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Sodium ion transporters in sperm: Epigenetic regulation of the sperm-specific alpha4 Na,K-ATPase and role of the epithelial sodium channel alpha in sperm physiologyKumar, Deepti Lava 06 May 2014 (has links)
No description available.
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Seasonal differences in semen characteristics and sperm functionality in Tankwa goatsNgcauzele, Asanele January 2018 (has links)
Magister Scientiae (Medical Bioscience) - MSc(MBS) / Tankwa goats have been free-ranging in the Tankwa Karoo National Park in the Northern Cape for more than 80 years. A genetic study concluded that these feral goats are a unique genetic resource compared to other goat breeds in South Africa and should be conserved as a distinctive population. A decision taken by the South African National Parks who is the managing authority in the park, was to remove all alien species, which included the Tankwa goats. Several animals were translocated to the Carnarvon Research Station by the Northern Cape Department of Agriculture, Land Reform & Rural Development, where the Tankwa goat population has grown to a few hundred individuals. Currently, sound scientific decisions including the application of a wide range of technologies and approaches are applied to conserve the population, such as an informed understanding of the reproductive biology of these goats. The aim of this study was to define sperm quality in Tankwa goats using various macroscopic and microscopic evaluation techniques.
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MACS (Magnetic Activated Cell Sorting) antes ou após a centrifugação em gradiente de densidade para o preparo seminal / Magnetic Activated Cell Sorting before or after the density gradient for the seminal preparedBerteli, Thalita Souza 13 March 2017 (has links)
Estudos recentes avaliaram o papel do Magnetic Activated cell Sorting (MACS, separação celular por ativação magnética) para reduzir a percentagem de espermatozoides apoptóticos e melhorar a qualidade seminal. No entanto, a eficiência do uso do MACS isoladamente, antes ou depois do processamento seminal pelos métodos clássicos, como o centrifugação em gradiente de densidade (DGC), ainda não foi estabelecida, de modo que o protocolo de uso do método não foi adequadamente estabelecido. Desta forma, o objetivo do presente estudo foi avaliar se o MACS sozinho, antes (MACS-DGC) ou depois do processamento seminal pelo DGC (DGC-MACS) melhora a seleção espermática quando comparado ao processamento pelo DGC. Realizou-se um estudo prospectivo experimental avaliando amostras de sêmen de 15 homens saudáveis. A mesma amostra foi dividida em 4 alíquotas e processada por: DGC, DGC-MACS, MACS-DGC e MACS. Após o processamento, foram analisadas a integridade do DNA espermático pelo método TUNEL - TdT-mediated dUTP Nick End Labeling (marcação de quebras no DNA por dUTP e deoxinucleotidil terminal transferase) assim como a concentração de espermatozoides, a motilidade progressiva e a morfologia, segundo os últimos critérios adotados pela Organização Mundial da Saúde. A percentagem de dano ao DNA foi significativamente menor no grupo MACSDGC, quando comparado com DGC e MACS, e semelhante a do grupo DGC-MACS. A concentração de espermatozoides recuperados nos grupos de DGC e MACS foi similar e significativamente maior do que MACS-DGC e DGC-MACS, que foram semelhantes entre si. A motilidade progressiva dos espermatozoides recuperados foi semelhante nos grupos MACS-DGC e DGC e significativamente maior do que nos grupos DGC-MACS e MACS. O percentual de espermatozoides com morfologia normal foi significativamente maior no grupo MACS-DGC quando comparado ao DGC-MACS e MACS, e semelhante quando comparado com DGC. Desta forma, evidenciou-se que ambos os métodos combinados promovem a recuperação de espermatozoides com menor percentagem de dano ao DNA espermático. O MACS isoladamente ou aplicado após o DGC promove redução significativa dos espermatozoides progressivos recuperados, assim como da percentagem de espermatozoides com morfologia normal. Todavia, o MACS aplicado antes do DGC promove a recuperação de amostras com elevada percentagem de espermatozoides com motilidade progressiva e morfologia normal, aliada a baixa percentagem de DNA fragmentado, sugerindo ser o melhor protocolo de uso desta metodologia, cuja importância clínica precisa ser avaliada em estudos clínicos bem delineados. / Recent studies evaluated the role of Magnetic Activated Cell Sorting (MACS) in order to reduce the percentage of apoptotic sperm and improve seminal quality. However, the effectiveness of using MACS alone, before or after seminal processing by classical methods, such as the density gradient centrifugation (DGC), has not yet been established. Thus, the role of the present study was evaluate whether: MACS alone, before (MACS-DGC) or after seminal processing by DGC (DGC-MACS) improves sperm selection when compared to DGC. A prospective experimental study was conducted evaluating semen samples from 15 healthy men. The same sample was divided into 4 aliquots and processed by: DGC, DGC-MACS, MACS-DGC and MACS. After processing, the integrity of the sperm DNA was analyzed by TUNEL - TdT - mediated dUTP method Nick End Labeling (marking DNA breaks by dUTP and deoxynucleotidyl terminal transferase), sperm concentration, progressive motility and morphology according to the last criteria adopted by the World Health Organization. The percentage of DNA damage was significantly lower in the MACS-DGC group, when compared to DGC and MACS, and similar to the DGC-MACS group. The concentration of spermatozoa recovered in the DGC and MACS groups was similar and significantly higher than MACS-DGC and DGC-MACS, which were similar to each other. The progressive motility was similar in the MACS-DGC and DGC groups and significantly higher than in the DGC-MACS and MACS groups. The percentage of spermatozoa with normal morphology was significantly higher in the MACS-DGC group when compared to DGC-MACS and MACS, and similar when compared to DGC. Thus, it was evidenced that both methods combined promote the recovery of spermatozoa with a lower percentage of DNA damage. MACS alone or applied after the DGC promotes a significant reduction of the progressive sperm retrieved, as well as the percentage of spermatozoa with normal morphology. However, the MACS applied before the DGC promotes the recovery of samples with a higher percentage of spermatozoa with progressive motility and normal morphology, combined with low percentage of fragmented DNA, suggesting to be the best protocol, whose clinical importance needs to be evaluated in well-delineated clinical studies.
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Evaluation of sperm functionality in non-human primates, focussing on sperm capacitationMabotha, Luke Allen January 2019 (has links)
Magister Scientiae (Medical Bioscience) - MSc(MBS) / The incidence of male infertility is increasing, with up to 50% of infertile males having “unexplained” (idiopathic) infertility. Newly developed molecular techniques have great value in detecting subtle causes of male infertility, as compared to idiopathic infertility which may be explained by standardizing and optimizing sperm functional and structural tests in non-human primate (NHP) sperm. The aim of the study was to evaluate sperm functionality utilizing the sperm of two NHP species, i.e.1) the rhesus monkey (Macaca mulatta) and 2) the vervet monkey (Chlorocebus aethiops), and further evaluate the effect of physiological media (including commonly used, and newly formulated sperm wash and sperm capacitating media) on NHP sperm functionality. Sperm functionality was evaluated by investigating the following sperm functions i.e.: sperm motility, vitality, acrosome reaction (AR), hyperactivation, and mitochondrial membrane potential (MMP). Sperm functional tests included computer-aided semen analysis (CASA), motility analysis, BrightVit staining for sperm vitality, flourescenin isothiocyanate (FITC)- conjugated peanut agglutinin (PNA) staining for sperm acrosome integrity, induction of hyperactivation by stimulants (sperm preparation media containing capacitating ingredients), and mitochondrial inhibitor (Oligomycin-A) for testing MMP. All functional and structural tests were investigated in both species, except for acrosome integrity, mitochondrial inhibition and functional tests compared over time that could not be successfully completed and investigated in the rhesus species. Motility analysis tests proved that within the vervet species, the use of different physiological media results in statistically significant differences in motility and kinematic parameters over a 1 hour time period. Hyperactivation tests proved that capacitating physiological media produced significantly higher percentages hyperactivation when compared to sperm wash media within the vervet species over a 1 hour time period. Furthermore, within both NHP species, sperm structural analysis (vitality and acrosome integrity) results showed that no significant differences are present when making use of different physiological media over a period of 1 hour incubation. The incubation of vervet sperm with different concentrations of mitochondrial inhibitor, Oligomycin-A (0 μM, 5 μM, and 25 μM), resulted in motility inhibition over a 1 hour incubation period. By the evaluation of these tests it was found that the use of different sperm wash [Human tubal fluid (HTF), Ham‟s F-10® and HD Sperm Wash Plus (HDSWP)] and sperm capacitation media [Human tubal fluid with added caffeine (HTFC) and HD Sperm Capacitating Plus (HDSCP)] resulted in significantly different results within sperm functional tests as compared to sperm structural tests. The study indicates that the composition of media, varying from simple to more complex, used for semen preparation plays an important role in determining NHP sperm functionality. Based on these findings further investigation in larger NHP sample groups and human sperm are required to evaluate the role of certain ingredients in the development of more cost-effective media producing satisfactory results in terms of sperm functionality for artificial reproductive technologies (ART).
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Die Rolle des Glucosetransporters 8 (Slc2a8) in der Regulation der Glucosehomöostase, der Spermienmotilität sowie des Verhaltens / The physiological role of glucose transporter 8 (Slc2a8) in regulation of glucose homeostasis, sperm motility and behaviorBehrens, Verena January 2009 (has links)
Der ubiquitär exprimierte, multifunktionale Glucosetransporter GLUT8 gehört zur Klasse III der Familie der passiven Glucosetransporter, die aus insgesamt 14 Proteinen besteht. Die fünf Mitglieder der Klasse IIII unterscheiden sich strukturell leicht von den Mitgliedern der Klasse I und II (Joost und Thorens, 2001). GLUT8 besitzt ein N-terminales Dileucin-Motiv, das Teil eines [DE]XXXL[LI] Motivs ist, welches für die Sortierung des Transporters in späte Endosomen und Lysosomen verantwortlich ist (Augustin et al., 2005). Da bis heute kein Signal identifiziert wurde, das eine Translokation des Transporters zur Plasmamembran auslöst, wird eine intrazelluläre Funktion von GLUT8 vermutet (Widmer et al., 2005). Im Rahmen der vorliegenden Arbeit wurde die intrazelluläre Funktion des Transporters in der Regulation der Glucosehomöostase des Körpers durch Analyse einer Slc2a8-knockout-Maus untersucht.
Die homozygote Deletion des Transporters erbrachte lebensfähige Nachkommen, die sich augenscheinlich nicht von ihren Wildtyp-Geschwistern unterschieden. Allerdings wurde bei Verpaarungen heterozygoter Mäuse eine verminderte Anzahl an Slc2a8-/--Nachkommen beobachtet, die signifikant von der erwarteten Mendel’schen Verteilung abwich. Da Slc2a8 die höchste mRNA-Expression in den Testes aufwies und die Überprüfung der Fertilität mittels verschiedener homozygoter Verpaarungen eine Störung der weiblichen Fortpflanzungsfähigkeit ausschloss, wurden die Spermatozoen der Slc2a8-/--Mäuse eingehender untersucht. Als Ursache für die verringerte Anzahl von Slc2a8-/--Geburten wurde eine verminderte Prozentzahl motiler Slc2a8-/--Spermien ermittelt, die durch eine unzureichende mitochondriale Kondensation in den Spermien bedingt war. Diese Veränderung war mit einem reduzierten mitochondrialen Membranpotential assoziiert, was eine verminderte ATP-Produktion nach sich zog. Somit scheint GLUT8 in den Spermien an einem intrazellulären Transportprozess beteiligt zu sein, der einen Einfluss auf die oxidative Phosphorylierung der Mitochondrien ausübt.
Im Gehirn wurde Slc2a8 besonders stark im Hippocampus exprimiert, der in der Regulation von körperlicher Aktivität, Explorationsverhalten, Erinnerungs- und Lernprozessen sowie Angst- und Stressreaktionen eine Rolle spielt. Außerdem wurde GLUT8 im Hypothalamus nachgewiesen, der unter anderem an der Regulation der Nahrungsaufnahme beteiligt ist. Die Slc2a8-/--Mäuse zeigten im Vergleich zu ihren Slc2a8+/+-Geschwistern eine signifikant gesteigerte körperliche Aktivität, die zusammen mit der von Membrez et al. (2006) publizierten erhöhten Zellproliferation im Hippocampus auf eine Nährstoffunterversorgung dieses Areals hindeutet. Die Nahrungsaufnahme war in Abwesenheit von GLUT8 nicht verändert, was zusammen mit dem nur geringfügig niedrigeren Körpergewicht der Slc2a8-/--Mäuse eine Funktion von GLUT8 im Glucose-sensing der Glucose-sensitiven Neurone des Gehirns ausschließt.
Das leicht reduzierte Körpergewicht der Slc2a8-/--Mäuse ließ sich keinem bestimmten Organ- oder Gewebetyp zuordnen, sondern schien durch eine marginale Gewichtsreduktion aller untersuchten Gewebe bedingt zu sein. Zusammen mit den erniedrigten Blutglucosespiegeln und der anscheinend gesteigerten Lebenserwartung zeigten die Slc2a8-/--Mäuse Symptome einer leichten Nährstoffunterversorgung. GLUT8 scheint daher am Transport von Zuckerderivaten, die während des lysosomalen/endosomalen Abbaus von Glykoproteinen anfallen, beteiligt zu sein. Die so wiederaufbereiteten Zucker dienen dem Körper offenbar als zusätzliche Energiequelle. / The family of facilitative glucose transporters consists of 14 different members in human, which are divided into three classes (Joost and Thorens, 2001). The class III family member GLUT8 contains an amino-terminal dileucine sorting signal, which is part of the highly conserved [DE]XXXL[LI] motif responsible for the localization of GLUT8 in lysosomes and late endosomes (Augustin et al., 2005). To date there is no stimulus known, which translocates the transporter to the plasma membrane, therefore an intracellular function rather than at the cell surface is considered (Widmer et al., 2005). The aim of the present dissertation was to analyze the intracellular role of GLUT8 in the regulation of whole body glucose homeostasis, by the characterization of the corresponding knockout mice (Slc2a8-/-).
Slc2a8-/- mice were viable and showed no obvious disparity to their wild-type littermates. However, analysis of the offspring distribution of heterozygous mating provided a reduced number of born Slc2a8-/- offspring which differed significantly from the expected Mendelian distribution. Because Slc2a8 mRNA is expressed at highest levels in the testis and the female Slc2a8-/- mice showed no alterations in fertility, we further investigated the function of Slc2a8-/- spermatozoa. An impaired mitochondrial condensation in the Slc2a8-/- spermatozoa, which was associated with decreased ATP levels resulted in a reduced number of motile Slc2a8-/- sperm, which appeared to be responsible for the reduced number of born Slc2a8-/- offspring. Therefore in sperm cells GLUT8 seems to be important for an intracellular transport process, which exerts an influence on the oxidative phosphorylation in the mitochondria.
In the brain Slc2a8 is expressed at highest levels in the hippocampus, which is important for the regulation of physical activity, exploration behaviour, memory and learning as well as anxiety related behaviour. Additionally, GLUT8 was detected in the hypothalamus, which is amongst others involved in the regulation of food intake. The Slc2a8-/- mice showed a significant increase in locomotor activity, which indicates a moderate undersupply of the hippocampus area. According to this finding the group of Membrez et al. (2006) observed a raised cell proliferation in the hippocampus of Slc2a8-/- mice. The fact that no alterations in food intake and only a moderate reduction in body weight was detected in Slc2a8-/- mice, indicates that GLUT8 is not important for the hypothalamic glucose sensing.
The marginal decreased body weight of the Slc2a8-/- mice appeared to be associated with a slightly reduced weight of different tissues. Together with the lowered blood glucose concentrations and the apparently enhanced lifespan, the Slc2a8-/- mice showed symptoms of a moderate undersupply compareable to caloric restriction. Thus, we hypothesize that GLUT8 is important for the transport of sugar derivatives which arise during lysosomal/endosomal degradation of glycoproteins. These recycled sugars may serve as an additional energy source in the cell.
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Comparison of Methods for Assessing Viability of Equine Spermatozoa and Effects of Seminal Plasma on Viability and Motion Characteristics of Equine SpermatozoaFoster, Mary L. 2009 December 1900 (has links)
Assessment of sperm viability is an important component for evaluating
stallion sperm quality. The flow cytometer is considered the standard in the
assessment of sperm plasma membrane integrity (viability); however, this
instrument is costly to purchase and use, and it requires an experienced
technician to operate it. The growing practice of assisted reproductive
technologies (ARTs) in the equine industry has increased the need for an
accurate but cost-effective means of determining sperm membrane viability.
The NucleoCounter® SP-100TM is reported to be an accurate, easy-to-perform,
and an efficient stallion-side test for sperm membrane viability.
To evaluate usefulness of the NucleoCounter® SP-100TM for assessing
sperm membrane integrity, neat semen was subjected to four treatments with
varying seminal plasma volumes and sperm concentrations. Sperm membrane
viability was assessed immediately, and at 24 and 48 hours after cooled-storage
using three methods: 1) flow cytometer utilizing the fluorescent vital stains SYBR-14/propidium iodide; 2) NucleoCounter® SP-100TM utilizing the
fluorescent vital stain propidium iodide; 3) eosin-nigrosin stained air-dried
smears of semen. Sperm motion characteristics (total and progressive motility)
were assessed using a computer assisted sperm motion analyzer (CASMA) and
results were compared to sperm membrane viability to determine the
relationship between sperm membrane viability and motion characteristics.
Results were compared statistically by: 1) analysis of variance (ANOVA); 2)
linear regression analysis; 3) coefficient of variation on untransformed and
transformed data (arc sine square root); and 3) the agreement of two
instruments, by means of which the difference between measurements of the
two instruments were plotted on the y-axis and the average of measurements
from the two instruments were plotted on the x-axis.
Results obtained with the NucleoCounter® SP-100TM agreed best with the
flow cytometer, and least with eosin-nigrosin staining. Coefficients of variation
were ≤ 5% for the three methods (transformed data). Sperm motion
characteristics and sperm viability were similar among treatments at Time 0. At
Times 24 and 48, sperm motion characteristics decreased at a more significant
rate compared to viability in the treatments containing ≥ 50% seminal plasma,
whereas differences among treatments were only significant at seminal plasma
concentrations above 50% when only sperm membrane viability was
considered.
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MACS (Magnetic Activated Cell Sorting) antes ou após a centrifugação em gradiente de densidade para o preparo seminal / Magnetic Activated Cell Sorting before or after the density gradient for the seminal preparedThalita Souza Berteli 13 March 2017 (has links)
Estudos recentes avaliaram o papel do Magnetic Activated cell Sorting (MACS, separação celular por ativação magnética) para reduzir a percentagem de espermatozoides apoptóticos e melhorar a qualidade seminal. No entanto, a eficiência do uso do MACS isoladamente, antes ou depois do processamento seminal pelos métodos clássicos, como o centrifugação em gradiente de densidade (DGC), ainda não foi estabelecida, de modo que o protocolo de uso do método não foi adequadamente estabelecido. Desta forma, o objetivo do presente estudo foi avaliar se o MACS sozinho, antes (MACS-DGC) ou depois do processamento seminal pelo DGC (DGC-MACS) melhora a seleção espermática quando comparado ao processamento pelo DGC. Realizou-se um estudo prospectivo experimental avaliando amostras de sêmen de 15 homens saudáveis. A mesma amostra foi dividida em 4 alíquotas e processada por: DGC, DGC-MACS, MACS-DGC e MACS. Após o processamento, foram analisadas a integridade do DNA espermático pelo método TUNEL - TdT-mediated dUTP Nick End Labeling (marcação de quebras no DNA por dUTP e deoxinucleotidil terminal transferase) assim como a concentração de espermatozoides, a motilidade progressiva e a morfologia, segundo os últimos critérios adotados pela Organização Mundial da Saúde. A percentagem de dano ao DNA foi significativamente menor no grupo MACSDGC, quando comparado com DGC e MACS, e semelhante a do grupo DGC-MACS. A concentração de espermatozoides recuperados nos grupos de DGC e MACS foi similar e significativamente maior do que MACS-DGC e DGC-MACS, que foram semelhantes entre si. A motilidade progressiva dos espermatozoides recuperados foi semelhante nos grupos MACS-DGC e DGC e significativamente maior do que nos grupos DGC-MACS e MACS. O percentual de espermatozoides com morfologia normal foi significativamente maior no grupo MACS-DGC quando comparado ao DGC-MACS e MACS, e semelhante quando comparado com DGC. Desta forma, evidenciou-se que ambos os métodos combinados promovem a recuperação de espermatozoides com menor percentagem de dano ao DNA espermático. O MACS isoladamente ou aplicado após o DGC promove redução significativa dos espermatozoides progressivos recuperados, assim como da percentagem de espermatozoides com morfologia normal. Todavia, o MACS aplicado antes do DGC promove a recuperação de amostras com elevada percentagem de espermatozoides com motilidade progressiva e morfologia normal, aliada a baixa percentagem de DNA fragmentado, sugerindo ser o melhor protocolo de uso desta metodologia, cuja importância clínica precisa ser avaliada em estudos clínicos bem delineados. / Recent studies evaluated the role of Magnetic Activated Cell Sorting (MACS) in order to reduce the percentage of apoptotic sperm and improve seminal quality. However, the effectiveness of using MACS alone, before or after seminal processing by classical methods, such as the density gradient centrifugation (DGC), has not yet been established. Thus, the role of the present study was evaluate whether: MACS alone, before (MACS-DGC) or after seminal processing by DGC (DGC-MACS) improves sperm selection when compared to DGC. A prospective experimental study was conducted evaluating semen samples from 15 healthy men. The same sample was divided into 4 aliquots and processed by: DGC, DGC-MACS, MACS-DGC and MACS. After processing, the integrity of the sperm DNA was analyzed by TUNEL - TdT - mediated dUTP method Nick End Labeling (marking DNA breaks by dUTP and deoxynucleotidyl terminal transferase), sperm concentration, progressive motility and morphology according to the last criteria adopted by the World Health Organization. The percentage of DNA damage was significantly lower in the MACS-DGC group, when compared to DGC and MACS, and similar to the DGC-MACS group. The concentration of spermatozoa recovered in the DGC and MACS groups was similar and significantly higher than MACS-DGC and DGC-MACS, which were similar to each other. The progressive motility was similar in the MACS-DGC and DGC groups and significantly higher than in the DGC-MACS and MACS groups. The percentage of spermatozoa with normal morphology was significantly higher in the MACS-DGC group when compared to DGC-MACS and MACS, and similar when compared to DGC. Thus, it was evidenced that both methods combined promote the recovery of spermatozoa with a lower percentage of DNA damage. MACS alone or applied after the DGC promotes a significant reduction of the progressive sperm retrieved, as well as the percentage of spermatozoa with normal morphology. However, the MACS applied before the DGC promotes the recovery of samples with a higher percentage of spermatozoa with progressive motility and normal morphology, combined with low percentage of fragmented DNA, suggesting to be the best protocol, whose clinical importance needs to be evaluated in well-delineated clinical studies.
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Role of second generation phosphodiesterase inhibitors on mammalian sperm mobilityMadamidola, Oladipo A. January 2015 (has links)
Over three decades ago, W.H.O. declared infertility as a public health issue; due to its impact on millions of people worldwide. While cases of infertility could be multifactorial (affecting both male and female), 50% of cases are due to male factor infertility and this is mostly characterised by reduced sperm motility (asthenozoospermia). Assisted Reproduction Technology (ART) is the only treatment option available for this condition. Over 20 years ago, non-selective phosphodiesterase inhibitors (PDEi), such as pentoxifylline, were shown to enhance motility of human spermatozoa; however, contradictory results and stimulation of premature acrosome reaction has precluded their clinical use. Advancement in our knowledge have now made it clear that human sperm express several different PDEs and these are compartmentalised at different regions of the cells. By using type-specific phosphodiesterase inhibitors, differential modulation of sperm motility can be achieved without affecting other sperm function such as acrosome reaction. Additionally, by enhancing sperm function through PDE inhibition, there is a possibility of increasing IVF rates. The objective of this thesis is to: (1) examine the effect of phosphodiesterase inhibitors on spermatozoa in order to identify compounds that have clinically relevant enhancement of human sperm motility; (2) identify the signalling pathway(s) involved in the motility enhancing effects of identified compounds by targeting the modulator and mediator of cyclic nucleotides; (3) develop an animal IVF model to assess effects of Ibudilast on fertilization; and (4) optimise high performance liquid chromatography (HPLC) techniques for routine detection of cyclic nucleotides in sperm cells. A two phase drug screening approach was used to systematically and comprehensively screen series of compounds in order to identify those that have clinically relevant enhancement of human sperm motility. In phase 1, 6 compounds (out of 43 compounds) were found to have strong effects on poor motility samples, with magnitude of response ≥60% increase in percentage total motility. Additionally, these compounds significantly enhanced sperm penetration into cervical mucus substitute (p≤0.05), and they did not affect sperm acrosomal integrity nor cause externalisation of phosphatidylserine (p=0.6 respectively). 63% of IVF samples treated with compounds #26, #37 and #38 had significant increase in percentage total motility. For ICSI samples, compounds #26, #37 and #38 were the most effective. In respect to total motility, 88%, 81% and 79% of samples treated with these compounds showed significant increases in total motility, and 94%, 93% and 81% of samples showed significant increases in percentage of progressive cells, respectively. Analysis of the signalling pathways, using PKA, sGC and PKG inhibitors, showed that chosen PDE inhibitors were working predominantly through PKA signalling pathways. Additionally, this study revealed that this pathway is needed for the maintenance of basal progressive motility and hyperactivation in human sperm. Animal IVF studies showed that addition of Ibudilast (compound #26) during sperm-oocyte incubation leads to higher IVF rates. Lastly, this study used an HPLC system to detect cAMP in boar sperm. This was done to explore if HPLC system can be used for high throughput detection of cyclic nucleotides in mammalian sperm.
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Effect of different equilibration periods pre-cryopreservation on post-thaw sperm motility in Nguni and Boran bullsVan Staden, Elizabeth 30 June 2011 (has links)
Compared to natural selection, the use of artificial insemination (AI) and other reproductive technologies rapidly increase the rate of genetic change in any population. In order to achieve success with AI, the semen used to inseminate cows must be of the highest possible quality. When semen is frozen, generally only about 50% of the spermatozoa survive the cryopreservation process. Thus, any factors possibly affecting the survival of spermatozoa through the numerous freezing-thawing steps should be studied, in order to identify the optimal conditions for the survival of spermatozoa. The discovery of protective agents within egg yolk and glycerol was a major milestone in sperm cryopreservation. These agents protect bovine spermatozoa during cooling and freezing procedures and result in increased survival rates. Cryopreservation of spermatozoa has become the most common technique for the preservation of male fertility of genetically superior sires even after their death. Using cryopreserved sperm to artificially inseminate females has become standard practice in commercial dairy cattle herds and the application of this reproductive management tool is also expanding to beef herds worldwide. The use of glycerol as a cryoprotectant for bovine spermatozoa is credited as the reason for the success in bovine semen cryopreservation. The purpose of this research was to quantify the effects of different cooling periods, as well as different glycerol equilibration periods on the post-thaw motility percentages and recovery fractions of semen collected from Boran and Nguni bulls. The research was subdivided into two experiments. In each experiment different cooling and glycerol equilibration times were researched. The first experiment involved shorter cooling times (30, 60, 120 and 240 minutes) with each cooling time followed by several longer equilibration times (4, 5, 6, 7 and 8 h). In the second experiment the cooling and equilibration times from the first experiment were reversed. This resulted in longer cooling times (4, 5, 6, 7 and 8 h) with each cooling time having shorter glycerol equilibration times (30, 60, 120 and 240 minutes). An egg yolk-Tris two-step extender was used in both the experiments. The general trend for the glycerol equilibration periods studied in Experiment 1 was that the resulting overall average post-thaw motility percentage and average recovery fraction increased with longer periods. There was a breed difference when comparing the average post-thaw motility percentages after 4, 5, 6 and 8 h (p<0.05), while the average post-thaw motility percentages also tended to differ after 7 h of equilibration. The general trend observed for equilibration periods used in Experiment 2 was that the average post-thaw motility percentage increased as glycerol equilibration period increased up to 120 minutes, but after 240 minutes of glycerol equilibration, there was a slight decline. The differences in average post-thaw motility percentage after the respective glycerol equilibration periods were not statistically significant. The results of each experiment were used to create a matrix that can be used in practice. The matrix using results from Experiment 1 demonstrated that a cooling period glycerol equilibration period combination of 240 minutes and 7 h resulted in the highest (not significantly different from most other combinations) average post-thaw motility rates. The matrix formed from the results of Experiment 2 demonstrated that an 8 h cooling period combined with a 60 minute glycerol equilibration period yielded the highest (not significantly different from most other combinations), average post-thaw motility percentage. / Dissertation (MSc(Agric))--University of Pretoria, 2010. / Animal and Wildlife Sciences / unrestricted
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Osmotic activation of sperm motility via water flow through aquaporins in the freeze-tolerant Cope's Gray Treefrog, <i>Dryophytes chrysoscelis</i>Miller, Deja 07 September 2018 (has links)
No description available.
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