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The role of the N-methyl-D-aspartate receptor (NMDAR)--NR2b subunit in female reproductive agingMaffucci, Jacqueline Ann 05 October 2012 (has links)
Reproductive senescence in females is a natural part of the aging process. However, the process by which it occurs, and the relative role of each level of the hypothalamic-pituitary-gonadal axis, remains largely unknown. The neural circuitry regulating the hypothalamic axis, including glutamate acting through N-Methyl-D-Aspartate receptors (NMDARs) on GnRH neurons, appears to be key to this process. The NMDAR is tetrameric and composed of an obligatory NR1 subunit together with NR2 subunits. The subunit composition determines the channel kinetics of the receptor and changes through the life span. This dissertation examines the physiological role of the NR2b subunit on LH pulsatile release and LH surge, both important for reproductive function. The expression of NR2b subunits in the anteroventral periventricular (AVPV) nucleus of the hypothalamus was also examined in aging rats. Experiment 1 showed that the NR2b-antagonist, ifenprodil, enhanced pulsatile LH release in estradioltreated females (both age groups). Experiment 2 showed that the LH surge in middle-aged animals was slightly accelerated and that results were dependent upon prior reproductive status of the animals. In Experiment 3, examination of the NR2b-immunoreactive cell population in young, middle-aged, and aged ovariectomized females given vehicle, estradiol, or estradiol with progesterone showed an age-associated decline in NR2b density. However, the immunofluorescent fraction volume of NR1 colocalized with NR2b increased with aging, and that of immunofluorescent fraction volume of NR2b increased with estradiol treatment. This is indicative of the amount of protein expressed in the AVPV. In total, NR2b cell density in the AVPV declines with age, but the amount of NR2b expressed in NR1-positive cells increases, suggesting a larger population of NR2b containing channels. This may translate to age-associated inhibition of GnRH/LH activity, which is relieved with blockade of NR2bcontaining NMDARs. Thus, this dissertation describes a novel way to examine the mechanism by which age-associated changes to neuromodulators of the HPG axis may affect the onset of reproductive senescence. / text
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Seasonal cycle of gonadal steroidogenesis and the effects of luteinizing hormone and luteinizing hormone releasing hormone on thein vitro and in vivo steroidal secretions in monopterus albusChen, Hui, 陳慧 January 1989 (has links)
published_or_final_version / Zoology / Master / Master of Philosophy
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Dissecting anxiety in the vervet monkey : a search for association between polymorphisms in the corticotropin releasing hormone (CRH) and neuropeptide Y (NPY) genes and anxious behaviorElbejjani, Martine. January 2007 (has links)
The involvement of corticotropin-releasing hormone (CRH) and neuropeptide Y (NPY) in the pathophysiology of anxiety and anxiety-related disorders is well established. The objective of this study is to explore the genetic variations in the CRH and NPY genes in a well-documented behavioral animal model, the vervet monkey (Chlorocebus aethiops sabaeus), in order to uncover a possible association between these polymorphisms and behavioral traits quantitatively extracted following analysis of social behavior and responses to novelty challenges. / The vervet CRH and NPY genes were amplified and sequenced; the priority was given to the regions expanding from -1kb upstream of the transcription initiation site (where most of the regulatory elements are found in both genes) through the second exon. / Polymorphism discovery analysis revealed the presence of 9 vervet CRH SNPs and 9 vervet NPY SNPs; the SNPs are relatively evenly distributed across the regions covered. An association between one intronic NPY SNP and "defensive aggression" was detected. / These results are coherent with other reports implicating NPY in defensive aggressive behavior, and support the notion that fear responses are fundamental behavioral traits for the dissection of anxiety.
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Modeling electrical spiking, bursting and calcium dynamics in gonadotropin releasing hormone (GnRH) secreting neuronsFletcher, 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.
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An investigation of endogenous ghrelin and growth hormone-releasing hormone following the consumption of two different relative doses of oral l-arginineMcCarthy, Amanda Marie Unknown Date
No description available.
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The influence of season on preovulatory events associated with estrus synchronization in dwarf goats raised in Quebec /Pierson, Janice. January 2000 (has links)
In temperate zones most breeds of goats are anestrous and anovulatory during spring and summer, but start cycling as day length decreases during the fall. In tropical zones, indigenous goats, such as the Pygmy and the Nigerian Dwarf, tend to cycle throughout the year. Some studies have indicated that dwarf breeds become more seasonal when they are raised in temperate zones, while others maintain that they are capable of breeding throughout the year. In this study, Pygmy and Nigerian Dwarf goats became more seasonal in Quebec. The majority of the animals were cycling during December and February, but a significant proportion exhibited anestrus during October, May, and June. Several hormones, including prostaglandins (PG), progestagens, and gonadotropins (eCG, FSH, GnRH, hCG), have been used for the control and synchronization of estrus and ovulation in goats, but limited research has been conducted with dwarf breeds. In this study, dwarf goats were synchronized in November, March, and July with a 10-day MAP sponge coupled with 125 mug cloprostenol i.m. 48 h before sponge removal and 300 IU eCG i.m. at sponge removal. A seasonal shift was detected in the intervals to the onset of estrus, the LH surge, and ovulation following sponge removal. These intervals were shorter in November and July than in March (P < 0.05). The intervals between the onset of estrus and the LH surge and between the LH surge and ovulation were found constant throughout the different seasons. The administration of 50 mug GnRH at 24 h after sponge removal improved the timing and synchrony of the LH surge and ovulation in dwarf goats (P < 0.05). The knowledge acquired from this research may serve to improve reproductive efficiency in dwarf goats by facilitating the determination of an optimal time for breeding, artificial insemination, and oocyte and embryo recovery.
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Structural and functional evolution of GnRH and its receptors in three chordate models : Branchiostoma floridae, Ciona intestinalis and Danio rerio.Tello, Javier Ananda 08 April 2010 (has links)
Neural control of reproduction in vertebrates and invertebrates has generated considerable interest due to the presence of common neuropeptides. Gonadotropin-releasing hormone (GnRH), a neuropeptide, is the final integrator of neural regulation governing reproduction in vertebrates by controlling the release of gonadotropins. Little is known about GnRH before the origin of vertebrates or about the biological significance of multiple GnRH forms in a single species. To understand the role of GnRH in invertebrates, I selected a tunicate, Ciona intestinalis, the sister group to vertebrates and amphioxus, Branchiostoina floridae, a group more basal than tunicates. Neural control of reproduction in these chordates was compared with that in the zebrafish, Danio rerio. From the zebrafish, I isolated four GnRH receptor cDNAs that each map to a distinct chromosome and are expressed in a variety of tissues. Each receptor was functional, as shown by its response to physiological doses of native GnRH peptides. Also, two receptors showed selectivity between GnRH1 and GnRH2. Protein localization of each zebrafish GnRH receptor with specific antisera showed that all four receptors are present in the pituitary. However, the most striking localization revealed the presence of GnRH networks in a major motor control centre and fibre tract system in the hindbrain and spinal cord. Both structures are major components in the control of motor movements, such as swimming. Phylogenetic and synteny analysis segregates the four zebrafish GnRH receptors into two distinct phylogenetic groups that are separate gene lineages conserved throughout vertebrate evolution. In Ciona intestinalis, we found two GnRH genes that each encode three GnRH decapeptides in tandem, for six unique GnRH forms from this species. These genes are expressed throughout development. With an immunocytochemical approach, at least one peptide was found in the dorsal strand nerve plexus adjacent to the gonads in adults. Injection near the gonads of gravid Ciona quickly induced spawning, suggesting a novel action for control of reproduction by GnRH. My further studies identified four novel GnRH receptors encoded within the genome of this protochordate, and showed that three receptors responded to Ciona GnRHs by stimulating intracellular accumulation of cAMP. In contrast, only one receptor activated inositol phosphate turnover in response to one of the Ciona GnRHs.
My final study involved identifying the GnRH signalling components in amphioxus. I found four novel GnRH receptors, with three displaying sensitivity to the highly conserved vertebrate GnRH2 and one of these showing selectivity for GnRH1. My pharmacological testing showed that the capacity to respond to GnRH1 and GnRH2 is evolutionarily conserved between amphioxus and vertebrates, and that key motifs found to be important in GnRH binding, signalling and activation are present in the amphioxus receptors. Phylogenetic analysis showed that two receptors cluster with the recently identified octopus GnRHR-like sequence; the other two receptors group at the base of the vertebrate GnRHR clade and may represent the proto-vertebrate condition, after which gene duplication and sequence divergence resulted in the four contemporary vertebrate GnRHRs. This work reveals novel and important features of the GnRH signalling axis throughout chordate evolution.
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Untersuchungen zur Nutzung von Altrenogest (Regumate®) und Gonadotropinen zur Zyklussteuerung von Alt- und Jungsauen mit negativem TrächtigkeitsbefundBeckjunker, Jochen 30 May 2007 (has links) (PDF)
In der vorliegenden Arbeit sollte die Wirksamkeit von Altrenogest (Regumate®) und Gonadotropinen bzw. des GnRH-Analogons D-Phe6-GnRH im Rahmen eines Verfahrens zur Brunst- und Ovulationssynchronisation bei besamten, als ingravid detektierten Jung- und Altsauen überprüft werden. Die Untersuchungen wurden an insgesamt 265 Jung- und 542 Altsauen vorgenommen. Die Sauen wurden im Rahmen der ultrasonografischen Trächtigkeitskontrolle, die zwischen den Tagen 21 und 35 nach der ersten künstlichen Besamung durchgeführt wurde, als ingravid detektiert und einer von drei verschiedenen Versuchsgruppen (VG) zugeteilt: VG 1 (n = 490): Applikation von 4 ml Regumate®/Tier/Tag oral über 15 Tage; einmalige subkutane (s.c.) Injektion von 1.000 IE PMSG/eCG 24 Stunden nach letztmaliger Regumate®-Gabe; i.m. Applikation von 500 IE hCG 78 bis 80 h nach PMSG/eCG zur Induktion der Ovulation; VG 2 (n = 135): identisch zu VG 1, aber Gabe von 5 ml Regumate® und 800 IE PMSG; VG 3 (n = 182): identisch zu VG 2, aber Injektion von 50 µg D-Phe6-GnRH zur Induktion der Ovulation. Die Sauen wurden jeweils zweimal im Abstand von 24 und 40 Stunden nach hCG bzw. D-Phe6-GnRH künstlich besamt. Der Erfolg der Behandlungen wurde anhand der sonografischen Untersuchung der Ovarien kontrolliert. Untersuchungen erfolgten zum Zeitpunkt der Trächtigkeitsuntersuchung, am Ende der Regumate®-Behandlung, unmittelbar vor der ersten und unmittelbar nach der zweiten künstlichen Besamung. Trächtigkeits- (TR) und Abferkelrate (AFR) sowie Anzahl insgesamt und lebend geborener Ferkel wurden dokumentiert. Als jeweilige Kontrolltiere dienten Jung- bzw. Altsauen, die brunst- und ovulationssynchronisiert wurden, zur Erstbesamung anstanden und zeitgleich wie die Tiere der Versuchsgruppe besamt wurden. Die Auffindungsrate der Ovarien betrug 88,9 % zum Zeitpunkt der Trächtigkeitsuntersu-chung (TU) und 98,3 % am Ende der Regumate®-Behandlung. Während der Besamungen konnten bei allen untersuchten Tieren die Ovarien dargestellt werden. Zum Zeitpunkt der TU wiesen die Sauen überwiegend Corpora lutea (CL; 56,3 %; p < 0,05) auf. Der zweithäufigste Befund waren Follikel von 2-6 mm Durchmesser (F2-6; 27,7 %; p < 0,05). Durch Altrenogest konnte das Follikelwachstum effektiv gehemmt werden, ohne die spontane Luteolyse zu beeinträchtigen. Mehr als 84 % der Tiere wiesen am Ende der 15-tägigen Behandlung mit Regumate® F2-6 auf. Altsauen, die 4 ml Regumate® erhielten, hatten häu-figer als die mit 5 ml behandelten Tiere polyzystisch degenerierte Ovarien (POD). Zahlrei-che Altsauen, vor allem solche mit periovulatorischen Funktionsgebilden zum Zeitpunkt der Trächtigkeitsuntersuchung (p < 0,05), wiesen zudem CL am Ende der Behandlung auf (16,3 %). Jungsauen ovulierten unabhängig von der ovulationsauslösenden Substanz überwiegend zwischen beiden Besamungen (p < 0,05), während Altsauen zu gleichen Anteilen zwischen den Besamungen und nach der zweiten Besamung ovulierten. Die ovulationsauslösende Substanz, d.h. hCG bzw. GnRH, hatte weder bei Jung- noch bei Altsauen einen Einfluss auf das Ovulationsverhalten. Der Ovulationszeitpunkt war ohne Einfluss auf die Trächtig-keitsrate. Altsauen, die D-Phe6-GnRH erhielten, wurden häufiger tragend als Tiere, die hCG erhielten (p < 0,05). Reziprokes Ergebnis erzielten die Jungsauen (p < 0,05). Kon-trolltiere wiesen Trächtigkeits- bzw. Abferkelraten auf, die bis zu 15,6 % (TR; p < 0,05) bzw. 16,8 % (AFR) höher als die der Versuchstiere waren, da vor allem die Altsauen, nicht aber Jungsauen aller drei Versuchsgruppen schlechtere Fruchtbarkeitsleistungen erzielten. Aus den Ergebnissen ist zu schlussfolgern, dass die kombinierte Anwendung von Altrenogest (Regumate®) und Gonadotropinen bzw. GnRH-Analogon D-Phe6-GnRH zur Brunst- und Ovulationssynchronisation bei besamten, als ingravid detektierten Jung- und Altsauen geeignet ist. Ausgehend von den Ergebnissen ist zu empfehlen, Sauen mit 5 ml Reguma-te®/Tier/Tag zu behandeln (Zyklusblockade). Ein Applikationsintervall von 15 Tagen ist ausreichend. Werden 800 IE PMSG/eCG 24 Stunden nach letztmaliger Regumate®-Applikation verabreicht, kann mit zuverlässiger Stimulation des Follikelwachstums gerechnet werden. Jungsauen sollten 500 IE hCG 78 bis 80 Stunden nach der PMSG/eCG-Gabe erhalten. Bei Altsauen sind dazu 50 µg des GnRH-Analogons D-Phe6-GnRH emp-fehlenswert. Die transkutane Ultrasonografie ist ein geeignetes Verfahren zur Darstellung von Ovarien und ovarieller Funktionskörper.
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Modeling electrical spiking, bursting and calcium dynamics in gonadotropin releasing hormone (GnRH) secreting neuronsFletcher, 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.
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Diurnal and estradiol-dependent regulation of the neuroendocrine signal for ovulation /Christian, Catherine Anne. January 2008 (has links)
Thesis (Ph. D.)--University of Virginia, 2008. / Includes bibliographical references. Also available in electronic form as viewed 2/16/2009.
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