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Functional Approaches to the Development of Koala Sperm Cryopreservation TechniquesYeng Zee Unknown Date (has links)
The primary objective of the studies described in this thesis was to improve the cryopreservation success of koala spermatozoa for the purpose of establishing a genome resource bank for this species. A defining feature of the studies in this thesis was the implementation of an organelle-specific approach to better understand the causes of koala sperm cryo-injury. The functional attributes of spermatozoa, such as mitochondrial function, plasma membrane fluidity, membrane lipid asymmetry and DNA integrity were assessed as an indication of cryo-injury. Sperm mitochondrial function and plasma membrane integrity were examined by cryomicroscopy using the fluorescent probes JC-1 and propidium iodide (PI) respectively in a dual staining technique. Cooling and re-warming koala spermatozoa were more detrimental to mitochondrial function than to plasma membrane integrity. Mitochondrial membrane potential (MMP) was suppressed by freezing and thawing treatments; after thawing, MMP declined significantly during rewarming (from 5ºC to 35ºC). The distribution of GM1 ganglioside was examined using fluorescent-labelled cholera toxin B. No significant redistribution of GM1 was observed after chilling or cryotreatment. The externalisation of phosphatidylserine (PS) was examined using fluorescent-labelled annexin V. There was no significant increase in translocation of PS after chilling or cryopreservation. These observations imply that cryotreatment had little effect on plasma membrane lipid asymmetry. Koala spermatozoa were incubated in a range of anisotonic media to investigate whether nuclear swelling was caused by osmotic flux during the cryopreservation process. Although the most hypotonic solution tested (64 mOsm/kg) induced the highest incidence of nuclear relaxation (mean ± SEM; 12 ± 3%), this was not as severe as that previously documented following cryopreservation. Chromatin relaxation is a phenomenon observed in koala spermatozoa, where the sperm nucleus expands due to the result of structural changes in the natural conformation of the sperm DNA/protamine complex. DNA fragmentation was not a primary cause of cryopreservation-induced sperm chromatin relaxation, although in situ nick translation of putative DNA breaks indicated that these increased as the sperm head became progressively more relaxed. Using a Sperm Chromatin Dispersion test (SCDt) specifically developed and validated for koala spermatozoa, a continuum of nuclear morphotypes was observed, ranging from no apparent DNA fragmentation to spermatozoa with highly dispersed and degraded chromatin. A double comet assay was also developed to investigate DNA fragmentation in the koala spermatozoa. Conducted under neutral followed by alkaline conditions, this assay was able to differentiate between single- (SSB) and double-stranded (DSB) DNA damage in an effort to refine the interpretation of DNA damage in mature koala spermatozoa; the majority of the koala spermatozoa had nuclei with DNA abasic-like residues. The ubiquity of these residues suggested that constitutive alkali-labile sites are part of the structural configuration of the koala sperm nucleus. Spermatozoa with “true” DNA fragmentation exhibited a continuum of comet morphologies, ranging from a more severe form of alkaline-susceptible DNA, to nuclei that exhibited both SSB and DSB. Swelling of koala sperm chromatin following cryopreservation has largely been attributed to the absence of inter-molecular disulphide cross-linkages in the marsupial sperm nucleus. Fish spermatozoa also lack disulphide bonds within their chromatin, but nevertheless, have been successfully cryopreserved. To examine the hypothesis that the cryoprotectants used for fish sperm cryopreservation will confer a similar degree of protection on koala spermatozoa, various concentrations of five cryoprotectants (dimethyl sulphoxide, methanol, propylene glycol, ethylene glycol and dimethylacetamide) were evaluated. Each treatment was compared against an established koala sperm cryopreservation protocol that uses 14% glycerol. Dimethylacetamide at a concentration of 12.5% (v/v) was found to be comparable to glycerol in the successful cryopreservation of koala spermatozoa although high inter-male variability was observed. However, when the new protocol was subsequently validated for a larger population of captive koalas (n = 22), glycerol emerged the better cryoprotectant with respect to all sperm viability parameters assessed except for that of the incidence of chromatin relaxation, which was not affected by the cryoprotectant. Significant difference was also observed in the post-thaw survival of spermatozoa from different animals, which was independent of pre-freeze semen quality. Based on post-thaw semen viability parameters, the koalas could be divided into two distinct groups, where one group had significantly higher sperm viability compared to the other group, regardless of cryoprotectant used. Positive correlation between motility and MMP was observed before and after cryopreservation. However, cryopreservation significantly reduced the dependency between these variables (P < 0.001), suggesting that cryopreservation reduced the dependency between mitochondrial function and motility.
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Functional Approaches to the Development of Koala Sperm Cryopreservation TechniquesYeng Zee Unknown Date (has links)
The primary objective of the studies described in this thesis was to improve the cryopreservation success of koala spermatozoa for the purpose of establishing a genome resource bank for this species. A defining feature of the studies in this thesis was the implementation of an organelle-specific approach to better understand the causes of koala sperm cryo-injury. The functional attributes of spermatozoa, such as mitochondrial function, plasma membrane fluidity, membrane lipid asymmetry and DNA integrity were assessed as an indication of cryo-injury. Sperm mitochondrial function and plasma membrane integrity were examined by cryomicroscopy using the fluorescent probes JC-1 and propidium iodide (PI) respectively in a dual staining technique. Cooling and re-warming koala spermatozoa were more detrimental to mitochondrial function than to plasma membrane integrity. Mitochondrial membrane potential (MMP) was suppressed by freezing and thawing treatments; after thawing, MMP declined significantly during rewarming (from 5ºC to 35ºC). The distribution of GM1 ganglioside was examined using fluorescent-labelled cholera toxin B. No significant redistribution of GM1 was observed after chilling or cryotreatment. The externalisation of phosphatidylserine (PS) was examined using fluorescent-labelled annexin V. There was no significant increase in translocation of PS after chilling or cryopreservation. These observations imply that cryotreatment had little effect on plasma membrane lipid asymmetry. Koala spermatozoa were incubated in a range of anisotonic media to investigate whether nuclear swelling was caused by osmotic flux during the cryopreservation process. Although the most hypotonic solution tested (64 mOsm/kg) induced the highest incidence of nuclear relaxation (mean ± SEM; 12 ± 3%), this was not as severe as that previously documented following cryopreservation. Chromatin relaxation is a phenomenon observed in koala spermatozoa, where the sperm nucleus expands due to the result of structural changes in the natural conformation of the sperm DNA/protamine complex. DNA fragmentation was not a primary cause of cryopreservation-induced sperm chromatin relaxation, although in situ nick translation of putative DNA breaks indicated that these increased as the sperm head became progressively more relaxed. Using a Sperm Chromatin Dispersion test (SCDt) specifically developed and validated for koala spermatozoa, a continuum of nuclear morphotypes was observed, ranging from no apparent DNA fragmentation to spermatozoa with highly dispersed and degraded chromatin. A double comet assay was also developed to investigate DNA fragmentation in the koala spermatozoa. Conducted under neutral followed by alkaline conditions, this assay was able to differentiate between single- (SSB) and double-stranded (DSB) DNA damage in an effort to refine the interpretation of DNA damage in mature koala spermatozoa; the majority of the koala spermatozoa had nuclei with DNA abasic-like residues. The ubiquity of these residues suggested that constitutive alkali-labile sites are part of the structural configuration of the koala sperm nucleus. Spermatozoa with “true” DNA fragmentation exhibited a continuum of comet morphologies, ranging from a more severe form of alkaline-susceptible DNA, to nuclei that exhibited both SSB and DSB. Swelling of koala sperm chromatin following cryopreservation has largely been attributed to the absence of inter-molecular disulphide cross-linkages in the marsupial sperm nucleus. Fish spermatozoa also lack disulphide bonds within their chromatin, but nevertheless, have been successfully cryopreserved. To examine the hypothesis that the cryoprotectants used for fish sperm cryopreservation will confer a similar degree of protection on koala spermatozoa, various concentrations of five cryoprotectants (dimethyl sulphoxide, methanol, propylene glycol, ethylene glycol and dimethylacetamide) were evaluated. Each treatment was compared against an established koala sperm cryopreservation protocol that uses 14% glycerol. Dimethylacetamide at a concentration of 12.5% (v/v) was found to be comparable to glycerol in the successful cryopreservation of koala spermatozoa although high inter-male variability was observed. However, when the new protocol was subsequently validated for a larger population of captive koalas (n = 22), glycerol emerged the better cryoprotectant with respect to all sperm viability parameters assessed except for that of the incidence of chromatin relaxation, which was not affected by the cryoprotectant. Significant difference was also observed in the post-thaw survival of spermatozoa from different animals, which was independent of pre-freeze semen quality. Based on post-thaw semen viability parameters, the koalas could be divided into two distinct groups, where one group had significantly higher sperm viability compared to the other group, regardless of cryoprotectant used. Positive correlation between motility and MMP was observed before and after cryopreservation. However, cryopreservation significantly reduced the dependency between these variables (P < 0.001), suggesting that cryopreservation reduced the dependency between mitochondrial function and motility.
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Mécanisme de régulation de l'acétyltransférase p300/CBPDelvecchio, Manuela 26 September 2011 (has links) (PDF)
Le p300/CBP acétyltransférase est un co-activateur transcriptionnel très important qui est impliqué dans la régulation d'un grand nombre de processus biologiques, comme la transcription d'ADN, le développement et l'immunité innée. Jusqu'à présent, le rôle de p300/CBP dans la régulation de l'expression des gènes a été largement étudiée, mais les mécanismes qui régulent son activité enzymatique sont encore peu connus. Des études ont montré que le dysfonctionnement de p300/CBP est associé à plusieurs formes de cancer et de maladies neurodégénératives. Dés lors, chaque progrès concernant les mécanismes de régulation de p300/CBP est devenu primordial pour le développement de nouvelles thérapies. Le 'noyau' de p300/CBP contient deux domaines pour la reconnaissance des modifications post-traductionnelles (MPTs), un bromodomaine et un PHD finger (le module BP), adjacent à un domaine HAT (ou domaine histone acétyltransférase). Plusieurs enzymes, modifiant la chromatine, contiennent des domaines de reconnaissance des MPTs. Fréquemment des groupements particuliers de ces domaines sont très conservés et liés, au sein de la même protéine ou du même complexe protéique, suggérant qu'ils réalisent des fonctions coordonnées. Ces domaines adjacents peuvent agir en concertation dans la reconnaissance simultanée de différents MPTs ou peuvent exercer des fonctions différentes de celles qui sont effectuées par ces deux domaines particuliers, tels que les fonctions de régulation enzymatique. Plusieurs études suggèrent que les cycles acétylation/désacétylation dans la boucle d'auto-inhibition, à l'intérieur du domaine HAT, jouent un rôle important dans la régulation de l'activité enzymatique de p300/CBP. La proximité du module BP et du domaine HAT suggère que la spécificité de liaison, appartenant au module BP, peut être intrinsèquement liée à la régulation de l'activité du domaine HAT. L'objectif de ma thèse est de déterminer le rôle du module BP dans la régulation de l'activité du domaine HAT. Je propose que le module BP soit impliqué dans la régulation de p300/CBP de deux façons. La première consiste à établir un lien avec le domaine HAT qui stabilise la conformation auto-inhibée de l'enzyme. La deuxième exige que le module BP joue un rôle dans le choix des substrats de p300/CBP. J'ai été en mesure de montrer que BP peut se lier au domaine HAT et à la chromatine modifiée et qu'il peut reconnaître les modifications effectuées par p300/CBP lui-même. Les données obtenues indiquent que le module BP peut être impliqué dans la régulation de l'activité de p300/CBP et dans son ciblage à la chromatine.
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Chromatin regulators and transcriptional control of <i>Drosophila </i>developmentDai, Qi January 2007 (has links)
<p>The development of a multicellular organism is programmed by complex patterns of gene expression. In eukaryotic cells, genes are packaged by histone proteins into chromatin. Chromatin regulators often function as transcription co-factors. </p><p>In this study, we have investigated the function of four co-factors, dAda2b, Reptin, Ebi and Brakeless during development of the fruit fly<i> Drosophila</i> <i>melanogaster</i>. dAda2b and Reptin belong to histone acetyl transferase (HAT) complexes, a SAGA-like complex and the Tip60 complex, respectively. We generated <i>dAda2b </i>mutants and found that lack of dAda2b strongly affects global histone acetylation and viability. We further propose that Ada2 may be involved in DNA repair. Our studies revealed new roles of Reptin and other Tip60 complex components in Polycomb Group mediated repression and heterochromatin formation, thereby promoting generation of silent chromatin.</p><p>During embryogenesis, transcriptional repressors establish localized and tissue-specific patterns of gene expression. In this thesis, we identified two novel co-repressors in the early embryo, Ebi and Brakeless. Ebi genetically and physically interacts with the Snail repressor. The Ebi-interaction motif in the Snail protein is essential for Snail function<i> in</i> <i>vivo</i> and is evolutionarily conserved in insects. We further demonstrated that Ebi associates with histone deacetylase 3 (HDAC3) and that histone deacetylation is part of the mechanism by which Snail mediates transcriptional repression. </p><p>We isolated Brakeless in a genetic screen for novel regulators of gene expression during embryogenesis. We found that mutation of <i>brakeless</i> impairs function of the Tailless repressor. Brakeless associates with Atrophin, another Tailless corepressor, and they function together in Tailless-mediated repression. </p><p>In summary, transcription co-factors, including chromatin regulators, are selectively required in distinct processes during development.</p>
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Structural and biochemical characterizations of the CHD1 tandem chromodomains /Flanagan, John Francis. January 2006 (has links)
Thesis (Ph. D.)--University of Virginia, 2006. / Includes bibliographical references. Also available online through Digital Dissertations.
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Overcoming frataxin gene silencing in Friedreich’s ataxia with small molecules: studies on cellular and animal modelsRai, Myriam 05 January 2010 (has links)
Friedreich’s ataxia (FRDA) is an inherited recessive disorder characterized by progressive neurological disability and heart disease. It is caused by a pathological intronic hyperexpansion of a GAA repeat in the FXN gene, encoding the essential mitochondrial protein frataxin. At the homozygous state, the GAA expansion induces a heterochromatin state with decreased histone acetylation and increased methylation, resulting in a partial deficiency of frataxin expression. This was established in cells from FRDA patients. We showed that the same chromatin changes exist in a GAA based mouse model, KIKI, generated in our laboratory. Furthermore, treatment of KIKI mice with a novel Histone Deacetylase Inhibitor (HDACi), 106, a pimelic diphenylamide that increases frataxin levels in FRDA cell culture, restored frataxin levels in the nervous system and heart of KIKI mice and induced histone hyperacetylation near the GAA repeat. As shown by microarrays, most of the differentially expressed genes in KIKI were corrected towards wild type. In an effort to improve the pharmacological profile of compound 106, we synthesized more compounds based on its structure and specificity. We characterized two of these compounds in FRDA patients’ peripheral blood lymphocytes and in the KIKI mouse model. We observed a sustained frataxin upregulation in both systems, and, by following the time course of the events, we concluded that the effects of these compounds last longer than the time of direct exposure to HDACi. Our results support the pre-clinical development of a therapeutic approach based on pimelic diphenylamide HDACis for FRDA. Laboratory tools to follow disease progression and assess drug efficacy are needed in a slowly progressive neurodegenerative disease such as FRDA. We used microarrays to characterize the gene expression profile in peripheral lymphocytes from FRDA patients, carriers and controls. We identified gene expression changes in heterozygous, clinically unaffected GAA expansion carriers, suggesting that they present a biochemical phenotype, consistent with data from animal models of frataxin deficiency. We identified a subset of genes changing in patients as a result of pathological frataxin deficiency establishing robust gene expression changes in peripheral lymphocytes. These changes can be used as a biomarker to monitor disease progression and potentially assess drug efficacy. To this end, we used he same methodology to characterize the gene expression profiles in peripheral lymphocytes after treatment with pimelic diphenylamide HDACi. This treatment had relevant effects on gene expression on peripheral patients’ blood lymphocytes. It increased frataxin levels in a dose-dependent manner, and partially rescued the gene expression phenotype associated with frataxin deficiency in the tested cell model, thus providing the first application of a biomarker gene set in FRDA.
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Chromatin regulators and transcriptional control of Drosophila developmentDai, Qi January 2007 (has links)
The development of a multicellular organism is programmed by complex patterns of gene expression. In eukaryotic cells, genes are packaged by histone proteins into chromatin. Chromatin regulators often function as transcription co-factors. In this study, we have investigated the function of four co-factors, dAda2b, Reptin, Ebi and Brakeless during development of the fruit fly Drosophila melanogaster. dAda2b and Reptin belong to histone acetyl transferase (HAT) complexes, a SAGA-like complex and the Tip60 complex, respectively. We generated dAda2b mutants and found that lack of dAda2b strongly affects global histone acetylation and viability. We further propose that Ada2 may be involved in DNA repair. Our studies revealed new roles of Reptin and other Tip60 complex components in Polycomb Group mediated repression and heterochromatin formation, thereby promoting generation of silent chromatin. During embryogenesis, transcriptional repressors establish localized and tissue-specific patterns of gene expression. In this thesis, we identified two novel co-repressors in the early embryo, Ebi and Brakeless. Ebi genetically and physically interacts with the Snail repressor. The Ebi-interaction motif in the Snail protein is essential for Snail function in vivo and is evolutionarily conserved in insects. We further demonstrated that Ebi associates with histone deacetylase 3 (HDAC3) and that histone deacetylation is part of the mechanism by which Snail mediates transcriptional repression. We isolated Brakeless in a genetic screen for novel regulators of gene expression during embryogenesis. We found that mutation of brakeless impairs function of the Tailless repressor. Brakeless associates with Atrophin, another Tailless corepressor, and they function together in Tailless-mediated repression. In summary, transcription co-factors, including chromatin regulators, are selectively required in distinct processes during development.
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Epigenetic Regulation of Higher Order Chromatin Conformations and Gene TranscriptionGöndör, Anita January 2007 (has links)
Epigenetic states constitute heritable features of the chromatin to regulate when, where and how genes are expressed in the developing conceptus. A special case of epigenetic regulation, genomic imprinting, is defined as parent of origin-dependent monoallelic expression. The Igf2-H19 locus is considered as paradigm of genomic imprinting with a growth-promoting gene, Igf2, expressed paternally and a growth antagonist, H19 encoding a non-coding transcript, expressed only from the maternal allele. The monoallelic expression patterns are regulated by the epigenetic status at an imprinting control region (ICR) in the 5´-flank of the H19 gene. The chromatin insulator protein CTCF interacts with only the maternal H19 ICR allele to prevent downstream enhancers to communicate with the Igf2 promoters. Mutations of these CTCF binding sites lead to biallelic Igf2 expression, increased size of the conceptus and predisposition for cancer. Reasoning that these effects cannot be explained by the regulation of Igf2 expression alone, a technique was invented to examine long-range chromatin interactions without prior knowledge of the interacting partners. Applying the circular chromosomal conformation capture (4C) technique to mouse neonatal liver cells, it was observed that 114 unique sequences interacted with the H19 ICR. A majority of these interactors was in complex with only the maternal H19 ICR allele and depended on the presence of functional CTCF binding sites. The functional consequence of chromosomal networks was demonstrated by the observation that the maternal H19 ICR allele regulated the transcription of two genes on another chromosome. As the chromosomal networks underwent reprogramming during the maturation of embryonic stem cells, attention was turned to human cancer cells, displaying features common with mouse embryonic stem cells. Subsequently, chromatin folding at the human H19 ICR suggested that stable chromatin loops were organized by synergistic interactions within and between baits and interactors. The presence of these interactions was linked to DNA methylation patterns involving repeat elements. A "flower" model of chromatin networks was formulated to explain these observations. This thesis has unravealed a novel feature of the epigenome and its functions to regulate gene expression in trans. The identified roles for CTCF as an architectural factor in the organization of higher order chromatin conformations may be of importance in understanding development and disease ontogeny from novel perspectives.
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Snf2l Regulates Foxg1 Expression to Control Cortical Progenitor Cell Proliferation and DifferentiationMcGregor, Chelsea P. 05 September 2012 (has links)
Over the past five years the role of epigenetic modifiers in brain development has become increasingly evident. In this regard, Snf2l, a homolog of the chromatin remodeling protein ISWI, was shown to have enriched expression in the brain and be important for neuronal differentiation. Mice lacking functional Snf2l have hypercellularity of the cerebral cortex due to increased cell cycle re-entry. In this thesis I demonstrate the effects of Snf2l-ablation on cortical progenitor cells including increased proliferation and cell cycle deregulation, the consequence of which is a delay in neuronal migration and altered numbers of mature cortical neurons. This phenotype arises from increased expression of Foxg1, a winged-helix repressor expressed in the forebrain and anterior optic vesicle. Moreover, genetically reducing its overexpression rescues the Snf2l-ablated phenotype. Snf2l is bound directly to a promoter region of Foxg1 suggesting that it acts as a repressive regulator in vivo and is an important factor in forebrain differentiation.
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The Establishment and Stabilization of Anterior-posterior Identity In the Hindbrain: On the Regulation of the Segmentation Gene MafBSing, Angela 17 January 2012 (has links)
In vertebrates, the embryonic hindbrain is transiently subdivided along its anterior-posterior (A-P) axis into 8 well defined segments termed rhombomeres (r1-8). Each rhombomere represents a true cellular compartment in transcriptional profile, lineage restriction and neuronal organization. Thus, the vertebrate hindbrain provides a beautiful model for studying mechanisms of anterior-posterior patterning, signal transduction and interpretation, initiation and maintenance of transcriptional profiles, cell sorting and border formation. The Kreisler/MafB gene, which encodes a basic leucine zipper (bZIP) transcription factor that regulates some Hox genes, is one of the first genes to be expressed segmentally in the hindbrain, and is subject to a dynamic and complex regulatory process. However, unlike the Hox genes, Kreisler/MafB is not located within a large cluster of genes and therefore provides a simple system for dissecting the molecular mechanisms involved in hindbrain compartmentalization. In dissecting the mechanisms that govern Kreisler/MafB regulation, we have identified the S5 regulatory element that directs early MafB expression in the future r5-r6 domain. We have found a binding site within S5 that is specific for the Variant Hepatocyte Nuclear Factor 1 (vHNF1) to be essential, but not sufficient for early induction of r5-r6-specific expression. Thus, early inductive events that initiate MafB expression are clearly distinct from later acting ones that modulate its expression levels. Using mouse mutants, we have shown that MafB is dependent on the M33 polycomb protein and other mechanisms of chromatin remodeling. We then utilized transgenic flies and mice as well as binding assays to identify and validate a PcG/trxG response element (PRE), PRE1 which acts to reorganize the surrounding chromatin, regulating S5-dependent expression. To our knowledge, PRE1 is the first validated vertebrate PcG/trxG response element. Thus, PRE1 provides a springboard for further exploration of the mechanisms governing chromatin remodeling.
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