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41	Differential Role Of FSH : A Study Using Sertoli Cells And Epididymal Cells Chitra Lekha, * 07 1900 (has links) (PDF) No description available. Harmone Functions Sertoli Cells Epididymal Cells Follicle Stimulating Hormone Follitropin Epididymis FSH Receptor BeWo Cells Biochemistry
42	Association of Follicle-Stimulating Hormone and Depression and Depressive Symptoms in Older Postmenopausal Women Fritz, Dana 09 July 2018 (has links) Worldwide, between 5 and 18% of postmenopausal women experience depression. While the associations of estrogens with depression have been researched extensively, relations with other postmenopausal hormones remain unclear. We evaluated the association of follicle stimulating hormone (FSH) levels with prevalent depression the Kuopio Ischaemic Heart Disease Risk Factor Study (n = 588). Study participants were postmenopausal women aged 53 to 73 years and not using hormone therapy at enrollment (1998-2001). FSH was measured by radioimmuno-assays. Depression symptoms were measured using a scale based on DSM-III criteria (score range = 0-12), with a score ≥5 indicative of probable depression. We assessed the relation of FSH levels with depression in multivariable linear and logistic models adjusting for age, body mass index, estradiol, antidepressant use, and other factors, and evaluated effect modification by age. In adjusted analyses of all participants, higher FSH levels were associated with lower prevalence of depression (OR comparing ≥50 vs/L = 0.50, P = 0.02). Each 10-unit increase in FSH was associated with a 17% lower prevalence of depression (95% CI 0.70-0.99). Regression coefficients for Quartiles (Q) 2-4 vs. Q1 of FSH were 0.208, -0.170, -0.472, respectively (P = 0.14). Associations were mainly observed in older women (OR 0.47, P = 0.05; ages 64-73 years). Higher FSH levels in older postmenopausal women were associated with lower prevalence of depression and depressive symptoms, independent of estradiol, adiposity measures, and other factors. Further research is warranted to evaluate mechanisms underlying these associations, including effects of FSH on immune function. Follicle-stimulating hormone depression depressive symptoms postmenopausal women Epidemiology Mental Disorders Women's Health
43	Role of Endogenous Dopamine in Regulation of Anterior Pituitary Hormone Secretion During Early Postpartum and Various Stages of the Estrous Cycle in Holstein Cows Ahmadzadeh, Amin 27 October 1998 (has links) The role of endogenous dopamine, utilizing a dopamine antagonist (fluphenazine; FLU), in modulation of gonadotropin, growth hormone (GH) and prolactin (PRL) secretion during the early postpartum period and various stages of the estrous cycle was investigated in Holstein cows. Experiment 1 was conducted in anovulatory early postpartum cows. Fluphenazine caused a decrease (P < .05) in mean serum LH concentration and LH pulse frequency. Likewise, FLU caused a (P < .05) decrease in mean GH concentration. These results suggest that endogenous dopamine, at least in part, is responsible for regulation of LH and GH secretion in anovulatory Holstein cows. Experiment 2 was conducted in cyclic lactating Holstein cows during the mid-luteal phase of the estrous cycle. Mean serum LH and FSH concentrations, pulse frequencies, and peak amplitudes did not change in response to FLU. FLU did not affect mean serum GH concentration. These results suggest that a dopamine-mediated mechanism for modulation of gonadotropin and GH secretion is absent or perhaps overridden by high progesterone concentration during the luteal phase of the estrous cycle in lactating dairy cows. Experiment 3 was conducted during the early follicular phase of the estrous cycle in Holstein cows. During the follicular phase, FLU caused a decrease (P < .05) in mean serum LH concentration and LH pulse frequency. However, FLU had no effect on mean serum FSH concentration or pulse frequency. Further, FLU increased (P < .05) GH concentrations during the follicular phase. Experiment 4 was conducted during the early metestrus phase of the estrous cycle. During the metestrus phase, FLU tended to decrease (P < .1) mean LH concentration and suppressed (P < .05) LH pulse frequency but had no effect on FSH secretion. Fluphenazine caused a transient increase (P < .05) in mean serum GH concentration. The results of the third and fourth experiments suggest that, during the early follicular and metestrus phases of the estrous cycle, when progesterone concentration is low, modulation of LH and GH secretion, at least in part, is modulated by endogenous dopamine. However, a dopamine mediated mechanism for FSH secretion is absent during both phases of the estrous cycle in lactating Holstein cows. In all experiments FLU increased (P < .01) PRL secretion indicating that endogenous dopamine suppresses PRL secretion in cattle regardless of ovarian status. It is concluded that: 1) endogenous dopamine plays a stimulatory role in LH secretion during the anovulatory postpartum period and during the estrous cycle only when serum progesterone is low. 2) FLU decreased GH secretion in anovulatory postpartum Holstein cows but it increased GH secretion during the follicular and metestrus phases of the estrous cycle. However FLU had no effect on GH secretion during the luteal phase of the estrous cycle. Thus it appears that, modulation of GH secretion is dependent upon reproductive status and ovarian hormones secretion. / Ph. D. follicle stimulating hormone luteinizing hormone dopamine antagonist growth hormone prolactin cattle
44	Incorporating follicle stimulating hormone to stimulate multiple corpora lutea for embryo transfer in beef cattle Carter, Bryan 09 August 2022 (has links) Assisted reproductive technologies, such as estrus synchronization and embryo transfer, can aid producers in improving genetics by increasing the number of progeny produced from elite females. The success of embryo transfer is dependent on a viable, competent embryo and a recipient with a receptive uterine environment. Follicular development and luteinization are pertinent for the recipient to establish a functional corpus luteum (CL) that can produce adequate concentrations of progesterone (P4) and provide a uterine environment conducive for the establishment of pregnancy. The objective of this study was to determine if exogenous follicle stimulating hormone (FSH), would increase the number of CL, size and blood perfusion of the largest CL, as well as circulatory concentrations of P4. follicle stimulating hormone corpus luteum progesterone cattle embryo transfer Beef Science
45	Identification Of Domains Of The Follicle Stimulating Hormone Receptor Involved In Hormone Binding And Signal Transduction Agrawal, Gaurav 11 1900 (has links) The glycoprotein hormones, Luteinizing Hormone (LH), human Chorionic Gonadotropin (hCG), Follicle Stimulating Hormone (FSH) and Thyroid Stimulating Hormone (TSH) are heterodimeric proteins with an identical α-subunit associated noncovalently with the hormone specific β-subunit and play important roles in reproduction and overall physiology of the organism (Pierce & Parsons, 1981). The receptors of these hormones belong to the family of G-protein coupled receptors (GPCR) and have a large extracellular domain (ECD)comprising of 9-10 leucine rich repeats (LRR) followed by a flexible hinge region, a seven helical transmembrane domain (TMD) and a C terminal cytoplasmic tail (Vassart et al, 2004). Despite significant sequence and structural homologies observed between the ECDs of the receptors and the specific β-subunits of the hormones, the hormone-receptor pairs exhibit exquisite specificity with very low cross-reactivity with other members of the family. Several biochemical, immunological and molecular biological tools have been employed to elucidate the structure– function relationship of the hormones and their receptors. These studies also helped in deciphering some of the regions present in both the hormones and the receptors involved in maintaining the specificity of their interaction (Fan & Hendrickson, 2005b; Fox et al, 2001; Wu et al, 1994). However, the complete understanding of the hormone-receptor contact sites and mechanism of receptor activation are still an enigma. Understanding the molecular details of these phenomena can lead to the development of novel strategies of regulating hormone action. Binding of FSH to FSHR occurs in the large extracellular NH2-terminal domain where the participation of the LRRs (amino acids 18-259) is essential to determine the ligand selectivity (Dias & Van Roey, 2001; Fan & Hendrickson, 2005a; Szkudlinski et al, 2002). In fact, mutations in these regions lead to reduction in binding of the agonist to the receptor. It is not known how the signal from the large extracellular domain liganded complex is transmitted to the TMD (amino acids 367-695). It is envisioned that hormone binding to the LRRs leads to series of conformational changes leading activation of the TMD resulting in signal transduction. The recently reported crystal structure of the single chain form of FSH in complex with the leucine rich repeats of the FSHR (amino acids 1-268) (Fan & Hendrickson, 2005b), although provides detailed understanding of the molecular interactions of the LRRs with the hormone, fails to provide any insights into mechanism of receptor activation as the information regarding critical interaction of the hormone with TMD. This structure also did not provide any information on the role of the hinge region (amino acids 259-366) that connects the LRRs to the TMD in hormone binding and activation of the receptor. In the present study an attempt has been made to understand the role of the hinge region in hormone binding and signal transduction. The overall objective of the study is to elucidate the molecular details of the hormone receptor interactions, particularly FSH-FSHR interaction. Antibodies to glycoprotein hormones and their receptors have often provided insights into the mechanism of hormone-receptor interactions and signal transduction. While the TSH receptor antibodies and their effects on the overall physiology have been well documented (Khoo & Bahn, 2007; Rapoport & McLachlan, 2007), reports of such antibodies against FSHR or LHR and their possible effects on the reproductive functions are not available. In the present study, effects of FSHR antibodies with different specificities on FSH-FSHR interactions have been investigated. Antibodies to different regions of rat FSHR, were raised and extensively characterized and their effects of FSH-FSHR interactions and signaling were investigated. It was found that a polyclonal antibody against the hinge of the receptor (RF2 antiserum, amino acids 218-336), while having no significant effect on hormone binding and response could stimulate the receptor by itself bypassing the hormone. This stimulation of FSHR was very specific as this antiserum could not stimulate LHR or TSHR and could be blocked by preincubating the antibody with the antigen. Through competition experiments with different synthetic peptides of human FSHR, a stretch of hinge region corresponding to amino acids 296-331 was identified as the site recognized by the stimulatory antibody. This antibody did not interfere in hormone binding and could also bind to the pre-formed hormone-receptor complex suggesting that the binding site of the antibody may not participate directly in hormone binding. Subsequently the antibody was extensively characterized for its effect of hormone receptor interactions (Chapter 2). Previous studies considered the hinge region to be an inert linker connecting the LRRs to the TMD, a structural entity without any known functional significance (Vlaeminck-Guillem et al, 2002). However, the data with RF2 antibody suggested a direct role of the hinge region in signal transduction. Therefore, a systematic study to dissect the role to hinge region in hormone binding and signal transduction was conducted. Several truncations, deletions, activating and inactivating point mutations in the FSHR were generated to understand the mechanism of receptor activation. Firstly, these mutant receptors were characterized for their ability to translocate to the cell surface when transfected in the cultured mammalian cells. Secondly, affinity of all the mutant receptors for the hormone was determined in order to understand the effect of mutations on hormone binding. Finally, the cAMP response of these mutant receptors to the hormone and the stimulatory antibody was investigated to understand the effects of mutations on signal transduction. The results are described in Chapter 3. The hormone binding analysis and the affinity measurement of the mutant receptors showed that the LRRs are involved in high affinity hormone binding while the hinge region may not contribute to the process. This is in agreement with the crystal structure data which showed that the hormone was bound to the truncated receptor fragment representing only the LRRs (Fan & Hendrickson, 2005b). These binding data also corroborated the earlier data indicating that the antibodies against the hinge region do not interfere in hormone-receptor interactions. Further, the analysis of different N-terminally truncated receptor mutants provided strong evidence indicating that the constraining intramolecular interactions between the extracellular and the transmembrane domains are required to maintain the FSHR in an inactive conformation in the absence of an agonist. The analysis of the constitutive basal activity of the mutant receptors in absence of hormone suggested that certain regions of the extracellular domain had an attenuating effect over the TMDs that prevented constitutive activation of the receptor. This was demonstrated by a marked increase in the basal constitutive activity of the receptor upon the complete removal of its extracellular domain. Detailed analysis of the mutants suggested that LRR portion does not contribute to this attenuating effect, but it is the hinge region that perhaps interacts with the TMDs and dampens its basal constitutive activity. This attenuating effect was further narrowed down to a small stretch of 35 amino acids (296-331) within the hinge region. It was striking that the similar stretch was identified as the binding site of the stimulatory receptor antibody. In pharmacology, an ‘inverse agonist’ is an agent which binds to the receptor and reverses the constitutive activity of receptors. Thus the hinge region of the receptor could be termed as a ‘tethered inverse agonist’ of the TMD, since it is covalently associated with the TMD and their interactions dampen the basal constitutive activity of the receptor. However, careful comparison of the activities of the mutants (receptors harboring deletions and gain-of-function mutations) with maximally stimulated wild-type FSHR indicated that these mutations of the receptor resulted only in partial activation of the serpentine domain suggesting that only the ECD in complex with the hormone is the full agonist of the receptor. Moreover, the hinge region stabilizes the TMD in an inactive conformation and the activating mutations disengage the inhibitory ECD–TMD interactions bringing about partial activation of the receptor. Most interestingly, the deletion of amino acids 296-331 from hFSHR resulted in no further response to the hormone indicating that this part of the receptor is also critical for hormonal activation, perhaps playing a dual role in the attenuation of the basal activity and a direct involvement in the hormonal activation of the receptor. Progressive sequential deletions of ten amino acids from 290 to 329 yielded similar results (high basal cAMP production with concomitant loss of hormone and antibody response) clearly demonstrating that the integrity of this region is absolutely essential for hormonal activation. In conclusion, the study provides a conclusive evidence to show that the hinge region of FSHR, although not involved in primary high affinity hormone binding, plays a critical role in the modulation of the receptor activity in absence, as well as, presence of the hormone. A large array of reproductive abnormalities is associated with malfunctioning of FSHR. To explore the possibility of using the stimulatory antibodies for therapeutic purpose, three inactivating mutations of hFSHR were analyzed. In corroboration with the earlier reports (Doherty et al, 2002; Touraine et al, 1999), the mutants A419T and L601V are incapable of transducing the signal, despite having adequate cell surface expression and wild type affinities for the hormone, mainly because of defective TMD. The RF2 antibody failed to elicit any response from these mutants suggesting that its ability to activate the receptor depends on the status of the TMD. Interestingly, the activating mutant D576G, which showed very high basal cAMP production, could be stimulated by both antibody and the hormone to the nearly wild type levels suggesting that in this mutant the interactions between the hinge region and TMD are similar to that of wild type and higher basal cAMP production could be due to different interactions of the TMD with the G-Proteins. Structure-function studies of glycoprotein hormones and their receptors have been hampered due to low levels of expression of the properly folded proteins in heterologous systems (Chazenbalk & Rapoport, 1995; Hong et al, 1999b; Peterson et al, 2000; Sharma & Catterall, 1995; Thomas & Segaloff, 1994). Previous studies from the laboratory have shown that the Pichiapastoris,which blends the advantages of both bacterial and mammalian expression systems, can be used to hyper-express biologically active hormones (Blanchard et al, 2008; Gadkari et al, 2003; Samaddar et al, 1997). In addition, the same expression system has been used to produce single chain hormone analogs (Roy et al, 2007; Setlur & Dighe, 2007). Further, methodologies for Pichiafermentation and purification of recombinant hormones from the fermentation media have been wellestablished in the laboratory. Chapter 4 describes the work carried out to express, purify and characterize a fully functional hFSHR extracellular domain. Thus a stage is now set to attempt structural studies with the receptor. The results are discussed at the end of each of these chapters and future directions have been discussed at the end of this thesis. Hormone Receptor Hormone Binding Signal Transduction Hormone-Receptor Interactions Follicle Stimulating Hormone Receptor Glycoprotein Hormone Receptor FSHR Agonistic Antibodies hFSHR Extracellular Domain hFSH Receptor Antibody Biochemistry
46	Single nucleotide polymorphism in the coding sequence of follicle stimulating hormone receptor and susceptibility to ovarian andendometrial cancer Yang, Chongqing., 楊重慶. January 2004 (has links) published_or_final_version / abstract / Pathology / Master / Master of Philosophy Genetic polymorphisms. Human genetics - Variation. Ovaries - Cancer - Genetic aspects. Endometrium - Cancer - Genetic aspects.
47	The oestrous cycle and manipulation of reproduction in the common wombat (Vombatus ursinus) West, Matt (Matthew Roger), 1974- January 2002 (has links) Abstract not available Vombatus -- Australia -- Reproduction Estrus Follicle-stimulating hormone Fertilization in vitro
48	The Effects of the Female Reproductive Hormones on Ovarian Cancer Initiation and Progression in a Transgenic Mouse Model of the Disease Laviolette, Laura 03 May 2011 (has links) Ovarian cancer is thought to be derived from the ovarian surface epithelium (OSE), but it is often diagnosed during the late stages and therefore the events that contribute to the initiation and progression of ovarian cancer are poorly defined. Epidemiological studies have indicated an association between the female reproductive hormones and ovarian cancer etiology, but the direct effects of 17β-estradiol (E2), progesterone (P4), luteinizing hormone (LH) and follicle stimulating hormone (FSH) on disease pathophysiology are not well understood. A novel transgenic mouse model of ovarian cancer was generated that utilized the Cre/loxP system to inducibly express the oncogene SV40 large and small T-Antigen in the OSE. The tgCAG-LS-TAg mice developed poorly differentiated ovarian tumours with metastasis and ascites throughout the peritoneal space. Although P4 had no effect; E2 significantly accelerated disease progression in tgCAG-LS-TAg mice. The early onset of ovarian cancer was likely mediated by E2’s ability to increase the areas of putative preneoplastic lesions in the OSE. E2 also significantly decreased survival time in ovarian cancer cell xenografts. Microarray analysis of the tumours revealed that E2 mainly affects genes involved in angiogenesis and cellular differentiation, proliferation, and migration. These results suggest that E2 acts on the tumour microenvironment in addition to its direct effects on OSE and ovarian cancer cells. In order to examine the role of the gonadotropins in ovarian cancer progression, the tgCAG-LS-TAg mice were treated with 4-vinylcyclohexene-diepoxide (VCD) to induce menopause. Menopause slowed the progression of ovarian cancer due to a change in the histological subtype from poorly differentiated tumours to Sertoli tumours. Using a transgenic mouse model, it was shown that E2 accelerated ovarian cancer progression, while P4 had little effect on the disease. Menopause (elevated levels of LH and FSH) altered the histological subtype of the ovarian tumours in the tgCAG-LS-TAg mouse model. These results emphasize the importance of generating animal models to accurately recapitulate human disease and utilizing these models to develop novel prevention and treatment strategies for women with ovarian cancer. ovarian cancer mouse model 17β-estradiol progesterone ovarian surface epithelium menopause VCD follicle stimulating hormone luteinizing hormone
49	The Effects of the Female Reproductive Hormones on Ovarian Cancer Initiation and Progression in a Transgenic Mouse Model of the Disease Laviolette, Laura 03 May 2011 (has links) Ovarian cancer is thought to be derived from the ovarian surface epithelium (OSE), but it is often diagnosed during the late stages and therefore the events that contribute to the initiation and progression of ovarian cancer are poorly defined. Epidemiological studies have indicated an association between the female reproductive hormones and ovarian cancer etiology, but the direct effects of 17β-estradiol (E2), progesterone (P4), luteinizing hormone (LH) and follicle stimulating hormone (FSH) on disease pathophysiology are not well understood. A novel transgenic mouse model of ovarian cancer was generated that utilized the Cre/loxP system to inducibly express the oncogene SV40 large and small T-Antigen in the OSE. The tgCAG-LS-TAg mice developed poorly differentiated ovarian tumours with metastasis and ascites throughout the peritoneal space. Although P4 had no effect; E2 significantly accelerated disease progression in tgCAG-LS-TAg mice. The early onset of ovarian cancer was likely mediated by E2’s ability to increase the areas of putative preneoplastic lesions in the OSE. E2 also significantly decreased survival time in ovarian cancer cell xenografts. Microarray analysis of the tumours revealed that E2 mainly affects genes involved in angiogenesis and cellular differentiation, proliferation, and migration. These results suggest that E2 acts on the tumour microenvironment in addition to its direct effects on OSE and ovarian cancer cells. In order to examine the role of the gonadotropins in ovarian cancer progression, the tgCAG-LS-TAg mice were treated with 4-vinylcyclohexene-diepoxide (VCD) to induce menopause. Menopause slowed the progression of ovarian cancer due to a change in the histological subtype from poorly differentiated tumours to Sertoli tumours. Using a transgenic mouse model, it was shown that E2 accelerated ovarian cancer progression, while P4 had little effect on the disease. Menopause (elevated levels of LH and FSH) altered the histological subtype of the ovarian tumours in the tgCAG-LS-TAg mouse model. These results emphasize the importance of generating animal models to accurately recapitulate human disease and utilizing these models to develop novel prevention and treatment strategies for women with ovarian cancer. ovarian cancer mouse model 17β-estradiol progesterone ovarian surface epithelium menopause VCD follicle stimulating hormone luteinizing hormone
50	Avaliação da laparoscopia na aspiração folicular em fêmeas caprinas pré-púberes e adultas com ou sem estimulação ovariana hormonal / Cordeiro, Mabel Freitas. January 2006 (has links) Orientador: Wilter Ricardo Russiano Vicente / Banca: Tânia Vasconcelos Cavalcante / Banca: José Wanderley Cattelan / Banca: Lia de Alencar Coelho / Banca: Cintia Lúcia Maniscalco / Resumo: O uso repetido da laparoscopia para aspiração folicular (LAF) associado ou não à estimulação hormonal foi avaliado. Para tanto foram utilizadas 40 fêmeas caprinas sem-raça-definida, divididas aleatoriamente em 4 grupos com 10 animais cada, sendo: Grupo 1 - adultas estimuladas com 80 mg de FSHp e 300 UI de eCG; Grupo 2 - adultas não estimuladas (controle); Grupo 3 - prépúberes estimuladas com metade das doses preconizadas para o G1 e Grupo 4 - pré-púberes não estimuladas. Cada fêmea foi submetida a seis sessões de colheita com intervalo de uma semana entre as intervenções. A estimulação hormonal foi feita em dose única, 36 horas antes do ato operatório. A técnica consistiu do uso de duas punções para a introdução do endoscópio e da pinça de manipulação atraumática. Após a visualização dos ovários, os folículos visíveis na sua superfície foram puncionados com auxílio de agulha de aspiração acoplada a um sistema de vácuo. Os oócitos encontrados foram classificados de acordo com a qualidade, submetidos à maturação in vitro por 27 horas, e posteriormente fixados e corados para avaliação do estádio de maturação. A técnica utilizada, embora tenha apresentado redução da qualidade dos oócitos, não interferiu na taxa de maturação ao longo das seis intervenções. A resposta ovariana diminuiu com o uso repetido da estimulação com FSH exógeno. Não houve comprometimento da condição corporal e da fertilidade dos animais. A avaliação das funções hepática e renal e da analgesia, indica que o protocolo anestésico utilizado é seguro e eficiente para este tipo de procedimento cirúrgico. Diante dos resultados obtidos pode-se concluir que a técnica de laparoscopia para aspiração folicular é adequada para a obtenção de oócitos de fêmeas caprinas pré-púberes e adultas. / Abstract: The repeated use of the laparoscopy to follicular aspiration (LFA) associated or not the hormonal stimulation was evaluated. Forty crossbred goat females were used, divided randomly in 4 groups with 10 animals each, being: Group 1 - adult stimulated with 80 mg of FSHp and 300 UI of eCG; Group 2 - adult not stimulated (control); Group 3 - pre-pubertal stimulated with half of the dose praised for the G1 and Group 4 - prepubertal not stimulated. Each female was submitted the six sessions of harvest with interval of one week between the interventions. The hormonal stimulation was made in only dose, 36 hours before the surgery. The technique consisted of the use of two punctions for the introduction of the endoscopy and the clamp atraumatic manipulation. After the visualization of the ovaries, the visible follicles in its surface were punched with aid of needle of aspiration connected to a vacuum system. The recovery oocytes were classified in accordance with the quality, submitted to in vitro maturation for 27 hours, and later fixed and stained for evaluation of maturation state. The used technique does not interfered in the maturation rate although oocytes quality has reduced. However the ovulatory response diminished with the repeated use of exogenous FSH stimulation. Damage was not observed in corporal condition nor fertility. The evaluation of the hepatic function, renal and pain analysis, showed that the anaesthetic protocol used is safe and efficient for this type of surgery. In conclusion, the technique of laparoscopy to follicular aspiration is adjusted for the attainment of oocytes in goat females adult and prepubertal. / Doutor Laparoscopia. Caprino. Hormônio folículo-estimulante. Follicular aspiration. eng Oocyte. eng Laparoscopy. eng Goats. eng Follicle-stimulating hormone. eng

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