Global ETD Search

91	The brain-pituitary-gonadal axis of the three-spined stickleback, Gasterosteus aculeatus Shao, Yi Ta January 2012 (has links) The seasonal reproduction of the three-spined stickleback is stimulated by long day photoperiod. As in other vertebrates, the reproductive system of stickleback is regulated by the brain-pituitary-gonadal (BPG) axis which is largely controlled by feedback effects. Both negative and positive feedback effects on the BPG axis have been found in fish. So far, the roles feedback effects on the BPG axis play in the photoperiodic regulation of seasonal reproduction are still unclear. This thesis focused on the photoperiodic regulation and gonadal feedback effects on the gene expressions of gonadotropin (GtH) and gonadotropin-releasing hormones (GnRH) in the brain and pituitary, and how gonadal feedback regulated the steroid homeostasis in stickleback.Both GnRH2 and GnRH3 mRNA was found in the hypothalamus. Higher expression levels of both GnRH2 and 3 in breeding than in post-breeding males suggested that they are both involved in seasonal reproduction. There was no evidence for a role of GnRH3, which may be the dominating form, in the photoperiodic control of reproduction. However, the polarity of the feedback effect on gnrh3 gene expression may turn from positive to be negative when the males went into post-breeding state. Tapeworm, Schistocephalus solidus, infection inhibited the reproduction of sticklebacks. However, the infection caused higher expression levels of both GnRHs and GtHs genes, which may be due to feedback effect on the BPG axis.Under short day, both lh-β and fsh-β were suppressed by low androgen levels. This negative feedback may inhibit maturation completely, unless a rise of androgens triggers positive feedback under long day. The change in feedback polarity may result in all or nothing maturation. Furthermore, the androgen inhibitory effect on lh-β and fsh-β under short day could be abolished by aromatase inhibitor, which means the estrogen may cause negative feedback in males under short day.There was no compensation effect on plasma androgen level in fully mature hemi-castrated fish. However, both testosterone and 11-ketoandrostenedione treatments increased plasma levels much less in sham-operated fish than in castrated ones, indicating that homeostatic mechanisms are nevertheless present. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows<strong>: </strong>Paper 1: Submitted. Paper 3: Submitted. Paper 4: Submitted.</p> BPG axis GnRH lh-β fsh-β three-spined stickleback Gasterosteus aculeatus homeostasis feedback
92	Métodos de sincronización de la onda folicular en base a GnRH y LH y su efecto en la respuesta ovárica y tasa de preñez en alpacas y llamas Andrade Salinas, Juan Carlos January 2007 (has links) El efecto de sincronización de la onda folicular empleando GnRH y LH sobre la tasa de preñez fue estudiado en 60 alpacas hembras adultas, y 60 llamas hembras adultas. Las hembras con folículos ≥ 7mm detectadas por ultrasonografía, fueron distribuidas al azar en tres grupos experimentales de 20 animales cada uno: grupo Control (1 ml de solución salina, IM); grupo GnRH (0.004 mg de acetato de buserelina, IM) y grupo LH (5 mg de LH, IM). La respuesta ovárica a los tratamientos se evaluó mediante ultrasonografía transrectal para determinar el intervalo en días, desde los tratamientos a la emergencia de la nueva onda folicular y el día en que el nuevo folículo dominante alcanzó ≥ 7mm de diámetro. El intervalo desde los tratamientos a la emergencia de la onda folicular fue similar (p mayor 0.05) en los grupos Control (4.5 ± 1.2 días y 4.7 ± 1.2 días), GnRH (4.3 ± 1.4 días y 4.6 ± 1.2 días) y LH (4.5 ± 1.2 días y 4.0 ± 1.2 días), para alpacas y llamas respectivamente. El intervalo desde el tratamiento hasta el día en qué el nuevo folículo dominante alcanzó ≥7 mm, no difirió en los grupos de alpacas Control (8.4 ± 1.9 días), GnRH (9.0 ± 1.6 días) y LH (7.9 ± 2.0 días) (p mayor 0.05). Entretanto en llamas, el intervalo desde los tratamientos a la presencia del nuevo folículo dominante en los grupos GnRH (7.9 ± 1.6 días) y LH (6.7 ± 1.6 días) fueron diferentes con el grupo Control (9.6 ± 1.0 días) (p menor 0.05). El tamaño folicular en alpacas, un día antes del empadre fue menor en los grupos GnRH (6.8 ± 1.4 mm) y Control (7.2 ± 1.3 mm) comparado con el grupo LH (8.9 ± 1.9 mm) (p menor 0.05). Adicionalmente en llamas, el tamaño folicular, un día antes del empadre fue diferente (p menor0.05) entre los grupos Control (6.4 ± 1.3 mm), GnRH (8.5 ± 0.6 mm) y LH (10.4 ± 3.6 mm). El empadre se realizó 12 días después de los tratamientos. Los animales fueron evaluados por ultrasonografía para determinar la tasa de ovulación el día 2 después del empadre y la tasa de preñez el día 35 después del empadre. La tasa de ovulación post empadre fue similar en los grupos control (85.7% y 64.7%), GnRH (94.4% y 88.9%) y LH (85.7% y 77.8%), para alpacas y llamas, respectivamente. La tasa de preñez en el día 35 después del empadre fue similar para todos los grupos (p> 0.05), Control (78.6% y 47.1%), GnRH (77.8% y 66.7%) y LH (64.3% y 72.2%) para alpacas y llamas, respectivamente. En conclusión, la sincronización con GnRH o LH no influyó en el intervalo desde los tratamientos a la emergencia de la nueva onda folicular, tasa de ovulación post empadre, ni la tasa de preñez en alpacas y llamas. / The effect of follicular wave synchronization using GnRH and LH on pregnancy rate was studied in 60 adult female alpacas, and 60 adult female llamas. Females with follicles ≥ 7mm detected by ultrasonography were randomly allocated in three experimental groups of 20 animals each one: Control group (1 ml saline solution, IM), GnRH group (0.004 mg of buserelin acetate, IM) and LH group (5 mg of LH, IM). The ovarian response to treatments was evaluated by transrectal ultrasonography to determine the interval in days from treatments to new follicular wave emergency and to the day which the new dominant follicle reached ≥ 7mm in diameter. The intervals from the treatments to follicular emergency were similar (p> 0.05) in Control (4.5 ± 1.2 days and 4.7 ± 1.2 days); GnRH (4.3 ± 1.4 days and 4.6 ± 1.2 days) and LH groups (4.5 ± 1.2 days and 4.0 ± 1.2 days), for alpacas and llamas respectively. The interval from the treatment to the day on which the new dominant follicle reached ≥ 7 mm in alpacas did not differ in Control (8.4 ± 1.9 days), GnRH (9.0 ± 1.6 days) and LH (7.9 ± 2.0 days) groups (p> 0.05). Meanwhile in llamas, the interval from the treatment to the presence of the new dominant follicle in GnRH (7.9 ± 1.6 days), and LH (6.7 ± 1.6 days) groups were different in comparison to Control group (9.6 ± 1.0 days) (p less 0.05). Follicular sizes in alpacas a day before mating were smaller in GnRH (6.8±1.4 mm) and Control (7.2 ± 1.3 mm) groups in comparison to LH group (8.9 ± 1.9 mm) (p less 0.05). Additionally, in llamas follicular size a day before mating was different (p less 0.05) among Control (6.4 ± 1.3 mm), GnRH (8.5 ± 0.6 mm) and LH (10.4 ± 3.6 mm) groups. Mating was permitted 12 days after treatments. Animals were evaluated by ultrasonography to determine ovulation rate on day 2 after mating and pregnancy rate on day 35 after mating. After mating, ovulation rate were similar in Control (85.7% and 64.7%), GnRH (94.4% and 88.9%) and LH (85.7% and 77.8%) groups, for alpacas and llamas, respectively. Pregnancy rate on day 35 after mating were similar for all groups (p> 0.05), Control (78.6% and 47.1%), GnRH (77.8% and 66.7%), and LH (64.3% and 72.2%) for alpacas and llamas, respectively. In conclusion, synchronization with GnRH or LH did not affect on the intervals from treatments to emergency of new follicular wave, ovulation rate post mating, nor pregnancy rate in alpacas and llamas.
93	Brain control of reproductive aging : GnRH neuroterminal, glia and portal capillary interactions Yin, Weiling 05 May 2015 (has links) Reproductive function is essential to the survival of all species. In mammals and other vertebrates, the control of reproduction relies on the hypothalamic-pituitary-gonadal axis, with the primary driving force provided by hypothalamic GnRH neurons. In the median eminence, the decapeptide GnRH are released in a unique pattern from GnRH neuroterminals into the portal capillary system as part of reproductive cycle. During aging, the biological rhythms of GnRH release are altered in a species-specific manner, with a reduction of GnRH pulsatility and surge in aging female rats resulting in reproductive senescence, which happens much earlier than gonadal failure in rats. Relatively few studies have focused on regulation of GnRH release at the neuroterminal level in the median eminence during reproductive aging. Therefore, the aims of this dissertation are to 1) Study the regulation of GnRH secretion at the neuroterminal level, focusing on glutamate transmission; 2) Ascertain the interaction between GnRH neuroterminals and their surrounding microenvironment focused on glial cells and the portal capillary system in the median eminence; and 3) Analyze age and hormone effects on GnRH neuroterminals and their microenvironment. An aging ovariectomized female rat model was used to study the effects of age and hormones on GnRH neuroterminal system. Fluorescence microscopy, confocal microscopy and transmission electron microscopy were used in conjunction with several imaging analysis tools. I mastered the use of cryo-embedding multi-probe immunogold labeling electron microscopy, which was essential to visualize and quantify the ultrastructral changes in GnRH neuroterminals. I combined the serial electron microscopy with cryo-embedding immunogold electron microscopy preparation and developed a new technique to examine biological markers with a three-dimensional perspective at the cellular level. Results from a series of four research projects showed: 1) There is a novel glutermatergic pathway in GnRH neuroterminals, which may regulate GnRH secretion; 2) There are dramatic age related morphological changes in the GnRH neuroterminal /glia/ portal capillary system of the median eminence that may be involved in reproductive senescence and other neuroendocrine system impairments with age; 3) Serial electron microscopy combined with immunogold labeling technique is a useful method to study the regulation of neuronal signaling pathway. Although my studies were performed on a rat model, it seems reasonable to predict that some of these changes in the median eminence with age may apply to other species, including humans, relevant to some of the menopausal symptoms in women. / text Reproductive function GnRH neurons Glutamate transmission Reproductive aging Neuroterminal Glia and portal capillary interactions Aging
94	Premenstrual dysphoric disorder in relation to neuroactive steroids and alcohol Nyberg, Sigrid January 2006 (has links) Introduction: Premenstrual Dysphoric Disorder (PMDD) is a condition that affects about 2-6% of women of reproductive age. The relation to ovarian steroids is apparent as symptoms are absent during anovulatory cycles. Neuroactive steroids like allopregnanolone have effect in the brain and on brain function and have been proposed to play an important role for the symptomatology of premenstrual symptoms and in the interaction between the GABAA receptor and alcohol. High doses of alcohol elevate allopregnanolone levels both in rats and humans. Allopregnanolone is a positive modulator of the GABAA receptor with sedative, anxiolytic and anticonvulsant effect in both human and animals. Aims: The aim was to investigate if a low dose (100μg) of GnRH agonist (buserelin) is effective for the treatment of PMDD and if allopregnanolone serum levels during treatment are associated to symptom severity. Furthermore, the studies aimed at investigating the effect of a low dose of alcohol upon saccadic eye movements in women with PMDD, and control subjects in different phases of the menstrual cycle, and to evaluate if there was a difference in response to alcohol between men and healthy women. We also wanted to see if this low dose of alcohol could have an effect on serum allopregnanolone levels in women with PMDD and control subjects in the follicular and luteal phases of the menstrual cycle. Methods: The effect of low dose (100μg) of GnRH agonist (buserelin) on premenstrual symptoms was evaluated in a randomized, placebo controlled, double-blinded cross-over trial. 27 PMDD patients were randomized to either GnRH agonist intranasally once a day or placebo for two months before the crossover. The main outcome measure was the daily symptom ratings for mood and physical symptoms made by the patients. In a subgroup of 12 women, grouped as buserelin responders and placebo responders, luteal phase serum progesterone, allopregnanolone, and pregnanolone was measured together with daily ratings for mood and physical symptoms. Alcohol responsiveness was measured in PMDD patients, female control subjects and men by comparing the effect of a low dose (0.2g/kg) of intravenous alcohol or placebo infusion upon saccadic eye movements. Blood samples for measurement of allopregnanolone and cortisol were taken throughout the alcohol/placebo challenges. Results: Low dose GnRH agonist was effective as treatment of premenstrual irritability and depression. Anovulatory cycles were confirmed in 56% of the subjects, particularly in older women. Buserelin as well as placebo responders displayed decreased allopregnanolone and progesterone levels in parallel with symptom improvement. PMDD patients displayed blunted saccadic eye movement response to alcohol infusion, especially in the luteal phase. Control subjects did not change their response to alcohol between cycle phases. We found no difference in saccadic eye movement sensitivity to alcohol between males and females. Allopregnanolone levels significantly decreased in the luteal phase following the alcohol infusion. Conclusions: Low dose GnRH agonist is effective in treatment of premenstrual depression and irritability but is likely to induce anovulation with increasing age. Independent of whether buserelin or placebo treatment was given decreased levels of allopregnanolone appear to be related to symptom improvement. Women with PMDD have altered saccadic eye movement sensitivity in response to alcohol, particularly in the luteal phase. The low dose of alcohol did not induce any difference in saccade measurements between males and females. Low dose of alcohol does not result in increased peripheral levels of allopregnanolone. premenstrual dysphoric disorder GnRH-agonist progesterone allopregnanolone alcohol saccadic eye velocity
95	Modeling electrical spiking, bursting and calcium dynamics in gonadotropin releasing hormone (GnRH) secreting neurons Fletcher, Patrick Allen 11 1900 (has links) The plasma membrane electrical activities of neurons that secrete gonadotropin releasing hormone (GnRH), referred to as GnRH neurons hereafter, have been studied extensively. A couple of mathematical models have been developed previously to explain different aspects of these activities including spontaneous spiking and responses to stimuli such as current injections, GnRH, thapsigargin (Tg) and apamin. The goal of this paper is to develop one single, minimal model that accounts for the experimental results reproduced by previously existing models and results that were not accounted for by these models. The latter includes two types of membrane potential bursting mechanisms and the associated calcium oscillations in the cytosol. One of them has not been reported in experimental literatures on GnRH neurons and is thus regarded as a model prediction. Other improvements achieved in this model include the incorporation of a more detailed description of calcium dynamics in a three dimensional cell body with the ion channels evenly distributed on the cell surface. Although the model is mainly based on data collected in cultured GnRH cell lines, we show that it is capable of explaining some properties of GnRH neurons observed in several of other preparations including mature GnRH neurons in hypothalamic slices. One potential explanation is suggested. A phenomenological reduction of this model into a simplified form is presented. The simplified model will facilitate the study of the roles of plasma membrane electrical activities on the pulsatile release of GnRH by these neurons when it is coupled with a model of pulsatile GnRH release based on the autoregulation mechanism. Neuroendocrinology Gonadotropin releasing hormone Bursting mechanisms Calcium dynamics Membrane excitability GnRH
96	The Hormonal Regulation of Non-breeding Territorial Aggression in North American Red Squirrels (Tamiasciurus hudsonicus) Bettio, Adam N. 03 December 2012 (has links) Classically, testosterone (T) was considered the principal regulator of aggression. However, recent studies in birds have found aggression and T uncoupled during the non-breeding season. Circulating testosterone comes with costs such as immunosuppression and energy expenditure. Instead, the pro-hormone, dehydroepiandrosterone (DHEA), is circulated and activated within the brain via conversion into oestradiol (E2), avoiding the costs associated with T. At present the site of DHEA synthesis is unknown. My thesis investigated the existence of an analogous pathway in non-breeding red squirrels (Tamiasciurus hudsonicus) with two studies: (a) a field study investigating the effects of E2 on aggression and (b) a laboratory study that attempted to determine the site of DHEA synthesis. I conclude that E2 regulates non-breeding aggression in red squirrels and that the adrenals are not the site of DHEA synthesis. My results suggest the existence of a mammalian analogue to the regulatory pathway found in birds. Non-breeding aggression Red squirrels DHEA Oestradiol Adrenals Gonads ACTH GnRH 0433 0329 0472
97	The Hormonal Regulation of Non-breeding Territorial Aggression in North American Red Squirrels (Tamiasciurus hudsonicus) Bettio, Adam N. 03 December 2012 (has links) Classically, testosterone (T) was considered the principal regulator of aggression. However, recent studies in birds have found aggression and T uncoupled during the non-breeding season. Circulating testosterone comes with costs such as immunosuppression and energy expenditure. Instead, the pro-hormone, dehydroepiandrosterone (DHEA), is circulated and activated within the brain via conversion into oestradiol (E2), avoiding the costs associated with T. At present the site of DHEA synthesis is unknown. My thesis investigated the existence of an analogous pathway in non-breeding red squirrels (Tamiasciurus hudsonicus) with two studies: (a) a field study investigating the effects of E2 on aggression and (b) a laboratory study that attempted to determine the site of DHEA synthesis. I conclude that E2 regulates non-breeding aggression in red squirrels and that the adrenals are not the site of DHEA synthesis. My results suggest the existence of a mammalian analogue to the regulatory pathway found in birds. Non-breeding aggression Red squirrels DHEA Oestradiol Adrenals Gonads ACTH GnRH 0433 0329 0472
98	Modeling electrical spiking, bursting and calcium dynamics in gonadotropin releasing hormone (GnRH) secreting neurons Fletcher, Patrick Allen 11 1900 (has links) The plasma membrane electrical activities of neurons that secrete gonadotropin releasing hormone (GnRH), referred to as GnRH neurons hereafter, have been studied extensively. A couple of mathematical models have been developed previously to explain different aspects of these activities including spontaneous spiking and responses to stimuli such as current injections, GnRH, thapsigargin (Tg) and apamin. The goal of this paper is to develop one single, minimal model that accounts for the experimental results reproduced by previously existing models and results that were not accounted for by these models. The latter includes two types of membrane potential bursting mechanisms and the associated calcium oscillations in the cytosol. One of them has not been reported in experimental literatures on GnRH neurons and is thus regarded as a model prediction. Other improvements achieved in this model include the incorporation of a more detailed description of calcium dynamics in a three dimensional cell body with the ion channels evenly distributed on the cell surface. Although the model is mainly based on data collected in cultured GnRH cell lines, we show that it is capable of explaining some properties of GnRH neurons observed in several of other preparations including mature GnRH neurons in hypothalamic slices. One potential explanation is suggested. A phenomenological reduction of this model into a simplified form is presented. The simplified model will facilitate the study of the roles of plasma membrane electrical activities on the pulsatile release of GnRH by these neurons when it is coupled with a model of pulsatile GnRH release based on the autoregulation mechanism. Neuroendocrinology Gonadotropin releasing hormone Bursting mechanisms Calcium dynamics Membrane excitability GnRH
99	Pituitary and uterine sex steriod receptors in ewes : seasonal and postpartum anoestrus, oestrous cycle and experimentally induced subnormal luteal phases / Tasende, Celia, January 2005 (has links) (PDF) Diss. (sammanfattning). Uppsala : Sveriges lantbruksuniv., 2005. / Härtill 4 uppsatser.
100	Esteróides sexuais em piracanjuba (Brycon orbignyanus) / Sex steroids in piracanjuba (Brycon orbignyanus) Rotili, Daniel Antônio January 2018 (has links) O objetivo, deste estudo foi investigar o comportamento dos hormônios esteróides 17β-Estradiol (E2), 17α-hidroxiprogesterona (17α-OHP), Testosterona (T) e 11-Ketotestosterona (11-KT), em piracanjuba Brycon orbignyanus de diferentes sexos e idades, na estação reprodutiva, e nas fêmeas submetidas à reprodução induzida. Os animais utilizados no trabalho, eram criados em piscicultura comercial, mantidos em 3 viveiros, separados por lotes de diferentes idades. A coleta dos animais, consistiu de quatro machos e cinco fêmeas (48 meses), identificados através do dimorfismo sexual da espécie, e as demais idades, (12 e 24 meses), coletaram-se, 20 peixes de cada idade, para identificação do sexo através de histologia. Já o experimento de caracterização dos esteróides sexuais na reprodução induzida, foram coletadas cinco fêmeas, selecionadas através das características com: abdome abaulado, papila urogenital, saliente e avermelhada. Após captura, os peixes foram transportados ao laboratório, onde houve coleta de sangue, para quantificação do perfil plasmático de E2, 17α-OHP, T e 11-KT. Posteriormente, os animais foram abatidos e suas gônadas coletadas e fixadas, a fim de que fosse realizada análise histológica para identificação do sexo. Na reprodução induzida, foi coletado sangue em dois momentos: pré-indução (PI) e pós-extrusão (PE). O nível plasmático de E2 nos machos de 12 meses destaca sua ação no processo de proliferação e renovação das espermatogônia observado em machos imaturos. Nas fêmeas o E2 apresentou os maiores níveis (P<0,05) nos animais de 48 meses, confirmando assim, sua principal função na estimulação do processo de vitelogênese, e maturação final do oócito. Quanto aos andrógenos T e 11-KT, os maiores níveis (p<0,05) foram observados nos peixes adultos (48 meses), permitindo afirmar que estes atuam como feedback negativo, do FSH e feedback positivo do LH, fundamental no processo de maturação final e liberação dos gametas, além de regular o comportamento reprodutivo. O resultado da 17α-OHP, sugere que, nas idades estudadas, é indispensável por participar como precursor dos principais esteróides (T, E2 e 11-KT), além da 17α,20β dihydroxy-4-pregnen-3-one (17α,20β-DHP), essencial no estágio final de maturação, e desova na reprodução induzida. / The objective of this study was to investigate the physiological behavior of steroid hormones 17β-Estradiol (E2), 17α-hydroxyprogesterone (17α-OHP), testosterone (T) and 11-Ketotestosterone (11-KT) in Brycon orbignyanus with different sex and ages on the reproductive season and in females submitted to induced reproduction. The animals used in the study were kept in three ponds on a commercial fish farming, separated by lots with different ages. The sampling of animals consisted of the collection of four males and five females (48 months) identified by the sexual dimorphism of the specie. In the other groups (12 and 24 months), 20 fish of each age were collected for identification of sex through histology. In the experiment with characterization of the sexual steroids in the induced reproduction, were collected five females selected through the following characteristics: bulging abdomen and prominent reddish genital papilla. After capture, the fish were transported to the laboratory, where blood was collected for quantification of the plasma profile of E2, 17α-OHP, T and 11-KT Subsequently, the animals were slaughtered and their gonads were collected and fixed for histological analysis. In the induced females, blood was collected at two moments: pre-induction (PI) and post-extrusion (PE). The plasma profile of E2 is fundamental in immature males, highlighting its action in the process of proliferation and renewal of spermatogonia, observed in males of 12 months. In females E2 presented the highest levels (P <0.05) in animals at 48 months, thus confirming its main function in the stimulation of the vitellogenesis process and final oocyte maturation. The highest levels (p <0.05) of T and 11-KT androgens were observed in adult fish (48 months), allowing to affirm that they are acting as FSH negative feedback and LH positive feedback, fundamental in the final maturation and release of the gametes, besides regulating the reproductive behavior of the fish. The results of 17α-OHP suggest this hormon is fundamental in the studied ages because it is a precursor of the main steroids (T, E2 and 11-KT) and 17α, 20β-dihydroxy-4-pregnen-3-one (17α, 20β-DHP), essential in the final stage of maturation and spawning in induced reproduction. Piracanjuba Reprodução animal Ovogenese Espermatogênese Gonadatrofina Spermatogenesis Teleost reofílico Oogenesis GnRH Gonadotropins

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