Ekyune Kim scite author profile

In mouse, two different isoforms of ADAM1 (fertilin ␣), ADAM1a and ADAM1b, are produced in the testis. ADAM1a is localized within the endoplasmic reticulum of testicular germ cells, whereas epididymal sperm contain only ADAM1b on the plasma membrane. In this study, we show that the loss of ADAM1a results in the male infertility because of the severely impaired ability of sperm to migrate from the uterus into the oviduct through the uterotubal junction. However, epididymal sperm of ADAM1a-deficient mice were capable of fertilizing cumulus-intact, zona pellucida-intact eggs in vitro despite the delayed dispersal of cumulus cells and the reduced adhesion/binding to the zona pellucida. Among testis (sperm)-specific proteins examined, only the level of ADAM3 (cyritestin) was strongly reduced in ADAM1a-deficient mouse sperm. Moreover, the appearance of ADAM3 on the sperm surface was dependent on the formation of a fertilin protein complex between ADAM1a and ADAM2 (fertilin ␤) in testicular germ cells, although no direct interaction between the fertilin complex and ADAM3 was found. These results suggest that ADAM1a/ADAM2 fertilin may be implicated in the selective transport of specific sperm proteins including ADAM3 from the endoplasmic reticulum of testicular germ cells onto the cell surface. These proteins then can participate in sperm migration into the oviduct, the dispersal of cumulus cells, and sperm binding to the zona pellucida.

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Identification of a hyaluronidase, Hyal5, involved in penetration of mouse sperm through cumulus mass

Kim

Baba

Kimura

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

118

171

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A glycosylphosphatidylinositol (GPI)-anchored hyaluronidase, PH-20, on the sperm surface has long been believed to assist sperm penetration through the cumulus mass surrounding the eggs. However, mouse sperm lacking PH-20 were still capable of penetrating the cumulus mass despite a delayed dispersal of cumulus cells. Intriguingly, a 55-kDa hyaluronan-hydrolyzing protein was abundantly present in wild-type and PH-20-deficient mouse sperm. In this study, we purified the 55-kDa mouse protein from soluble protein extracts released from epididymal sperm by acrosome reaction and identified as a hyaluronidase, Hyal5.

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Mouse Sperm Lacking ADAM1b/ADAM2 Fertilin Can Fuse with the Egg Plasma Membrane and Effect Fertilization

Kim¹,

Yamashita

Nakanishi

et al. 2006

Journal of Biological Chemistry

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Fertilin, a heterodimeric protein complex composed of ␣ (ADAM1) and ␤ (ADAM2) subunits on the sperm surface, is believed to mediate adhesion and fusion between the sperm and egg plasma membranes. Here we have shown that mutant male mice lacking ADAM1b are fertile and that the loss of ADAM1b results in no significant defect in sperm functions such as migration from the uterus into oviduct, binding to egg zona pellucida, and fusion with zona pellucida-free eggs. ADAM1b-deficient epididymal sperm showed a severe reduction of ADAM2 on the cell surface, despite the normal presence of ADAM2 in testicular germ cells. The appearance of ADAM1b and ADAM2 on the sperm surface depended on formation and abundance of ADAM1b/ADAM2 fertilin in testicular germ cells. These results suggest that mouse ADAM1b/ADAM2 fertilin may play a crucial role not in the sperm/ egg fusion but in the appearance of these two ADAMs on the sperm surface.

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

Kimura

Kim

Kang

et al. 2009

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Although sperm entry into the oocyte-cumulus complex and subsequent sperm penetration through the cumulus matrix to reach the oocyte zona pellucida are essential for mammalian fertilization, the molecular mechanism remains controversial. Previously, we have shown that mouse sperm lacking SPAM1 are capable of penetrating the cumulus matrix despite a delayed dispersal of cumulus cells. We also have identified another sperm hyaluronidase, HYAL5, as a candidate enzyme involved in sperm penetration through the cumulus. In the present study, we produced HYAL5-deficient mice to uncover the functional roles of HYAL5 and SPAM1 in fertilization. The HYAL5-deficient mice were fully fertile and yielded normal litter sizes. In vitro fertilization assays demonstrated that HYAL5-deficient epididymal sperm is functionally normal. We thus conclude that HYAL5 may be dispensable for fertilization. Comparative analysis among wild-type, HYAL5-deficient, and SPAM1-deficient epididymal sperm revealed that only SPAM1 is probably involved in sperm penetration through the cumulus matrix. Notably, the loss of SPAM1 resulted in a remarkably increased accumulation of sperm on the surface or outer edge of the cumulus. These data suggest that SPAM1 may function in sperm entry into the cumulus and sperm penetration through the cumulus matrix.

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Structural modifications of outer membrane vesicles to refine them as vaccine delivery vehicles

Kim

Lee

et al. 2009

Biochimica et Biophysica Acta (BBA) - Biomembranes

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In an effort to devise a safer and more effective vaccine delivery system, outer membrane vesicles (OMVs) were engineered to have properties of intrinsically low endotoxicity sufficient for the delivery of foreign antigens. Our strategy involved mutational inactivation of the MsbB (LpxM) lipid A acyltransferase to generate OMVs of reduced endotoxicity from Escherichia coli (E. coli) O157:H7. The chromosomal tagging of a foreign FLAG epitope within an OmpA-fused protein was exploited to localize the FLAG epitope in the OMVs produced by the E. coli mutant having the defined msbB and the ompA::FLAG mutations. It was confirmed that the desired fusion protein (OmpA::FLAG) was expressed and destined to the outer membrane (OM) of the E. coli mutant from which the OMVs carrying OmpA::FLAG are released during growth. A luminal localization of the FLAG epitope within the OMVs was inferred from its differential immunoprecipitation and resistance to proteolytic degradation. Thus, by using genetic engineering-based approaches, the native OMVs were modified to have both intrinsically low endotoxicity and a foreign epitope tag to establish a platform technology for development of multifunctional vaccine delivery vehicles.

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Sperm penetration through cumulus mass and zona pellucida

Kim¹,

Yamashita²,

Kimura³

et al. 2008

Int. J. Dev. Biol.

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Mammalian fertilization requires sperm to penetrate the cumulus mass and egg zona pellucida prior to fusion with the egg. Although sperm penetration through these physical barriers is essential, the molecular mechanism has not yet been completely elucidated. In addition to sperm motility, hyaluronan-hydrolyzing and proteolytic enzymes of sperm have been suggested to participate in the penetration events. Here we focus on the functional roles of hyaluronidase and protease in sperm passage through the cumulus mass and zona pellucida.

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Differential localization of ADAM1a and ADAM1b in the endoplasmic reticulum of testicular germ cells and on the surface of epididymal sperm

Kim

Nishimura

Baba

2003

Biochemical and Biophysical Research Communications

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Implication of mouse Vps26b–Vps29–Vps35 retromer complex in sortilin trafficking

Kim

Lee

et al. 2010

Biochemical and Biophysical Research Communications

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Ekyune Kim

Possible Function of the ADAM1a/ADAM2 Fertilin Complex in the Appearance of ADAM3 on the Sperm Surface

Identification of a hyaluronidase, Hyal5, involved in penetration of mouse sperm through cumulus mass

Mouse Sperm Lacking ADAM1b/ADAM2 Fertilin Can Fuse with the Egg Plasma Membrane and Effect Fertilization

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

Structural modifications of outer membrane vesicles to refine them as vaccine delivery vehicles

Sperm penetration through cumulus mass and zona pellucida

Differential localization of ADAM1a and ADAM1b in the endoplasmic reticulum of testicular germ cells and on the surface of epididymal sperm

Implication of mouse Vps26b–Vps29–Vps35 retromer complex in sortilin trafficking

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