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PCB Effects on Brain Type II 5'Deiodinase Activity in Developing BridsFowler, Leslie Ann 16 March 2001 (has links)
PCBs are known to cause thyroid disruption in laboratory rats and are thought to be the causal agent in thyroid gland alterations in herring gulls in the Great Lakes. This study examined the regulation of thyroid hormone supply during development in (1) domestic chicken embryos (Gallus domesticus) exposed to a specific dioxin-like PCB congener (PCB-126) and (2) herring gull (Larus argentatus) embryos and pre-fledglings from Great Lakes sites with different chemical pollutant exposures. Specifically, PCB effects on thyroid status were evaluated by measuring plasma thyroid hormone concentrations and brain type II 5'D activity (to determine if PCB exposure was associated with alteration in brain 5'D type II activity that could maintain local T3 supply to the brain). If PCB-126 and PCB mixtures altered thyroid function, we expected to see decreased plasma thyroid hormone concentrations and subsequent increases in 5'D-II activity. Chicken eggs were injected (into the air cell) before incubation with five dose levels (0.0512, 0.128, 0.32, 0.64, 0.8 ng/g) of PCB-126 (3,3, 4,4',5-pentachlorobiphenyl), or vehicle (sunflower oil); sampling was on day 20 of the 21-day incubation period. Studies on PCB-treated embryos included a preliminary study and a larger study encompassing a serious of smaller studies. Herring gull embryos (at pipping, on day 25 of the 26 day incubation), and 28-day pre-fledgling chicks were sampled (for two field seasons) at several Great Lakes sites with different contaminant exposures (with Kent Island being the reference site). In PCB-treated chicken embryos, there were no statistically significant decreases in plasma T4 or T3 concentrations and no significant increases in brain 5'D-II activity in either the preliminary or the larger study. We found no clear pattern of altered thyroid function in herring gulls from polluted Great Lakes' sites. Plasma TH concentrations were not significantly decreased and 5'D-II activity did not significantly increase in birds from more contaminated sites in comparison to birds from Kent Island or sites with less contamination. Although pipped embryos from Strachnan Island had a significant increase in 5'D-II activity when compared to Kent Island, there were no differences in plasma TH concentrations, and brain 5'D-II activity was not significantly increased in birds from sites with greater PCB loads than Strachnan Island. Plasma T4 and T3 concentrations were significantly decreased in prefledglings from West Sister Island and Detroit Edison in comparison to Kent Island, but there was no subsequent increase in brain 5'D-II activity. The present study is the first to evaluate the potential effects of PCBs, alone and in a mixed environmental exposure, on circulating THs and brain 5'D-II activity in developing birds. Although thyroid function was not altered by the specific PCB congener used in my study or by exposure to environmental pollutants, more complete evaluations are needed before determining whether PCBs alter thyroid function in birds. / Master of Science
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Étude de l'enzyme UGT2B28 et son rôle dans le cancer de la prostateBelledant, Anaïs 24 April 2018 (has links)
Contexte: L’inactivation des androgènes est majoritairement régulée par des enzymes du métabolisme de la famille des UDP-glucuronosyltransferase (UGT). Ce procédé métabolique permet de contrôler la biodisponibilité des hormones stéroïdiennes systémiques et locales. Objectif : L’objectif était d’étudier la relation entre l’expression de l’enzyme UDP-glucuronosyltransferase 2B polypeptide 28 (UGT2B28), impliquée dans la biotransformation des hormones, avec les niveaux hormonaux circulants, et les caractéristiques clinico-pathologiques dans le cancer de la prostate (CaP). Conception et participants : Nous avons utilisé dans cette étude la technique d’immunohostochimie à grande échelle (tissue microarray) sur les tissus de 239 patients ayant un CaP localisé. L’étude des 51 patients additionnels ne possédant pas l’enzyme UGT2B28 dans leur génome, a été effectuée pour confirmer l’importance de cette enzyme sur les niveaux hormonaux circulants. Résultats : La surexpression de l’enzyme UGT2B28 a été associée à des niveaux d’antigène prostatique spécifique (APS) au diagnostic plus faibles, à un score de Gleason plus élevé, à des marges et statuts nodaux positifs, et fut associée de façon indépendante au risque de progression. La surexpression de l’enzyme fut également associée à des niveaux circulants de testostérone (T) et dihydrotestostérone (DHT) plus élevés. Les patients n’exprimant pas le gène UGT2B28 avaient des niveaux plus bas de T (19%), de DHT (17%), de métabolites glucuronidés (18-38%), et des niveaux plus élevés du précurseur surrénalien androsténédione (36%). Conclusion : L’enzyme UGT2B28 modifie les niveaux circulants de T et DHT, et sa surexpression est associée avec un CaP à plus haut grade. Notre étude a permis de découvrir un nouveau rôle d’UGT2B28, celui de régulateur de la stéroïdogenèse, et a souligné l’interconnexion entre les capacités de biotransformation hormonale des cellules cancéreuses, des niveaux hormonaux, des caractéristiques clinicopathologiques et du risque de progression. / Background : Androgen inactivation occurs mainly through the glucuronidation conjugative reaction mediated by UDP-glucuronosyltransferases (UGTs). This metabolic process is involved in the control of systemic and local androgen bioavailability. Objective : To examine the relationship among expression of the androgen-inactivating UGT2B28 enzyme, circulating steroid hormone levels, and clinical phenotype in prostate cancer (PCa). Design, setting, and participants : We conducted an analysis of a high-density prostate tumor tissue microarray consisting of 239 localized PCa cases. The study of 51 additional PCa patients with no copies of UDP glucuronosyltransferase 2B subfamily, polypeptide B28 (UGT2B28) in their genomes was performed to confirm the importance of the enzyme on circulating hormone levels. Outcome measurements and statistical analysis : Steroid hormones were measured by mass spectrometry. Multivariate Cox proportional hazard models assessed the influence of UGT2B28 on progression, and general linear model regression evaluated variations in hormone levels. Results and limitations : Tumor overexpression of UGT2B28 was associated with lower prostate-specific antigen levels at diagnosis, higher Gleason scores, margin and nodal invasion status, and it was shown to be an independent prognostic factor associated with progression. Enzyme overexpression correlated with 30% higher circulating levels of testosterone (T) and dihydrotestosterone (DHT). Patients with no copies of UGT2B28 in their genomes have lower levels of T (19%), DHT (17%), its glucuronide metabolites (18–38%), and enhanced levels of the adrenal precursor androstenedione (36%). Conclusions : The UGT2B28 steroid-inactivating pathway modifies circulating T and DHT levels, and UGT2B28 overexpression is associated with high-grade PCa. Our work has uncovered the role of UGT2B28 as a regulator of steroidogenesis and underscores the interconnectivity among the steroid-inactivation capacity of cancer cells, hormone levels, disease characteristics, and the risk of cancer progression.
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Étude de l'expression des microARNs et des enzymes de synthèse des corticostéroïdes dans le développement pulmonaireBouhaddioui, Wafae 24 April 2018 (has links)
Le syndrome de détresse respiratoire du nouveau-né (SDR) est l’une des pathologies les plus fréquentes dont souffrent les bébés prématurés. Le SDR est causé par un déficit dans la synthèse du surfactant pulmonaire en raison de l’immaturité du poumon lors d’une naissance prématurée. Plusieurs éléments régulent le développement pulmonaire notamment les stéroïdes sexuels et les corticostéroïdes. Le sexe est aussi un élément régulateur du développement pulmonaire. En effet, les garçons sont plus atteints que les filles par le SDR. Ce dimorphisme sexuel est attribué aux androgènes. Le traitement anténatal aux glucocorticoïdes est prescrit aux femmes qui sont à risque d’accoucher prématurément. En effet, les corticostéroïdes favorisent la maturation pulmonaire anténatale. Également, il a été démontré que les microARNs sont primordiaux pour le développement pulmonaire. Ceci nous a conduit à étudier l’impact des androgènes sur le profil d’expression des microARNs lors de la transition du stade canaliculaire au stade sacculaire (jour gestationnel (JG)17.0 au JG18.0), période qui coïncide avec la montée de la synthèse et de la sécrétion du surfactant chez la souris. Tout d’abord, nous avons étudié la stabilité des gènes de normalisation (snoRNAs) afin de quantifier les microARNs par qPCR. Cette analyse a été effectuée avec 3 logiciels différents et sur plusieurs stades du développement notamment de la période pseudoglandulaire jusqu’au stade alvéolaire chez les deux sexes. On a identifié les meilleures combinaisons de gènes de normalisation les plus stables pour chaque stade du développement étudié ainsi que pour la période couvrant tous les stades étudiés. Ensuite nous avons analysé à GD17.0 et GD18.0 le profil d’expression des microARNs chez des fœtus mâles dont les mères ont été traitées au flutamide (anti-androgènes pure). Les résultats ont montré que 43 microARNs matures sont modulés par les androgènes à GD17.0 et 35 microARNs à GD18.0. Pour certains microARNs, nous avons identifié des cibles potentielles qui sont inversement modulées par les androgènes par rapport aux microARNs. Ces cibles sont impliquées dans plusieurs processus biologiques tels que le métabolisme des lipides et la prolifération cellulaire ainsi que dans des fonctions moléculaires tels que la liaison des facteurs de transcription. Des expériences de validation ont été effectuées par qPCR. Nos résultats ont montré que les androgènes régulent des processus qui peuvent être impliqués dans la maturation pulmonaire via la régulation des microARNs. En plus de l’intérêt porté aux androgènes dans la maturation pulmonaire, nous avons analysé l’expression d’enzymes de synthèse des corticostéroïdes dans le poumon fœtal humain. L’expression de l’enzyme 21-hydroxylase a été étudiée par qPCR et par immunobuvardage. Également la localisation de l’ARNm de cette enzyme clé de la synthèse des glucocorticoïdes, a été effectuée par hybridation in situ. L’ARNm de CYP21A2 a été détecté par qPCR dans les 34 échantillons analysés et dont les âges variaient entre 17 et 40 semaines de grossesse. Aucune corrélation, avec l’âge gestationnel ou le sexe, n’a été observée. Des niveaux significatifs de la protéine 21-hydroxylase ont été détectés dans nos échantillons. Nous avons investigué l’expression d’autres enzymes impliquées dans la voie de synthèse des glucocorticoïdes notamment CYP11B1, CYP11B2 et CYP17A1. Les ARNm des gènes CYP11B1, CYP11B2 n’ont pas été détectés dans nos échantillons, contrairement à CYP17A1 dont l’ARNm a été détecté dans tous nos tissus fœtaux analysés. La protéine de la 17α-hydroxylase a été détectée à de faibles niveaux. Nos résultats d’hybridation in situ ont montré que l’expression de CYP21A2 est localisée presqu’exclusivement dans l’épithélium pulmonaire distal. Nos résultats suggèrent que les produits de la 21-hydroxylase agiront via une action intracrine sur l’épithélium distal en activant le récepteur des glucocorticoïdes (GR). L’activation du récepteur des minéralocorticoïdes (MR) ne semble pas dépendre de produits de la 21-hydroxylase en raison des quantités importantes d’aldostérone circulante. / Respiratory distress syndrome of the newborn (RDS) is one of the most common diseases affecting preterm babies. RDS is caused by a deficiency in the synthesis and secretion of pulmonary surfactant as a result of lung immaturity caused by a premature birth. Several elements and factors regulate lung development including sex steroids and corticosteroids and the sex of the infant. In fact, boys are more affected than girls by RDS. This sexual dimorphism is attributed to the presence of androgens in male lungs. In contrast, corticosteroids are given to mother at higher risk to deliver prematurely to promote antenatal lung maturation of the fetuses. As other factors, it has been shown that microRNAs are essential to lung development. This led us to study the impact of androgen on the expression profile of microRNAs in the transition period between canalicular and saccular stages (gestational day (GD)17.0 and GD18.0). This period overlap the surge of surfactant synthesis in the mouse. First, we studied the stability of normalization genes (snoRNAs) to quantify microRNAs by qPCR. This analysis was performed by 3 methods of calculation at several stages of lung development from the pseudoglandular to the alveolar stages and this for both sexes. We identified the best combinations of the most stable normalization genes for each individual developmental stage studied as well as for the period covering all the studied stages. Then, we analyzed the expression profile of microRNAs on GD17.0 and GD18.0 in male fetuses whose mothers were treated with flutamide (pure anti-androgen). The results showed that 43 mature microRNAs are modulated by endogenous androgens on GD17.0 whereas 35 microRNAs on GD18.0. We have identified some microRNAs and potential targets that are inversely modulated by androgens compared with microRNAs. These targets are involved in several biological processes such as lipid metabolism and cell proliferation as well as in molecular functions such as transcription factor binding. Validation experiments were performed by qPCR. Our results showed that androgens regulate processes that may be involved in lung maturation via the regulation of microRNAs. In addition to the interest in the impact of androgens on lung maturation, we analyzed the expression of corticosteroid synthesis enzymes in the human fetal lung. Expression of the CYP21A2 and the presence of its corresponding 21-hydroxylase enzyme have been studied by qPCR and immunoblot. Also mRNA localization of this key enzyme in the synthesis of glucocorticoids has been also assessed by in situ hybridization. CYP21A2 mRNA was detected by qPCR in all the 34 analyzed samples, whose ages ranged between 17 and 40 weeks of pregnancy. No correlation with gestational age or sex was observed. Significant levels of 21-hydroxylase protein were detected in our samples. We investigated the expression of other enzymes involved in the pathway of glucocorticoid synthesis including CYP11B1, CYP11B2 and CYP17A1. CYP11B1, CYP11B2 mRNA were not detected in our samples, unlike CYP17A1 whose mRNA was detected in all our analyzed fetal tissues. CYP17A1 protein was detected at low levels. In situ hybridization data showed that CYP21A2 expression is localized almost exclusively in the distal epithelium of human fetal lung. Our results suggest that 21-hydroxylase products act via an intracrine action on the distal epithelium by activating the glucocorticoid receptor (GR). Activation of the mineralocorticoid receptor (MR) at this site does not seem to depend on the 21-hydroxylase products due to the large amounts of circulating aldosterone.
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Membrane effects of sex hormones on growth plate chondrocytesElBaradie, Khairat Bahgat 12 November 2012 (has links)
Understanding and studying the normal bone growth and development is causal. Bone and cartilage tissue provide in addition to their mechanical support, they provide a protection for vital organs such as heart, lung and brain. Longitudinal growth is regulated by the activity of chondrocytes in the epiphyseal growth plates of long bones. Many hormones and growth factors are involved in the regulation of this process. Among these, sex steroids are of crucial importance, especially during puberty.
In long bones, endochondral bone formation occurs at the growth plate, a region of developing cartilage located between the epiphysis and the metaphysic. The process of endochondral ossification is regulated in part by sex steroid hormones. Androgens stimulate endochondral bone growth and elongation, while estrogen is known to suppress longitudinal bone growth and accelerate growth plate closure. Studies using rat costochondral growth plate chondrocytes as a model show that the effects of 17β-estradiol (E₂) on apoptosis are found in both male and female cells and the same mechanism is involved. In contrast, E₂ causes rapid activation of PKC in female cells but not in male cells. Dihydroxytestosterone (DHT) also has direct effects on growth plate chondrocytes, increasing matrix synthesis including sulfated glycosaminoglycan production, and enhancing cell maturation by increasing alkaline phosphatase enzymatic activity.
Short stature and abnormally slow increase in height is one of the main reasons for referral to endocrinologist. Excessive growth and abnormally tall is also a problem, especially because it increase risk for the trunk abnormalities. Furthermore until now a few growth-promoting therapies are available for clinical use. Therefore future therapies for treating the growth disorders are essential.
The overall goal of this project is to investigate the sexual-dimorphic effect of the sex steroid hormone in rat growth plate chondrocytes, the cellular signaling pathways mediating these actions, and their physiological role. The information gleaned from this study will provide new information about the role of sex steroid hormones in chondrogenesis and has implications in the development of new therapies for the treatment of bone fracture healing, and growth plate disorders. The central hypothesis was that sex steroid would play an important and sex-specific role in regulating chondrocytes as a main regulator of longitudinal bone growth.
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PHYSIOLOGICAL CONTROL OF THE HYPOTHALAMIC - PITUITARY - THYROID AXISPamenter, Richard William January 1981 (has links)
The hypothalamic-pituitary-thyroid axis operates to maintain the circulating concentration of thyroid hormones. Thyrotropin releasing hormone (TRH) is the major hypothalamic messenger controlling the pituitary-thyroid unit. However, the pituitary-thyroid unit responses to various modalities of TRH exposure are not well characterized. Also, interactions between the thyroid axis and other mammalian organ systems, specifically other hormone axes, to maintain the organism's homeostatic state are not well characterized. This work was designed to clarify the response of the pituitary-thyroid unit to TRH and to assess the effects of physiological levels of the rat's primary adrenal cortical hormone, corticosterone, on the thyroid axis. Adult rats were given equal amounts of TRH by intravenous (I.V.) bolus injection or constant intraperitoneal (I.P.) infusion. Both methods resulted in significant increases in plasma thyroid stimulating hormone (TSH), although the time course and peak plasma value varied with the TRH dosage and administration method. Despite the differences in plasma TSH elicited, the thyroid gland responses were similar. Thus, the pituitary is sensitive to the rate and dose of TRH administration. Also, the thyroid is sensitive to plasma levels of TSH but reaches maximum stimulation at submaximal circulating TSH levels. Adrenalectomized female rats, with I.P. and I.V. catheters, were infused with corticosterone (B) to achieve plasma levels within the rat's physiological range. Plasma samples were drawn before and after submaximal TRH (250 ng/100 g Body Weight) administration for assay of TSH and B concentrations. B in the lower half of its physiological range significantly inhibited the increase in plasma TSH observed 10 and 30 minutes after TRH administration. Also, direct stereotaxic infusion of B (50 ng) followed by TRH (1 ng) into the anterior pituitary inhibited the observed increase in plasma TSH. These studies indicate that homeostatic thyroid axis hormone concentrations are maintained by a feedback loop mechanism which is modulated by adrenal hormones. Specifically, physiological levels of corticosterone decrease pituitary sensitivity to TRH in the rat. In addition, the pituitary and thyroid gland exhibit different response patterns to hormonal stimulation.
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Corticosteroids to help control postoperative side effects in oral surgery this thesis is submitted in partial fulfillment ... oral surgery ... /Schuen, Norman J. January 1967 (has links)
Thesis (M.S.)--University of Michigan, 1967.
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Corticosteroids to help control postoperative side effects in oral surgery this thesis is submitted in partial fulfillment ... oral surgery ... /Schuen, Norman J. January 1967 (has links)
Thesis (M.S.)--University of Michigan, 1967.
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Development, manufacture and assessment of Clobetasol 17-propionate cream formulationsFauzee, Ayeshah Fateemah Beebee January 2011 (has links)
Eczema or dermatitis is the most common dermatological condition accounting for one-third of all diagnoses in the total population surveyed in South Africa. The prevalence of seborrhoeic dermatitis, extreme photodermatitis and severe psoriasis has increased markedly over the last decade and this increase may be ascribed to the HIV epidemic, first diagnosed in South Africa in 1982. Potent innovator corticosteroids, such as clobetasol 17-propionate (CP) that are used to treat skin disorders, are expensive and there is therefore a need for the production of generic topical corticosteroid products. Formulation and manufacturing processes can be challenging aspects for formulation scientists to produce a robust product that will elicit an appropriate and desirable pharmacokinetic-pharmacodynamic profile. Laboratory scale CP creams were manufactured using different concentrations of Gelot® 64 and propylene glycol in order to establish a composition that would produce a formulation, with similar physical and chemical characteristics and in vitro release profile as an innovator product, Dermovate®. These formulations were assessed in terms of their viscosity, spreadability, pH, content uniformity and in vitro release characteristics using a Franz diffusion cell apparatus. A formulation containing 3% w/w Gelot® 64 and 46% v/v propylene glycol (CPLS-02) was found to exhibit similar viscosity and spreadability characteristics and released CP in a manner similar to Dermovate®. The mechanism of drug release was evaluated using mathematical models such as zero order, first order and Higuchi models. In addition, the in vitro release profiles were characterised by use of difference (f1) and similarity (f2 and Sd) factors. A scale-up formulation with the same % w/w composition as the laboratory scale was also investigated following manufacture using a Wintech® cream/ointment mixer. A Central Composite Design approach was used to investigate the effect of process variables on the performance of the scale-up cream formulations. The homogenisation speed, anchor speed, homogenisation time and cooling time were the process variables investigated. Thirty scale-up batches were manufactured and analysed in terms of their viscosity, spreadability, pH, % drug content and cumulative % drug released per unit area over 72 hours. Model fitting using Design-Expert® software was undertaken and revealed that a correlation between the process variables and the cream responses was most suitably described by quadratic polynomial relationships. The homogenisation speed had the most significant effect on the quality of the scale-up formulations, whereas the anchor speed had a secondary effect on the measured responses, for the formulations investigated. The qualitative interpretation and statistical analysis of the in vitro release data from the scale-up formulations using ANOVA and the f1, f2 and Sd factors revealed that one scale-up batch (CPSU-04), for which the process variables were a homogenisation speed of 1900 rpm, an anchor speed of 35 rpm, a homogenisation time of 100 minutes and a cooling time of 100 minutes, released CP at a similar rate and extent to Dermovate®. A diffusion-controlled mechanism appeared to be predominant in these formulations. A human skin blanching study, using both visual and chromameter assessments, was performed to establish whether batch CPSU-04 was bioequivalent to Dermovate®. The bioequivalence of the selected scale-up formulation to Dermovate® was confirmed, following the calculation of a 90% CI.
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Systematic study on the interaction among GH/PRL family hormones with their receptors and the role of PRLR1 in zebrafish development. / CUHK electronic theses & dissertations collectionJanuary 2011 (has links)
Bioinformatic searching on the zebrafish genome indicates that there are five members of this hormone family (namely GH, SLalpha, SLbeta, PRL1 and PRL2) and four receptors (namely GHR1, GHR2, PRLR1 and PRLR2). However, it should be noted that these ligands and receptors are only named according to their sequence homology with those in other species. There is so far no systematic study to unravel the relationship among the ligands and receptors. The last point is particularly relevant as some of the ligands and receptors are duplicated in the fish genome. In addition, there is much controversy regarding whether one of the two GHRs is in fact the receptor for SL. A systematic study on the interaction among the ligands and receptors in zebrafish would help to resolve these issues. / In fish, growth hormone (GH), prolactin (PRL) and somatolactin (SL) are members of a gene family of polypeptide hormones which share homology in protein sequence and structure. To date, numerous functions have been attributed to this family of hormones such as growth, immune response, protein metabolism and ion regulation. The biological functions of GHlPRL are mediated through binding of the ligands on their respective receptors. It is believed that this gene family arose as the result of multiple gene duplications and subsequent divergent evolution, co-evolving with their corresponding receptors. Despite the above mentioned similarities in their structures, their cognate receptors and their signaling mechanisms, important differences among this gene family of polypeptide hormones can be recognized in their biological functions. / In the present study, the luciferase reporter assay, His-tag pulldown assay and signaling pathway activation were employed to investigate the interaction among the ligands and their receptors. It was shown that recombinant zebrafish GH, PRLI and PRL2 could only interact with their cognate receptors, i.e. GHRl, GHR2, PRLRI and PRLR2 respectively. In comparison, zebrafish SLalpha and SLbeta could neither interact with GHR1, GHR2, PRLR1 and PRLR2 in the binding study, nor could these two SLs activate the receptor-mediated downstream signaling and transcriptional activities of the four receptors in zebrafish. These data argue against the hypothesis that GHRI is the SL receptor. / The role of PRLR in early development of zebrafish was also explored. Whole mount in situ hybridization (WISH) study showed that PRLR1 was mainly expressed in the pancreas and pronephric duct, while PRLR2 was expressed in the pronephric duct only. In the PRLR1 morpholino (MO) knockdown embryos, the yolk extension (YE), the formation of which was reported to be associated with pronephric duct development, disappeared at 24 hours post fertilization. This phenotype could not be observed in the PRLR2 MO knockdown or control embryos. Real time quantitative RT-PCR and WISH data revealed that several genes expressed in the pronephric duct were up or down-regulated. The protein expression pattern of pronephric duct marker atplal was also affected in the embryos injected with PRLRI MO. In addition, histological studies showed that structure of the pronephric duct was destroyed in the PRLRI MO embryos. These results suggest that PRLRI plays an important role in the development of the pronephric duct in zebrafish embryos. / Chen, Mingliang. / "October 2010." / Adviser: Cheung Wing-Tai. / Source: Dissertation Abstracts International, Volume: 73-04, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2011. / Includes bibliographical references (leaves 140-179). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.
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Étude du signal véhiculé par les hormones thyroïdiennes dans la physiopathologie intestinale / Study of the thyroid hormone-mediated signal in intestinal pathophysiologyUchuya Castillo, Luis Joël 27 October 2017 (has links)
L'épithélium intestinal est caractérisé par un renouvellement et une différenciation continus dépendant des cellules souches somatiques situées au fond des cryptes. Le renouvellement rapide est assuré par plusieurs réseaux de voies signalisation dont la dérégulation peut être à l'origine de l'initiation et/ou de la progression tumorale. Mon laboratoire d'accueil a décrit l'implication des hormones thyroïdiennes et de leur récepteur nucléaire TRa1 dans le contrôle de l'homéostasie de l'épithélium intestinal via la régulation de la voie Wnt/b-caténine d'une part et l'implication de TRa1 dans l'induction de tumeurs intestinales grâce à des souris surexprimant TRa1 d'autre part. De plus, dans un contexte APC muté, l'expression transgénique de TRa1 accélère la progression tumorale et favorise la dissémination métastatique. Des analyses transcriptomiques mettent en évidence une forte activation de la voie Wnt par TRa1. Ces résultats ont été confirmés chez l'homme en étudiant la régulation de la voie Wnt par TRa1 dans des carcinomes colorectaux (CRC). Nous avons confirmé la surexpression de TRa1 dans les tumeurs humaines et validé son impact sur la voie Wnt tant dans les tumeurs humaines que dans des lignées cellulaires et sur leur agressivité. L'ensemble des données montre une forte implication de TRa1 dans la tumorigenèse chez la souris et chez l'homme et ouvrent des portes pour des recherches visant TRa1 comme cible de traitement thérapeutique contre le cancer / The intestinal epithelium is characterized by constant renewal and differentiation due to the presence of stem cells located at the bottom of the crypts. This permanent renewal depends on the crosstalk between several signaling pathways whose alteration can lead to tumor initiation and progression. Our team demonstrated the implication of the thyroid hormones and their nuclear receptor TRa1 in the control of the intestinal epithelium homeostasis through the regulation of the Wnt pathway. Moreover, the overexpression of TRa1 in the intestinal epithelium of mice is sufficient to promote tumor initiation, and in an APC loss of function context, it accelerates tumor progression highlighting its oncogenic potential. Through gene expression profiling, we highlighted an activation of the Wnt pathway activity by TRa1 during tumor progression. We next confirm these results in human patient samples by demonstrating that high TRa1 expression in tumors invariably is associated with an increased Wnt pathway activity. In addition, in CRC cell lines, TRa1-associated WNT pathway activation enhances their aggressiveness. Altogether these results showed the implication of TRa1 in intestinal carcinogenesis and open avenues for new therapeutic treatment against TRa1 targeting TRa1
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