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L’effet de l’obésité paternelle acquise sur la biologie des spermatozoïdes, la cinétique de division embryonnaire, et sur l’hérédité transgénérationelle / The drawbacks of paternal obesity on sperm biology, preimplantation embryo morphokinetics, and its transgenerational impactsRaad, Georges 14 December 2016 (has links)
L'obésité est une condition médicale résultant d'une accumulation excessive de dépôts adipeux. Le remodelage pathologique du tissu adipeux chez les sujets obèses pourrait conduire à l'élaboration de plusieurs problèmes de santé. Malheureusement, la prévalence de l'obésité augmente dans le monde entier et en particulier chez les jeunes hommes en âge de procréation. En outre, plusieurs études ont suggéré que les informations de l'environnement paternel comme l'obésité acquise restent dans l’épigénome du spermatozoïde et peuvent moduler le phénotype de la descendance. Pour toutes ces raisons, une compréhension plus approfondie des effets de l’obésité sur la composition moléculaire des spermatozoïdes est nécessaire. Le premier objectif de cette thèse était d'évaluer l'effet de l'obésité sur la composition moléculaire et sur la physiologie des spermatozoïdes mobiles. Les échantillons de sperme ont été obtenus à partir de 96 hommes s’adressant au centre de fertilité ‘A-clinic’, Liban. Les patients ont été classés en trois groupes : poids normal, le surpoids, et obèses. Nos résultats ont montré qu’il y a une rétention des histones plus élevée, et un ADN spermatique hypométhylé et hypohydroxymethylé, dans les spermatozoïdes mobiles des hommes obèses par rapport à ceux des hommes non-obeses. Par conséquent, les embryons issus de spermatozoïdes mobiles d'un homme obèse avaient une cinétique de division embryonnaire altérer par rapport à ceux provenant des spermatozoïdes d’un homme de poids normal / Obesity is a medical condition resulting from an excessive accumulation of adipose deposits. The pathological remodelling of the adipose tissue in obese subjects may lead to the development of several health problems. Unfortunately, the prevalence of obesity is increasing worldwide and of particular interest among young men of reproductive age. Furthermore, accumulated evidence suggests that information from paternal environment such as acquired obesity remains in the sperm epigenome and can modulate the phenotype of the offspring. Therefore, a deeper comprehension of the drawbacks of male excessive fatness on the sperm molecular composition is needed. The first aim of this thesis was to assess the impact of obesity on the molecular composition and on the physiology of the motile sperm. The semen samples were obtained from 96 men attending the A-clinic fertility center, Lebanon. Patients were categorized into three groups: normal weight, overweight, and obese. We showed that the motile sperm of obese men had abnormal levels of paternally inherited histones and hypomethylated/hypohydroxymethylated DNA as compared to normal weight men. Subsequently, the embryos derived from the motile sperm of an obese father had an altered morphokinetic patterns when compared to those derived from normal weight one. The second aim of this thesis was to evaluate the adaptive and evolutionary potential of non-genetic heritable mechanisms in experimentally controlled animal models. Using a high fat diet (HFD)-induced obesity mouse model, we have examined how feeding male mice with a high fat diet for multiple generations impacts the phenotype of the resulting mice
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Effects of Paternal Obesity on the Metabolic Profile of Offspring: Alterations in Gastrocnemius Muscle GLUT4 Trafficking and Mesenteric Adipose Tissue TranscriptomeLiu, Xinhao 01 October 2018 (has links)
No description available.
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Effects of Paternal Obesity on The Central Nervous System Reward Circuitry in OffspringSindi, Ghadir A., 23 September 2016 (has links)
No description available.
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Paternal obesity is associated with hypoxia and angiogenesis in female placenta and mediates placental developmentPatterson, Brendan January 2018 (has links)
While the impacts of maternal obesity on placental development have been extensively
studied, the role of the father’s health in regulating placentation is less understood. Paternal
obesity is associated with offspring metabolic dysfunction, but the mechanism regulating this
association is unclear. We investigated how paternal diet-induced obesity impacted placental
vascular development, associated cellular stress pathways, and markers of placental endocrine function and macronutrient transport across gestation in a murine model. We found that paternal obesity is associated with placental hypoxia as measured by CAIX and HIF1α at E14.5 which persisted to E18.5. Hypoxia was associated with increased VEGF protein levels, as well as its pro-angiogenic receptor, VEGFR2 in male and female E14.5 placentae, although, this increase was apparent only in females at E18.5. The proportion of placental tissue that was immunopositive for the endothelial cell marker CD31 was increased in female but not male E18.5 placentae. Paternal obesity was associated with cellular stress as measured by the three branches of the unfolded protein response (UPR): ATF6, PERK, and IRE1α. However, despite increased phosphorylation of PERK and IRE1α in placental tissue derived from obese fathers, there was no impact on downstream signal transducers. Pro-apoptotic Bcl2 family members’ transcript levels were reduced at E18.5 in placentae from obese fathers, but this did not correspond to any changes in cleaved casp-3 protein levels. Placental lactogen and macronutrient transporter transcript levels were similar between groups across gestation, although Igf2 transcripts were increased in female placenta from obese fathers at both mid and late gestation. Thus, paternal obesity results in placental hypoxia and VEGF mediated sex specific changes in vascularization with a pro-angiogenic response occurring in females. Future studies will investigate whether paternal obesity impairs early placental implantation, resulting in poor vascularization and hypoxia at E18.5. / Thesis / Master of Science (MSc)
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