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Exacerbation of Intracranial Aneurysm and Aortic Dissection in Hypertensive Rat Treated With the Prostaglandin F-Receptor Antagonist AS604872 / プロスタグランジンF受容体選択的阻害薬AS604872は高血圧ラットにおいて脳動脈瘤と大動脈解離を増悪させるFukuda, Miyuki 25 January 2016 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第19397号 / 医博第4048号 / 新制||医||1012(附属図書館) / 32422 / 京都大学大学院医学研究科医学専攻 / (主査)教授 渡邊 直樹, 教授 小泉 昭夫, 教授 木村 剛 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM
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Effects of prostaglandin F₂α on neutrophil populations, uterine health and reproductive performance in dairy cows / Effects of prostaglandin F2alpha on neutrophil populations, uterine health and reproductive performance in dairy cowsLulay, Adrienne McCracken 14 December 2011 (has links)
Incidences of uterine infections in dairy cattle are high between parturition and Day 21 postpartum. Dairy cows with uterine infections are at risk for prolonged periods of days open and multiple services before becoming pregnant. Neutrophils are the first wave of immune system defense against uterine contamination. Neutrophil function seems to be mediated by reproductive hormones and good uterine health is related to properly functioning neutrophils. To elucidate the interaction between reproductive hormones, neutrophils and uterine health in dairy cows the objectives of this research were to evaluate: 1) changes in circulating white blood cell populations during the estrous cycle, 2) the effects of prostaglandin F₂[subscript α](PGF₂[subscript α]) on circulating white blood cell populations and 3) the effects of a two-injection PGF₂[subscript α] regimen on uterine neutrophil and bacterial populations and numbers of days open and services per conception. In the first experiment, the effect of stage of the estrous cycle on plasma neutrophil numbers was evaluated. Neutrophils were observed throughout the entire estrous cycle and numbers were greatest (P<0.05) on Day 14 (mid-cycle), when the corpus luteum was the dominant ovarian structure and plasma progesterone was at its acme. In the second experiment, plasma neutrophil numbers were examined in cows after injections of saline or the PGF₂[subscript α] pharmaceutical product, Lutalyse. Compared to saline, numbers of neutrophils were greater (P<0.05) 4 and 8 hr after Lutalyse injection. In the third experiment, neutrophil numbers were examined after injections of saline, Lutalyse or the PGF₂[subscript α] analog, Estrumate. Compared to saline, numbers of neutrophils did not differ (P>0.10) from cows injected with Lutalyse or Estrumate. In the fourth experiment, uterine bacterial populations and numbers of neutrophils were quantified in cows treated with Lutalyse or saline on Days 0 and 14 or 14 and 28 postpartum. Compared to saline, Lutalyse treatment decreased (P<0.05) total bacteria present in the uterus and increased (P<0.05) the number of uterine neutrophils. In experiment five, numbers of days open and services per conception were evaluated in cows treated with Lutalyse or saline on Days 0 and 14 or 14 and 28 postpartum. Compared to saline, Lutalyse decreased days open (154.7 ± 14.1 vs. 120.1 ± 7.9 days, respectively; P<0.05) and services per conception (3.0 ± 0.4 vs. 2.3 ± 0.2 services, respectively; P=0.09). These results suggest PGF₂[subscript α] treatment can increase neutrophil and depress bacterial cell populations in favor of the dairy cow's uterine health and may explain why fertility is improved when PGF₂α is administered early in the postpartum period. / Graduation date: 2012
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The Neural Substrate of Sex Pheromone Signalling in Male Goldfish (Carassius auratus)Lado, Wudu E. 26 October 2012 (has links)
The transmission of sex pheromone-mediated signals is essential for goldfish reproduction. However, the neural pathways underlying this reproductive signalling pathway in the goldfish brain is not well described. Lesioning experiments have shown previously that two brain areas, the preoptic area (POA) and the ventral telencephali pars ventralis (Vv) in particular, are important for reproduction. We used patch clamp electrophysiology to study the electrical activities of POA and Vv neurons. Based on the intrinsic properties of these neurons, we suggest there are five different functional classes of POA neurons and a single class of Vv neurons. In addition, by electrically stimulating the olfactory bulb (OB), we were able to show that this primary sensory structure makes monosynaptic glutamatergic connections with both POA and Vv neurons. While electrophysiology measures signalling events occurring at short time scales on the order of milliseconds to minutes, we were also interested in studying sex pheromone signalling in the goldfish brain over a long time scale. Thus, we describe changes in gene expression in male goldfish exposed to waterborne sex pheromones (17alpha,20beta dihydroxy-4-pregene-3-one and Prostaglandin-F2alpha) over 6 hours. We perform cDNA microarrays on Prostaglandin-F2alpha-treated fish to study the rapid modulation of transcription and define the signalling pathways affected. Our microarrays showed that 71 genes were differentially regulated (67 up and 4 down). Through gene ontology enrichment analysis, we found that these genes were involved in various biological processes such as RNA processing, neurotransmission, neuronal development, apoptosis, cellular metabolism and sexual reproduction. RT-PCRs were performed to validate our microarrays and to facilitate direct comparisons of the effects of the two sex pheromones, 17alpha,20beta dihydroxy-4-pregene-3-one and Prostaglandin-F2alpha. By combining electrophysiology and gene expression analyses, we were able to study sex-pheromone signalling on two different time scales. One short, occurring on the order of milliseconds to minutes, that involves electrical activities in the brain through the glutamatergic amino-3-hydroxy-5-methylisoxazole-4-propionate and N-methyl-D-aspartate receptors; and the other long occurring several hours later that involves changes in the gene expression levels of calmodulin and ependymin among other genes underlying neuroplasticity. Reproductive neuroplasticity in the goldfish may therefore require the activation of glutamatergic receptors which then activate downstream signals like calmodulin and ependymin to transform the sex pheromones-mediate signal into gene expression.
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The Neural Substrate of Sex Pheromone Signalling in Male Goldfish (Carassius auratus)Lado, Wudu E. 26 October 2012 (has links)
The transmission of sex pheromone-mediated signals is essential for goldfish reproduction. However, the neural pathways underlying this reproductive signalling pathway in the goldfish brain is not well described. Lesioning experiments have shown previously that two brain areas, the preoptic area (POA) and the ventral telencephali pars ventralis (Vv) in particular, are important for reproduction. We used patch clamp electrophysiology to study the electrical activities of POA and Vv neurons. Based on the intrinsic properties of these neurons, we suggest there are five different functional classes of POA neurons and a single class of Vv neurons. In addition, by electrically stimulating the olfactory bulb (OB), we were able to show that this primary sensory structure makes monosynaptic glutamatergic connections with both POA and Vv neurons. While electrophysiology measures signalling events occurring at short time scales on the order of milliseconds to minutes, we were also interested in studying sex pheromone signalling in the goldfish brain over a long time scale. Thus, we describe changes in gene expression in male goldfish exposed to waterborne sex pheromones (17alpha,20beta dihydroxy-4-pregene-3-one and Prostaglandin-F2alpha) over 6 hours. We perform cDNA microarrays on Prostaglandin-F2alpha-treated fish to study the rapid modulation of transcription and define the signalling pathways affected. Our microarrays showed that 71 genes were differentially regulated (67 up and 4 down). Through gene ontology enrichment analysis, we found that these genes were involved in various biological processes such as RNA processing, neurotransmission, neuronal development, apoptosis, cellular metabolism and sexual reproduction. RT-PCRs were performed to validate our microarrays and to facilitate direct comparisons of the effects of the two sex pheromones, 17alpha,20beta dihydroxy-4-pregene-3-one and Prostaglandin-F2alpha. By combining electrophysiology and gene expression analyses, we were able to study sex-pheromone signalling on two different time scales. One short, occurring on the order of milliseconds to minutes, that involves electrical activities in the brain through the glutamatergic amino-3-hydroxy-5-methylisoxazole-4-propionate and N-methyl-D-aspartate receptors; and the other long occurring several hours later that involves changes in the gene expression levels of calmodulin and ependymin among other genes underlying neuroplasticity. Reproductive neuroplasticity in the goldfish may therefore require the activation of glutamatergic receptors which then activate downstream signals like calmodulin and ependymin to transform the sex pheromones-mediate signal into gene expression.
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The Neural Substrate of Sex Pheromone Signalling in Male Goldfish (Carassius auratus)Lado, Wudu E. January 2012 (has links)
The transmission of sex pheromone-mediated signals is essential for goldfish reproduction. However, the neural pathways underlying this reproductive signalling pathway in the goldfish brain is not well described. Lesioning experiments have shown previously that two brain areas, the preoptic area (POA) and the ventral telencephali pars ventralis (Vv) in particular, are important for reproduction. We used patch clamp electrophysiology to study the electrical activities of POA and Vv neurons. Based on the intrinsic properties of these neurons, we suggest there are five different functional classes of POA neurons and a single class of Vv neurons. In addition, by electrically stimulating the olfactory bulb (OB), we were able to show that this primary sensory structure makes monosynaptic glutamatergic connections with both POA and Vv neurons. While electrophysiology measures signalling events occurring at short time scales on the order of milliseconds to minutes, we were also interested in studying sex pheromone signalling in the goldfish brain over a long time scale. Thus, we describe changes in gene expression in male goldfish exposed to waterborne sex pheromones (17alpha,20beta dihydroxy-4-pregene-3-one and Prostaglandin-F2alpha) over 6 hours. We perform cDNA microarrays on Prostaglandin-F2alpha-treated fish to study the rapid modulation of transcription and define the signalling pathways affected. Our microarrays showed that 71 genes were differentially regulated (67 up and 4 down). Through gene ontology enrichment analysis, we found that these genes were involved in various biological processes such as RNA processing, neurotransmission, neuronal development, apoptosis, cellular metabolism and sexual reproduction. RT-PCRs were performed to validate our microarrays and to facilitate direct comparisons of the effects of the two sex pheromones, 17alpha,20beta dihydroxy-4-pregene-3-one and Prostaglandin-F2alpha. By combining electrophysiology and gene expression analyses, we were able to study sex-pheromone signalling on two different time scales. One short, occurring on the order of milliseconds to minutes, that involves electrical activities in the brain through the glutamatergic amino-3-hydroxy-5-methylisoxazole-4-propionate and N-methyl-D-aspartate receptors; and the other long occurring several hours later that involves changes in the gene expression levels of calmodulin and ependymin among other genes underlying neuroplasticity. Reproductive neuroplasticity in the goldfish may therefore require the activation of glutamatergic receptors which then activate downstream signals like calmodulin and ependymin to transform the sex pheromones-mediate signal into gene expression.
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