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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

The blood-testis barrier and blood vessel permeability in rat testis

Tao, Lian. January 1994 (has links) (PDF)
Bibliography: leaves 150-183. Considers the tubule and capillary barriers from the point of view of anatomy, physiological function and possible factors which may cause the tubule barrier to be breached or influence substance exchange across the capillary wall.
2

Drug transporters and blood-testis barrier dynamics

Su, Linlin., 苏琳琳. January 2011 (has links)
published_or_final_version / Biological Sciences / Doctoral / Doctor of Philosophy
3

Blood testis barrier: its biology and significance in spermatogenesis

Mok, Ka-wai., 莫嘉維. January 2012 (has links)
Spermatogenesis takes place in the seminiferous epithelium and it is a tightly regulated process that produces spermatozoa from spermatogonia. During spermatogenesis, germ cells have to traverse the seminiferous epithelium, from basal to adluminal compartment and finally reach the luminal edge of the seminiferous tubules at spermiation. During the transit of germ cells, they have to get across the blood-testis barrier (BTB), which is formed by adjacent Sertoli cells. Thus, although BTB is considered as one of the tightest blood-tissue barrier, the BTB undergoes cyclic restructuring to “open” transiently for the translocation of germ cells. However, the integrity of the BTB has to remain intact as the BTB is essential for the developing germ cells behind the barrier. For example, the BTB serves as an immunological barrier to “seal” developing germ cells from the systemic circulation. Since how the BTB restructuring is regulated remains elusive, the study herein aims to provide some information regarding to this events. The importance of the BTB to spermatogenesis was demonstrated by treating rats with 50 (lowdose) or 250 mg/kg b.w (high-dose) of adjudin. Although the BTB of rats was perturbed in both groups at week 6 post treatment, as shown by an in vivo BTB functional assay, the BTB of the low-dose group was found to have “resealed” at week 20 whereas the BTB of the high-dose group remained disrupted. Besides, despite almost all germ cells were depleted in both group of rats upon week 2 post treatment, spermatogonia were still present in the testis of rats no matter high- or low-dose of adjudin was used. However, spermatogenesis only recovered in low-dose treated group, which have an intact BTB. This suggests that after spermatogenesis is disrupted, its regeneration of spermatogenesis needs more than the existence of spermatogonia in which an intact BTB is required. After demonstrating the necessity of the BTB for spermatogenesis, the next question I addressed was how its restructuring was modulated. The involvement of mammalian target of rapamycin (mTOR) in manipulating the BTB was investigated. mTOR is able to form two distinct signaling complexes namely mTOR complex 1 (mTORC1) or mTORC2 by assembling with raptor or rictor, respectively. rpS6, which is a downstream molecule of mTORC1 was activated specifically during BTB restructuring and knockdown of rpS6 in cultured Sertoli cells was able to promote the TJ-barrier by inducing deposition of F-actin and BTB proteins at the cell-cell interface, suggesting the role of phosphorylated rpS6 is to “open” the BTB for the transit of spermatocytes. Moreover, the knockdown of rictor led to perturbation of TJ-barrier formed by cultured Sertoli cells via a PKC-α depending actin reorganization, causing internalization of BTB proteins. This indicates mTORC2 is necessary for the maintenance of the BTB and hence the two mTOR complexes work antagonistically to regulate the BTB in which mTORC1 is activated to promote the BTB restructuring while the expression of mTORC2 is essential to sustain the BTB integrity. / published_or_final_version / Biological Sciences / Doctoral / Doctor of Philosophy
4

The blood-testis barrier and blood vessel permeability in rat testis / Lian Tao.

Tao, Lian January 1994 (has links)
Includes bibliographical references (leaves 150-183). / xii, 183 leaves : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Considers the tubule and capillary barriers from the point of view of anatomy, physiological function and possible factors which may cause the tubule barrier to be breached or influence substance exchange across the capillary wall. / Thesis (Ph.D.)--University of Adelaide, Dept. of Animal Sciences, 1994
5

Apoptotic markers in ejaculated human spermatozoa.

Brooks, Nicole Lisa January 2005 (has links)
The role of male germ cell death in spermatogenesis is an important one as it removes dysfunctional or genetically damaged germ cells and is necessary to maintain an optimal germ cell to Sertoli cell ratio. The formation of the bloodtestis barrier requires the elimination of excessive germ cells and a surge of germ cell apoptosis occurs prior to puberty regulating the ratio of germ cells to Sertoli cells. The aim of this study was to evaluate the presence of four apoptotic markers on sperm from patients with various grades of fertility using flow cytometry. Furthermore, any correlations between the apoptotic marker assays and the standard semen analysis results were identified. This study compares early and late parameters of apoptosis with morphological features in spermatozoa in the same samples. The three sample groups were identified as: teratozoospermic [G-pattern] (n=26), teratozoospermic [P-pattern] (n=98) and oligoteratozoospermic [Ppattern] (n=36). Standard semen analysis was conducted on the semen samples according to the WHO guidelines. Four apoptotic marker assays using flow cytometry was applied in this study to examine the apoptotic alterations in ejaculate sperm. These assays included the Annexin-V staining for the determination of phosphatidylserine exposure, APO-Direct to identify DNA fragmentation, caspase-3 to detect expression of this active protease during early apoptosis and Fas expression. For the Annexin-V and caspase-3 assays, statistically significant differences (P&lt / 0.05) were evident between the three groups. No significant differences (P&gt / 0.05) were found between the groups with respect to the APO-Direct assay. A significant difference (P&lt / 0.05) was found when comparing the teratozoospermic [G-pattern] group and the oligoteratozoospermic [P-pattern] group for the Fas assay. A strong positive correlation was evident between the Fas and the caspase-3 assays in the teratozoospermic [G-pattern] group. For the teratozoospermic [P-pattern group] the following positive correlations existed between the APO-Direct and the Fas assays, APO-Direct and caspase-3 assays and between caspase-3 and Fas assays. The only strong positive correlation was between the caspase-3 and APO-Direct assays in the oligoteratozoospermic [P-pattern] group. The presence of spermatozoa showing microscopic features resembling apoptosis has been identified in ten human ejaculate samples per sample group. Electron microscopy was used to identify morphological features of apoptosis in these human sperm samples. Classical apoptosis as observed in diploid cells could be identified in sperm and these included: loose fibrillarmicrogranular chromatin network, presence of vacuoles in the nuclear chromatin, membranous bodies within the vacuoles of the chromatin, partially disrupted nuclear membranes, plasma membrane protuberances and apoptotic bodies containing cytoplasmic vacuoles and dense masses. This study has confirmed that semen samples with abnormal semen parameters exhibit the presence of apoptotic markers in sperm. The identification of apoptotic markers on the sperm suggests that abnormalities occur during their developmental process, however, the exact mechanism thereof remains unclear. These findings may suggest that certain apoptotic markers may be an indicator of abnormal sperm function and possibly indicative of male infertility.
6

Characterization of tight junctions in the testis: implications in male contraception

Chung, Pui-yee, Nancy, 鐘佩儀 January 2000 (has links)
published_or_final_version / Zoology / Master / Master of Philosophy
7

Apoptotic markers in ejaculated human spermatozoa.

Brooks, Nicole Lisa January 2005 (has links)
The role of male germ cell death in spermatogenesis is an important one as it removes dysfunctional or genetically damaged germ cells and is necessary to maintain an optimal germ cell to Sertoli cell ratio. The formation of the bloodtestis barrier requires the elimination of excessive germ cells and a surge of germ cell apoptosis occurs prior to puberty regulating the ratio of germ cells to Sertoli cells. The aim of this study was to evaluate the presence of four apoptotic markers on sperm from patients with various grades of fertility using flow cytometry. Furthermore, any correlations between the apoptotic marker assays and the standard semen analysis results were identified. This study compares early and late parameters of apoptosis with morphological features in spermatozoa in the same samples. The three sample groups were identified as: teratozoospermic [G-pattern] (n=26), teratozoospermic [P-pattern] (n=98) and oligoteratozoospermic [Ppattern] (n=36). Standard semen analysis was conducted on the semen samples according to the WHO guidelines. Four apoptotic marker assays using flow cytometry was applied in this study to examine the apoptotic alterations in ejaculate sperm. These assays included the Annexin-V staining for the determination of phosphatidylserine exposure, APO-Direct to identify DNA fragmentation, caspase-3 to detect expression of this active protease during early apoptosis and Fas expression. For the Annexin-V and caspase-3 assays, statistically significant differences (P&lt / 0.05) were evident between the three groups. No significant differences (P&gt / 0.05) were found between the groups with respect to the APO-Direct assay. A significant difference (P&lt / 0.05) was found when comparing the teratozoospermic [G-pattern] group and the oligoteratozoospermic [P-pattern] group for the Fas assay. A strong positive correlation was evident between the Fas and the caspase-3 assays in the teratozoospermic [G-pattern] group. For the teratozoospermic [P-pattern group] the following positive correlations existed between the APO-Direct and the Fas assays, APO-Direct and caspase-3 assays and between caspase-3 and Fas assays. The only strong positive correlation was between the caspase-3 and APO-Direct assays in the oligoteratozoospermic [P-pattern] group. The presence of spermatozoa showing microscopic features resembling apoptosis has been identified in ten human ejaculate samples per sample group. Electron microscopy was used to identify morphological features of apoptosis in these human sperm samples. Classical apoptosis as observed in diploid cells could be identified in sperm and these included: loose fibrillarmicrogranular chromatin network, presence of vacuoles in the nuclear chromatin, membranous bodies within the vacuoles of the chromatin, partially disrupted nuclear membranes, plasma membrane protuberances and apoptotic bodies containing cytoplasmic vacuoles and dense masses. This study has confirmed that semen samples with abnormal semen parameters exhibit the presence of apoptotic markers in sperm. The identification of apoptotic markers on the sperm suggests that abnormalities occur during their developmental process, however, the exact mechanism thereof remains unclear. These findings may suggest that certain apoptotic markers may be an indicator of abnormal sperm function and possibly indicative of male infertility.
8

Impacts de concentrations supraphysiologiques d'acides biliaires sur la physiologie testiculaire et les fonctions de reproduction / Impact of supra physiological concentrations of bile acids on male reproductive functions and transgenerational inheritance

Baptissart, Marine 12 December 2014 (has links)
Chez l’homme, des données cliniques décrivent une association entre des pathologies hépatiques et des désordres de la fertilité masculine. Plusieurs modèles expérimentaux de cholestase ont permis de confirmer ce lien et de souligner un impact sur la physiologie testiculaire. De manière intéressante, une telle corrélation existe aussi bien à l’âge adulte que dans des modèles animaux en période pré-pubertaire. Pour autant, le lien moléculaire pouvant expliquer cette association physiopathologique n’a pas été exploré. L’ensemble des hépatopathies a pour dénominateur commun une augmentation des taux plasmatiques d’acides biliaires et ce dès les stades les plus précoces de la maladie. Dans ce contexte, l’hypothèse de l’impact délétère des acides biliaires sur la fonction reproductrice reste à définir. Notre projet de recherche s’articule autour de l’analyse d’un modèle murin d’atteinte hépatique induite par un régime supplémenté en acide cholique. Nos résultats principaux montrent que : 1) lors d’une exposition pubertaire, l’activation supra-physiologique des signalisations Fxrα conduit à un défaut de maturation sexuelle associé à une altération de la fonction endocrine du testicule ; 2) dans un contexte d’exposition à l’âge adulte, l’activation excessive du récepteur membranaire Tgr5 par les acides biliaires est associées à une hypofertilité. Celle-ci s’accompagne d’une altération de la spermatogenèse consécutive à un détachement progressif de l’épithélium séminifère et à une apoptose spécifique des spermatides ; 3) enfin, nos conclusions démontrent pour la première fois l’impact transgénérationnel de l’exposition aux acides biliaires. Sur deux générations successives, les descendants des mâles adultes nourris par un régime supplémenté en acide cholique présentent des anomalies développementales et métaboliques. Dépendantes de l’action de Tgr5, ces dernières sont attribuées à des altérations de l’épigénome des spermatozoïdes issus des mâles exposés aux acides biliaires. En conclusion, nos données démontrent que, dans des conditions cholestatiques, les acides biliaires altèrent les fonctions de reproduction notamment par leurs impacts sur les fonctions testiculaires. Au regard du nombre croissant de personnes souffrant de troubles hépatiques, ces effets délétères des acides biliaires pourraient contribuer à l’augmentation de l’incidence de l’infertilité masculine. Des molécules agonistes des signalisations FXRα et TGR5 sont aujourd’hui envisagées dans le cadre du traitement de pathologies courantes de notre société. Dans ce contexte, notre étude permettra d’alerter les instances sanitaires quant aux conséquences de l’accès à de tels traitements sur la fertilité et la santé des générations futures. / Clinical data describe an association between liver diseases and disorders of male fertility. Several experimental models of cholestasis have confirmed this link and highlight an impact on testicular physiology. Interestingly, such correlation exists in adult as well as in during pre-pubertal animals. However, the molecular links have not been explored yet. The increase of plasma bile acids levels is a common feature of liver diseases. In this context, the hypothesis of the deleterious impact of bile acids on reproductive function remains to be defined. For that purpose, we used a mouse model of liver injury induced by a diet supplemented with cholic acid. Main results show that: 1) supra-physiological activation of Fxra, during pubertal period, alters endocrine function of the testis and then sexual maturation. 2) during adult age excessive activation of membrane receptor TGR5 by bile acids leads to subfertility. This is associated with impaired spermatogenesis due to a detachment of the seminiferous epithelium and specific apoptosis of spermatids. 3) Finally, we show for the first time the transgenerational impact of bile acid exposure. Two generations of progenies from males exposed to bile acid-diet show developmental and metabolic abnormalities. These effects, mediated by TGR5, are correlated with alterations of the spermatozoa epigenome. In conclusion, our data demonstrate that bile acids affect reproductive functions with impacts on testicular functions. In line with the increasing number of people with liver diseases, the deleterious effects of bile acids may contribute to the incidence of male infertility. Interestingly, agonists of FXRα and TGR5 are now considered in the treatment of several diseases. In this context, our study might alert health authorities regarding the potential consequences of these treatments on fertility and health futures generations.

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