Functional Roles of Mouse Sperm Hyaluronidases, HYAL5 and SPAM1, in Fertilization1

Kimura, Masanori; Kim, Ekyune; Kang, Woojin; Yamashita, Misuzu; Saigo, Mariko; Yamazaki, Taiga; Nakanishi, Teruyuki; Kashiwabara, Shin‐ichi; Baba, Tadashi

doi:10.1095/biolreprod.109.078816

Cited by 83 publications

(80 citation statements)

References 33 publications

(75 reference statements)

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“…However, the goal of the exchange between oocytes and sperm is not to supply spermatozoa in CD9 tetraspanin. In fact, as described previously (Kimura et al 2009, Ito et al 2010 and confirmed here, the CD9 tetraspanin is also expressed on mouse sperm at a high level and is localised on the equatorial segment after acrosome reaction. This result shows that CD9 is mostly detected at the surface of the fertilising sperm at…”

Section: Discussionsupporting

confidence: 89%

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Membrane transfer from oocyte to sperm occurs in two CD9-independent ways that do not supply the fertilising ability of Cd9-deleted oocytes

Barraud-Lange¹,

Boissonnas²,

Serres³

et al. 2012

Reproduction

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Spermatozoa undergo regulation of their functions along their lifespan through exchanges via vesicles or interactions with epithelial cells, in the epididymis, in the seminal fluid and in the female genital tract. Two different ways of oocyte membrane transfer to spermatozoa have been described: trogocytosis and exosomes. We here report an analysis of in vitro exchanges between the membranes of unfertilised oocytes and capacitated spermatozoa. We showed that optimum conditions are fulfilled when unfertilised oocytes interact with acrosome-reacted spermatozoa, a scenario mimicking the events occurring when the fertilising spermatozoon is inside the perivitelline space. Although CD9 tetraspanin is an essential molecule for fertilisation, exosome and trogocytosis transfer persists in Cd9-null oocytes in spite of their dramatic fusion failure. These exchanges are CD9 tetraspanin independent. We also confirm that mice sperm express CD9 tetraspanin and that when Cd9-null oocytes were inseminated with sperm covered with oocyte membrane materials, including CD9 tetraspanin, no rescue of the oocytes' fertilisability could be obtained. Thus, the existence of two ways of exchange between gametes during fertilisation suggests that these events could be of a physiological importance in this process.

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Section: Discussionsupporting

confidence: 89%

“…Contrary to what has been initially described (Chen et al 1999, Li et al 2004, spermatozoa do also express CD9 tetraspanin, as recently reported (Kimura et al 2009, Ito et al 2010 and as confirmed here. Indeed, we observed the presence of CD9 tetraspanin on cauda epididymal mature sperm.…”

Section: Wb Analysis Of Mouse Spermsupporting

confidence: 70%

Membrane transfer from oocyte to sperm occurs in two CD9-independent ways that do not supply the fertilising ability of Cd9-deleted oocytes

Barraud-Lange¹,

Boissonnas²,

Serres³

et al. 2012

Reproduction

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“…It is the hydrolytic enzymes released following the AR that ensure sperms to disperse the cumulus mass and reach the zona layer (Talbot, 1985;Yanagimachi, 1988). Unfortunately, this hypothesis is challenged by the observation that the expression of hydrolytic enzymes thought to facilitate sperm penetration of the cumulus, PH-20 and Hyal5, were found on the surface of sperm membrane but not within the acrosome (Lin et al, 1994;Kim et al, 2005;Kimura et al, 2009), which means sperm do not necessarily undergo AR to release hydrolytic enzymes when passing through the cumulus layer. Recent results obtained from PH-20 null mice have revealed that mouse sperm lacking PH-20 are still fertile with only delayed penetration through the cumulus (Baba et al, 2002), while sperm lacking both PH-20 and Hyal5 have not yet been studied.…”

Section: Status Of Sperm Acrosome In the Cumulus: The Controversymentioning

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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“…Mouse epididymal sperm contain at least two hyaluronidases, SPAM1 and HYAL5, glycosylphosphatidylinositol (GPI)-anchored on the plasma and/or acrosomal membranes [8][9][10][11]. We previously demonstrated that SPAM1 is localized only on the plasma membrane of sperm and that acrosome-reacted sperm still retain approximately half of SPAM1 [9].…”

mentioning

confidence: 99%

“…On the basis of the subcellular distribution, both HYAL5 and SPAM1 on the plasma membrane may be involved in sperm penetration through the cumulus matrix, and acrosomal HYAL5 released by the acrosome reaction may play an important role in the local hyaluronan hydrolysis near or on the ZP surface to enable the proximal region of the sperm tail to move freely [10]. Inconsistent with these possibilities, male mice lacking either one of these two hyaluronidases (Spam1 -/-or Hyal5 -/-) have been shown to be fully fertile [9,11], providing evidence that neither SPAM1 nor HYAL5 is essential for fertilization in the mouse. However, in vitro fertilization (IVF) assays have revealed that Spam1 -/-sperm are distinguished from wild-type and Hyal5 -/-sperm by significant delays in entering the OCC, dispersing cumulus cells from the OCC and traversing the cumulus matrix to reach the ZP [11].…”

mentioning

confidence: 99%

Hyaluronan-Degrading Activity of Mouse Sperm Hyaluronidase Is Not Required for Fertilization?

Kang

Zhou

Koga

et al. 2010

Journal of Reproduction and Development

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Abstract. Sperm hyaluronidase has long been believed to participate in sperm penetration through the cumulus matrix. However, our previous works using male mice lacking either one of two sperm hyaluronidases, SPAM1 and HYAL5, conclusively showed that neither of these hyaluronidases is essential for fertilization. In this study, we examined whether the hyaluronan-degrading activity of mouse epididymal sperm is indeed required for the fertilization process. When the oocyte-cumulus complex was incubated with sperm protein extracts or capacitated epididymal sperm in the presence of the hyaluronidase inhibitor apigenin, dispersal of cumulus cells from the cumulus was effectively inhibited. Despite the presence of apigenin, capacitated epididymal sperm normally entered the oocyte-cumulus complex, traversed the cumulus matrix and reached the oocyte zona pellucida. Importantly, epididymal sperm were also capable of normally fertilizing the metaphase II-arrested oocytes in the presence of apigenin. These data suggest that the hyaluronan-degrading activity of sperm hyaluronidase may not be required for fertilization, at least in the mouse.

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Functional Roles of Mouse Sperm Hyaluronidases, HYAL5 and SPAM1, in Fertilization1

Cited by 83 publications

References 33 publications

Membrane transfer from oocyte to sperm occurs in two CD9-independent ways that do not supply the fertilising ability of Cd9-deleted oocytes

Membrane transfer from oocyte to sperm occurs in two CD9-independent ways that do not supply the fertilising ability of Cd9-deleted oocytes

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

Hyaluronan-Degrading Activity of Mouse Sperm Hyaluronidase Is Not Required for Fertilization?

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