Yu-Wen Kuo scite author profile

Yu-Wen Kuo

4Publications

41Citation Statements Received

249Citation Statements Given

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Affiliations

Swedish University of Agricultural Sciences, National Taiwan University

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Roles of the reproductive tract in modifications of the sperm membrane surface

Kuo

Maeda

et al. 2016

Journal of Reproduction and Development

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Successful fertilization requires viable and functional spermatozoa to recognize and fuse with the oocyte. In most mammalian species, mature spermatozoa are not capable of fertilizing the oocytes immediately after ejaculation. However, unlike somatic cells, spermatozoa, after leaving the testis, are transcriptionally and translationally silent; therefore, upon completion of spermiogenesis, spermatozoa carry only a minimal amount of essential proteins on their membranes as well as within their restricted volume of cytoplasm. To develop into a fully functional and competent sperm that is capable of successful fertilization, modifications of the sperm membrane surface during its transit in the reproductive tracts is critical. These post-spermatogenesis modifications advance the maturation of epididymal spermatozoa. In addition, components secreted into the lumen of the reproductive tracts that are later added onto the sperm membrane surface also regulate (inhibit or activate) the functions of the spermatozoa. This acquisition of additional proteins from the reproductive tracts may compensate for the inactivity of morphologically mature spermatozoa. In this review, we discuss the contributions of the male and female genital tracts to modifications of the sperm membrane surface at different stages of fertilization.

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Identification, characterization and purification of porcine Quiescin Q6-Sulfydryl Oxidase 2 protein

et al. 2017

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BackgroundPost-spermiogenesis membrane surface modifications rely on molecules present in the reproductive tracts. Two isoforms (isoform 1 and 2) from Quiescin Q6-Sulfydryl Oxidase protein family have been identified in the male reproductive tract of rodent species. However, unlike isoform 1, scarce information is available for isoform 2, likely due to its lower expression level and lack of proper purification methods to obtain sufficient protein quantity for further assays.ResultsThis study demonstrated the presence of short and long forms of Quiescin Q6-Sulfydryl Oxidase 2 in boar, likely representing the secretory (short form) and transmembrane (long form) forms of Quiescin Q6-Sulfydryl Oxidase 2. Immunohistochemistry studies revealed the presence of Quiescin Q6-Sulfydryl Oxidase 2 in a broad range of porcine tissues; the pronounced vesicle-contained Quiescin Q6-Sulfydryl Oxidase 2 at the apical region of epididymis and seminal vesicles epithelium suggested its involvement in sperm physiology and its participation in semen formation. The majority of porcine Quiescin Q6-Sulfydryl Oxidase 2 could be purified via either antibody affinity column or be salted out using 10%–40% ammonium sulfate. Higher amount of low molecular weight Quiescin Q6-Sulfydryl Oxidase 2 observed in the seminal vesicle likely represents the secretory form of Quiescin Q6-Sulfydryl Oxidase 2 and reflects an exuberant secretory activity in this organ.ConclusionsWe demonstrated for the first time, the presence of Quiescin Q6-Sulfydryl Oxidase 2 in porcine species; moreover, two forms of Quiescin Q6-Sulfydryl Oxidase 2 were identified and exhibited distinct molecular weights and properties during protein purification processes. This study also provided feasible Quiescin Q6-Sulfydryl Oxidase 2 purification methods from slaughterhouse materials that could potentially allow obtaining sufficient amount of Quiescin Q6-Sulfydryl Oxidase 2 for future functional investigations.

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Secretory mouse quiescin sulfhydryl oxidase 1 aggregates defected human and mouse spermatozoa in vitro and in vivo

et al. 2021

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Summary A flavin-dependent enzyme quiescin Q6 sulfhydryl oxidase 1 (QSOX1) catalyzes the oxidation of thiol groups into disulfide bonds. QSOX1 is prominently expressed in the seminal plasma. However, its role in male reproduction is elusive. Here, we purified the secreted form of QSOX1, i.e., QSOX1c, from mouse seminal vesicle secretions and revealed for the first time its function involved in sperm physiology. Exogenous addition of QSOX1c time-dependently promoted the in vitro aggregation of thiol-rich, oxidative stressed, and apoptotic mouse and human sperm cells. Also, in vivo aggregated sperm cells collected from mouse uterine and human ejaculates also showed high levels of QSOX1c, intracellular reactive oxygen species, annexin V, and free thiols. In summary, our studies demonstrated that QSOX1c could agglutinate spermatozoa susceptible to free radical attack and apoptosis. This characteristic may provide an opportunity to separate defective sperm cells and improve sperm quality before artificial insemination in humans and animals.

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Arginine Vasopressin Promotes Redistribution of Adhesion Junction Protein E-Cadherin in Kidney Epithelial Cells

et al. 2017

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Acute and chronic kidney disease are two of the most commonly diagnosed kidney dysfuctions in both human and companion animals. The characteristics of an injured kidney include an increase of blood urea nitrogen, serum creatinine and a decrease of glomerular¯ltration rate. At the cellular level, in¯ltration of in°ammatory cells, disruption of kidney epithelial cell lining and increased amount of type IV collagen have all been reported. Retrospective studies from human patients revealed a positve correlation between higher level of serum vasopressin and disease progression; however, the actual mechanism underlying vasopressin e®ect on kidney disease progression remains to be elucidated. In this study, we demonstrated that arginine vasopressin not only stimulates the de-polymerization of F-actin, but also promotes redistribution of adhesion junction protein E-Cadherin which is likely to be respoinsible for the lost of regular epithelial cell polarity in kidney tubules. Our data supported the detrimental e®ects of vasopressin on kidney epithelial cells and provided evidences on the potential cause and consequence relationship between patients with higer serum vasopressin concentration with the accelerated kidney tubule disruption.

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Yu-Wen Kuo

Roles of the reproductive tract in modifications of the sperm membrane surface

Identification, characterization and purification of porcine Quiescin Q6-Sulfydryl Oxidase 2 protein

Secretory mouse quiescin sulfhydryl oxidase 1 aggregates defected human and mouse spermatozoa in vitro and in vivo

Arginine Vasopressin Promotes Redistribution of Adhesion Junction Protein E-Cadherin in Kidney Epithelial Cells

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