phosphoinositide breakdown and for an event downstream of this breakdown; no other bivalent cation could substitute for Ca2+ in either event, and inositide breakdown was actually inhibited by Mg2+. In addition, millimolar levels of Ca2+ were needed for later stages of exocytosis, although this requirement could be satisfied by Sr2+. We conclude that breakdown of polyphosphoinositides is an essential early process after Ca2+ entry in the chain of events that lead to exocytosis in the mammalian sperm acrosome reaction.

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