The human sperm acrosome reaction: physiology and regulatory mechanisms. An update

Brucker, Cosima

doi:10.1093/humupd/1.1.51

Cited by 106 publications

(70 citation statements)

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“…AR, one of the critical events in mammal fertilization, is defined as the fusion of the outer acrosome membrane with inner spermatozoa plasma membrane in multiple sites (Yanagimachi, 1994;Brucker and Lipford, 1995;Ikawa et al, 2010). In response to appropriate stimuli, the outer acrosome membrane and the overlying sperm plasma membrane fuse and vesiculate, leading to exposure of acrosomal contents.…”

Section: Introductionmentioning

confidence: 99%

Acrosome reaction in the cumulus oophorus revisited: involvement of a novel sperm-released factor NYD-SP8

2011

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Fertilization is a process involving multiple steps that lead to the final fusion of one sperm and the oocyte to form the zygote. One of the steps, acrosome reaction (AR), is an exocytosis process, during which the outer acrosome membrane fuses with the inner sperm membrane, leading to the release of acrosome enzymes that facilitate sperm penetration of the egg investments. Though AR has been investigated for decades, the initial steps of AR in vivo, however, remain largely unknown. A well elucidated model holds the view that AR occurs on the surface of the zona pellucida (ZP), which is triggered by binding of sperm with one of the ZP glycosylated protein, ZP3. However, this model fails to explain the large number of 'falsely' acrosome-reacted sperms found within the cumulus layer in many species examined. With the emerging evidence of cross-talk between sperm and cumulus cells, the potential significance of AR in the cumulus oophorus, the outer layer of the egg, has been gradually revealed. Here we review the acrosome status within the cumulus layer, the cross-talk between sperm and cumulus cells with the involvement of a novel spermreleased factor, NYD-SP8, and re-evaluate the importance and physiological significance of the AR in the cumulus in fertilization.

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Section: Introductionmentioning

confidence: 99%

Acrosome reaction in the cumulus oophorus revisited: involvement of a novel sperm-released factor NYD-SP8

2011

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“…These important physiological properties of mammalian sperm cells necessary for fertilization include: the loss of cytoplasmic droplet, the potential to move progressively [Orgebin-Crist 1987;Yanagimachi 1994], capacitation potential , the ability to undergo the acrosomal reaction [Brucker and Lipford 1995], and to interact with the zona pellucida of the egg [Bedford 1998]. Epididymal maturation in most mammalian species studied to date, including human, depends on androgen secretion by the testes and requires approximately 10-20 days [Holland et al 1992;Orgebin-Crist 1996;Moore and Akhondi 1996].…”

Section: Introductionmentioning

confidence: 99%

Spermatozoa Epididymal Maturation in the Mexican Big-Eared Bat (Corynorhinus Mexicanus)

Cervantes

Arenas‐Ríos

Ángel

et al. 2008

Systems Biology in Reproductive Medicine

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Prolonged epididymal sperm storage in vespertilionid and rhinolophid bats, provides an interesting experimental model for the study of spermatozoa epididymal maturation. We examined the presence of the cytoplasmic droplet, and the sequential induction of capacitation and the acrosome reaction in spermatozoa obtained from different epididymal regions (caput, corpus, cauda) throughout the annual reproductive cycle of Corynorhinus mexicanus (C. mexicanus). This is a vespertilionid bat that stores spermatozoa in the epididymis for several months after testes regression. The number of sperm recovered from the different epididymal regions indicate that epididymal transit in C. mexicanus is rapid. The persistence of a high percentage of sperm cells with cytoplasmic droplet in cauda epididymis was observed in addition to a low index of capacitation and acrosome reaction in sperm cells obtained from the corpus epididymis. There was a significant increase in the percentage of capacitated and acrosome reacted spermatozoa during the storage of sperm cells in the cauda epididymis and the percentage of capacitated spermatozoa was consistently, and significantly, higher (p < 0.05) in cauda compared to the corpus epididymis at all studied dates. Tthe process of epididymal maturation in C. mexicanus is completed in the caudal region of this organ encompassing a significant period. Our results also indicate that in C. mexicanus, and in other vespertilionid and rhinolophid bats that show the same temporal asynchrony in the function of male reproductive organs, the final phases of epididymal maturation and storage are, apparently, independent of testicular function.

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“…In somatic cells, actin filaments lying beneath the plasma membrane form a cortical network involved in functions such as cell-to-cell contact and adhering to extracellular matrix, cell growth and migration, and exocytosis. In spermatozoa, a number of cytoskeletal proteins are implicated in key events such as capacitation and the AR (Yanagimachi 1981, Virtanen et al 1984, Brucker & Lipford 1995, Brewis & Moore 1997, Howes et al 2001, Moore 2001, Brener et al 2003. For instance, actin may play a role in the AR (Vogl 1989, Palecek et al 1999) and inhibition of actin polymerization by cytochalasin B and D blocked induction of the human AR by zona pellucida (Liu et al 1999, Dvorakova et al 2001.…”

Section: Introductionmentioning

confidence: 99%

Cytoskeleton localization in the sperm head prior to fertilization

Dvořáková¹,

Moore²,

Šebková³

et al. 2005

Reproduction

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Three major cytoskeletal proteins, actin, tubulin and spectrin, are present in the head of mammalian spermatozoa. Although cytoskeletal proteins are implicated in the regulation of capacitation and the acrosome reaction (AR), their exact role remains poorly understood. The aim of this study was to compare the distribution of the sperm head cytoskeleton before and after the AR in spermatozoa representing a range of acrosome size and shape. Spermatozoa from the human and three rodents (rat, hamster and grey squirrel) were fixed before and after the AR in appropriate medium in vitro. Indirect immunofluorescent localization of cytoskeletal proteins was undertaken with antibodies recognizing actin, spectrin and a-tubulin. Preparations were counterstained with propidium iodide and examined by epifluorescent and confocal microscopy. Our results clearly demonstrated changes in localization of cytoskeleton during the AR, mainly in the apical acrosome with further changes to the equatorial segment and post-acrosomal regions. The pattern of cytoskeletal proteins in the sperm head of all the species was similar in respect to various sub-compartments. These observations indicated that the sperm head cortical cytoskeleton exhibits significant changes during the AR and, therefore, support the image of cytoskeletal proteins as highly dynamic structures participating actively in processes prior to fertilization.

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The human sperm acrosome reaction: physiology and regulatory mechanisms. An update

Cited by 106 publications

References 0 publications

Acrosome reaction in the cumulus oophorus revisited: involvement of a novel sperm-released factor NYD-SP8

Acrosome reaction in the cumulus oophorus revisited: involvement of a novel sperm-released factor NYD-SP8

Spermatozoa Epididymal Maturation in the Mexican Big-Eared Bat (Corynorhinus Mexicanus)

Cytoskeleton localization in the sperm head prior to fertilization

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