Global ETD Search

1	The Development of a Genomic Toolbox for Studying the Evolutionary Genetics of Reptilian Lungs Using the Chicken Model Edvalson, Logan Thomas 22 November 2022 (has links) There is a vast diversity in tetrapod lung branching morphology. Phylogenetically, much of the pulmonary diversity among vertebrates appears to arise from the way epithelial tubes branch or form saccular (cyst) structures. Fgf10 activity has been shown to play a critical role in regulating branch versus cyst morphology. We hypothesize that the species-specific differences in lung morphology may be primarily due to species-specific differences in Fgf10 expression. To test this hypothesis, we have performed bioinformatic analyses on the Fgf10 locus and have identified a conserved 11 kb noncoding region that potentially contains the Fgf10 lung enhancer. We are taking a large DNA sequence upstream of the Fgf10 gene of the American Alligator and swapping it into the orthologous locus in the genome of chicken primordial germ cells (cPGCs). We are accomplishing these swaps by using a combination of homology directed repair (HDR) and recombinase mediated cassette exchange (RMCE) in cPGCs. These edited cell lines can be used to generate germline chimeric chickens capable of producing offspring that putatively drive Fgf10 expression in the lung under control of regulatory sequences from various other reptiles. We have also generated a cPGC line where, through RMCE, we can easily target any enhancer from any organism to drive a GFP reporter as a means to test the temporal and spatial regulatory characteristics of these enhancers. This work is funded through a BYU Turkey Vaccine Grant and a Skaggs Mentoring Grant. Fgf10 evolution transgenic chicken alligator lung RMCE HDR Life Sciences
2	Regulação da divergência folicular in vivo: uma abordagem molecular / Regulation of follicular deviation in vivo: a molecular approach Gasperin, Bernardo Garziera 17 August 2012 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / The role of local factors in follicular selection in mammals is not fully understood. The aim of the present study was to identify local factors, receptors and intracellular signaling pathways involved in bovine dominant follicle selection and subordinate follicles atresia. In the first study, the pattern of mRNA expression and function of FGF10 and its receptor FGFR2b was evaluated during bovine follicle deviation. FGF10 and FGFR2b were significantly more expressed in theca and granulosa cells retrieved from subordinate follicles, respectively. Intrafollicular FGF10 treatment in the larger follicle dose-dependently inhibited follicle growth and significantly reduced estradiol secretion. In granulosa cells, FGF10 treatment decreased CYP19A1 and cyclin D2 mRNA expression whereas FGFR2b tended to be more expressed after treatment. In theca cells, a significant increase in FGF10 expression was observed in FGF10-treated follicles. In a second study, BMPRs, BMP15 and GDF9 expression was evaluated in cows ovariectomized when the size of the largest and second largest follicle did not have a significant difference (D2), had slight difference (D3) or marked difference (D4). At day 2 of follicular wave, it was observed a significant increase in BMPR1A expression whereas BMPR-2 and - 1B tended to be more expressed in future subordinate follicles. At day 3, when dominant and subordinate follicles are reliably identified, BMPR-2 and 1B were more expressed in subordinate follicles. At day 4, BMPR1B (mRNA and protein) was significantly more expressed in granulosa cells from atretic follicles. The increased BMPR1B expression during atresia was confirmed in granulosa cells from follicles induced to atresia with FGF10 or estradiol receptor antagonist treatment. Similar levels of BMP15 and GDF9 proteins were observed in follicular fluid from dominant and subordinate follicles. In a third study, we aimed to identify intracellular signaling pathways differentially activated in granulosa cells during deviation. Phosphorylated MAPK was more abundant in the future dominant follicle, but did not differ between follicles at the expected moment and after follicular deviation. Subordinate follicles phosphorylated STAT3 levels tended to increase at day 3 and were significantly greater at day 4 in comparison to dominant follicles. In conclusion, present results suggest that decreased FGF10 and FGFR2b expression allows dominant follicle growth and differentiation whereas increased FGF10 signaling in the subordinate follicle induces atresia. The patterns of BMPR- 2, -1B and -1A indicate that these receptors play roles during follicle deviation. Phosphorylated MAPK abundance is an early marker of follicle dominance, but is not differentially regulated during and after deviation. The functional status of STAT3 suggests that this pathway is involved in granulosa cell death. / O controle local da seleção folicular em mamíferos ainda é pouco compreendido. O objetivo do presente estudo foi identificar fatores locais, receptores e rotas de sinalização envolvidas na seleção do folículo dominante e atresia dos subordinados em bovinos. Em um primeiro estudo, avaliou-se a regulação e função do FGF10 e do seu receptor FGFR2b durante a divergência folicular. A expressão de FGF10 e FGFR2b foi significativamente maior nas células da teca e granulosa, respectivamente, provenientes dos folículos subordinados. A injeção intrafolicular de FGF10 inibiu o crescimento folicular de maneira dose dependente e reduziu significativamente a síntese de estradiol. Nas células da granulosa, a injeção de FGF10 diminuiu a expressão de RNAm de CYP19A1 e ciclina D2, enquanto que uma tendência de aumento da expressão do receptor FGFR2b foi observada. Nas células da teca, um aumento significativo na expressão de FGF10 foi observado nos folículos tratados com FGF10. Em um segundo estudo, o padrão de expressão dos receptores de BMPs e das proteínas BMP15 e GDF9 foram avaliados em vacas ovariectomizadas em diferenes dias em relação ao inicio da onda folicular, comparando os dois maiores folículos antes (dia 2), durante (dia 3) ou após a divergência folícular (dia 4). No dia 2 da onda folicular, foi observada maior expressão do receptor BMPR-1A e tendências a maior expressão dos receptores BMPR-2 e -1B nos futuros folículos subordinados. No dia 3, quando os folículos dominantes e subordinados são identificados, a expressão de BMPR-1B e -2 foi maior nos folículos subordinados. No dia 4, o receptor BMPR1B (RNAm e proteína) foi significativamente mais expresso nas células da granulosa de folículos atrésicos. O aumento da expressão do BMPR1B durante a atresia folicular foi confirmado nas células da granulosa de folículos induzidos à atresia através do tratamento com FGF10 ou inibidor dos receptores de estradiol. A abundância de BMP15 e GDF9 no fluído folicular não diferiu entre folículos dominantes e subordinados. Em um terceiro estudo, buscou-se identificar rotas de sinalização diferentemente ativas nas células da granulosa durante a divergência. Os níveis de MAPK fosforilada foram significativamente superiores nos futuros folículos dominantes (dia 2), mas não diferiram entre os dois maiores folículos durante ou após a divergência. Folículos subordinados apresentaram maiores níveis de STAT3 fosforilada em relação aos seus respectivos dominantes em todos os pares de folículos coletados, sendo observado um aumento significativo em folículos atrésicos coletados no dia 4. Em conclusão, os resultados sugerem que a expressão reduzida de FGF10 e do receptor FGFR2b possibilitam o crescimento e diferenciação do folículo dominante, enquanto que o aumento da sinalização do FGF10 no folículo subordinado está associado com a atresia. O perfil de expressão dos receptores BMPR-2, -1B e -1A indica que os mesmos apresentam funções na regulação da divergência folicular em bovinos. A fosforilação da MAPK é um marcador inicial de dominância folicular, mas não é diferentemente regulada durante e após a divergência, enquanto que o padrão de ativação da STAT3 sugere que essa via está envolvida na morte das células da granulosa. FGF10 BMPRs GDF9 BMP15 MAPK STAT3 FGF10 BMPRs GDF9 BMP15 MAPK STAT3
3	Modulação do reinício da meiose de oócitos bovinos pelo fator de crescimento fibroblástico 10, angiotensina II e progesterona em sistema alternativo de cultivo / Modulation of meiotic resumption of bovine oocytes by fibroblast growth factor 10, angiotensin II and progesterone in an alternative culture system Gasperin, Bernardo Garziera 27 February 2009 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / The aim of this study was to evaluate the effect of fibroblast growth factor 10 (FGF10) on bovine oocyte meiotic resumption in an in vitro oocyte and follicular cells co-culture system. At first, an oil-free culture system able to maintain a stable osmolality of the medium without the negative interference of the oil was established. The maintenance of osmotic equilibrium confirms that fourwell plate with water in the central hole can be a feasible alternative to replace oil for scientific experimentation and embryo culture. The embryo development rate in the alternative system (near 30% blastocyst) was similar to that obtained in the conventional system (33% blastocyst). Afterwards, the role of FGF10 on bovine oocyte meiotic resumption was evaluated in a co-culture of oocytes and follicular cells in the presence of angiotensin II (10-11M AngII). All tested concentrations of FGF10 inhibited the resumption of meiosis induced by AngII (P ≤ 0.05). The highest germinal vesicle breakdown (GVBD) rate was observed when FGF10 was absent (45.3%). At concentrations of 10, 100, and 1000ng mL-1 FGF10, the rates of GVBD were 30.2, 29.6 and 27%, respectively. In a second experiment, oocytes were co-cultured with follicular hemisections to test if FGF10 (100ng mL-1) acts directly on COCs or through follicular cells to inhibit AngII (10-11M)-induced meiotic resumption. The AngII-induced GVBD (62.6%) was inhibited when FGF10 was added to in vitro co-culture system (37.8%; P ≤ 0.05). However, FGF10 did not affect meiotic resumption of COCs cultured without AngII in the presence or absence of follicular cells. The third experiment tested if FGF10 inhibits progesterone-induced meiotic resumption. The addition of FGF10 did not affect the meiotic resumption rate induced by progesterone (41.1% and 41.7% GVBD with and without FGF10, respectively; P ≥ 0.05). However, indomethacin (10μM) blocked (20.1% GVBD; P ≤ 0.05) progesterone positive effect suggesting that this steroid, like AngII, acts through cyclooxygenases pathway to induce meiotic resumption. Results show that FGF10 interacts with follicular cells to inhibit AngII but not progesterone-induced meiotic resumption of bovine oocytes. / O presente trabalho teve por objetivo averiguar o papel do fator de crescimento fibroblástico 10 (FGF10) no reinício da meiose de oócitos bovinos, utilizando um modelo in vitro de co-cultivo de oócitos e células foliculares. Em um primeiro estudo, foi estabelecido um sistema de cultivo capaz de manter a osmolalidade dos meios constante na ausência de óleo. A adição de água entre os poços de placas de cultivo foi eficiente na prevenção da evaporação dos meios sendo uma alternativa na experimentação científica e produção in vitro de embriões. Com este sistema, se obteve uma taxa média de 30% de desenvolvimento embrionário, resultado similar ao obtido no sistema convencional (33% blastocistos). Após o estabelecimento do sistema, avaliou-se a participação do FGF10 no reinício da meiose de oócitos bovinos e sua interação com a maturação nuclear induzida por angiotensina II (AngII; 10-11M) e progesterona (100ng mL-1). Todas as concentrações de FGF10 testadas foram eficientes na inibição do reinício da meiose induzido por AngII (P ≤ 0,05). As maiores taxas de rompimento de vesícula germinativa (RVG) foram observadas na ausência de FGF10 (45,3%). Nas concentrações de 10, 100, e 1000ng mL-1 de FGF10, as taxas de RVG foram 30,2, 29,6 e 27%, respectivamente. Após o estabelecimento da dose ideal, foi verificado que a adição de FGF10 (100ng mL-1) ao cultivo de complexos cumulus-oócitos acarretou em diminuição na taxa de reinício da meiose somente na presença de células foliculares e AngII (37,8% e 62,6% de RVG com e sem FGF10, respectivamente; P ≤ 0,05). A partir dos resultados dos experimentos anteriores, o terceiro experimento foi delineado para testar se o FGF10 é capaz de inibir o reinício da divisão meiótica induzido por progesterona. A adição de FGF10 não afetou a taxa de reinício da meiose induzida pela progesterona (41,1% e 41,7% de RVG com e sem FGF10, respectivamente; P ≥ 0,05). Entretanto, a adição de indometacina (10μM) bloqueou (20,1% de RVG; P ≤ 0,05) o efeito positivo da progesterona. Este bloqueio demonstra que a progesterona, assim como já foi demonstrado para AngII, utiliza a via das ciclooxigenases para induzir o reinício da meiose e este evento parece não ser regulado pelo FGF10. Os resultados demonstram que o FGF10 interage com as células foliculares para inibir o reinício da meiose estimulado pela AngII mas não pela progesterona. FGF10 Angiotensina II Progesterona Reinício da meiose Oócitos bovinos FGF10 Angiotensin II Progesterone Meiotic resumption Bovine oocytes
4	Exploring molecular mechanisms controlling skin homeostasis and hair growth : microRNAs in hair-cycle-dependent gene regulation, hair growth and associated tissue remodelling Ahmed, Mohammed Ikram January 2010 (has links) The hair follicle (HF) is a cyclic biological system that progresses through stages of growth, regression and quiescence, each being characterized by unique patterns of gene activation and silencing. MicroRNAs (miRNAs) are critically important for gene silencing and delineating their role in hair cycle may provide new insights into mechanisms of hair growth control and epithelial tissue remodelling. The aims of this study were: 1) To define changes in the miRNA profiles in skin during hair cycle-associated tissue remodelling; 2) To determine the role of individual miRNAs in regulating gene expression programs that drive HF growth, involution and quiescence; 3) and to explore the role of miRNAs in mediating the effects of BMP signalling in the skin. To address Aims 1 & 2, global miRNA expression profiling in the skin was performed and revealed marked changes in miRNAs expression during distinct stages of the murine hair cycle. Specifically, miR-31 markedly increased during anagen and decreased during catagen and telogen. Administration of antisense miR-31 inhibitor into mouse skin during the early- and mid-anagen phases of the hair cycle resulted in accelerated anagen development, and altered differentiation of hair matrix keratinocytes and hair shaft formation. Microarray, qRT-PCR and Western blot analyses revealed that miR-31 negatively regulates expression of Fgf10, the components of Wnt and BMP signalling pathways Sclerostin and BAMBI, and Dlx3 transcription factor, as well as selected keratin genes. Luciferase reporter assay revealed that Krt16, Krt17, Dlx3, and Fgf10 serve as direct miR-31 targets. In addition, miR-214 was identified as a potent inhibitor of the Wnt signalling pathway in the keratinocytes. Mutually exclusive expression patterns of miR-214 and β-catenin was observed during HF morphogenesis. MiR-214 decreases the expression of β-catenin and other components of Wnt signalling pathways c-myc, cyclin D1, and Pten in the keratinocytes. Luciferase reporter assay proved that β-catenin serves as a direct target of miR-214. In addition, miR-214 prevented translocation of β-catenin into the nucleus in response to the treatment with an activator of the Wnt signalling pathway lithium chloride, and abrogated the lithium-induced increase of the expression of the Wnt target gene VI Axin2. This suggests that miR-214 may indeed be involved in regulation of skin development and regeneration at least in part, by controlling the expression of β-catenin and the activity of the Wnt signalling pathway. To address Aim 3, the role of miRNAs in mediating the effects of the bone morphogenetic protein (BMP) signalling in the skin was explored. MiRNAs were isolated from the primary mouse keratinocytes treated with BMP4 and processed for analysis of global miRNA expression using the microarray approach. Microarray and real-time PCR analysis revealed BMP4-dependent changes in the expression of distinct miRNAs, including miR-21, which expression was strongly decreased in the keratinocytes after BMP4 treatment. In contrast, miR-21 expression was substantially higher in the skin of transgenic mice over-expressing BMP antagonist Noggin. Transfection of the keratinocytes with miR-21 mimic revealed existence of two groups of the BMP target genes, which are differentially regulated by miR-21. Thus, this suggests a novel mechanism controlling the effects of BMP signalling in the keratinocytes. Thus, miRNAs play important roles in regulating gene expression programs in the skin during hair cycle. By targeting a number of growth regulatory molecules, transcription factors and cytoskeletal proteins, miRNAs are involved in establishing an optimal balance of gene expression in the keratinocytes required for the HF and skin homeostasis. 616.5
5	Morphogenèse et développement pulmonaire Clement, Raphaël 30 March 2011 (has links) (PDF) La forme emerge a toutes les echelles et dans tous les syst emes physiques, vivants ou non, comme le r esultat de l'interaction suivant certaines r egles des di erents el ements constituant le syst eme. L'enjeu de l' etude de la morphogen ese est donc d' etablir quels el ements et quelles interactions sont responsables de l' emergence des traits frappants de la forme dont on souhaite expliquer la naissance. En biologie du d eveloppement, le contexte bio-mol eculaire et l'importance du g ene font souvent perdre de vue que comme dans tout syst eme, la forme g eom etrique emerge suite a des interactions inscrites dans l'espace et dans le temps, interactions dont les g enes et les prot eines pour lesquelles ils codent sont certainement acteurs. Dans ce manuscrit, nous traiterons de la morphogen ese de deux syst emes di erents. Le premier se situe dans la lign ee des exp eriences de croissance osmotique r ealis ee au XIX eme si ecle par le Dr. St ephane Leduc. Il consiste en la formation spontan ee de tubes de silice poussant sym etriquement autour d'une fracture se situant en leur milieu lors de l'injection d'une solution dans une seconde, un pr ecipit e se formant a l'interface. Le reste du manuscrit est d edi e a l' etude de la morphogen ese pulmonaire chez les mammif eres. Nous construirons d'abord le cadre th eorique d'un mod ele de croissance tr es g en eral bas e sur les observations de la biologie mol eculaire et la g eom etrie de l'organe. Par la suite nous verrons comment de simples consid erations de g eom etrie et de di usion permettent d'expliquer le patterning des g enes impliqu es, et comment ces m^emes consid erations rendent compte de l' emergence des traits frappants de la morphologie du poumon embryonnaire : l'arborescence, l' evitement des bronches entre elles, et l' etablissement d'une distance caract eristique entre l' epith elium distal et le m esenchyme distal. Nous introduirons aussi les outils th eoriques permettant de comprendre en profondeur les m ecanismes impliqu es. En n nous pr esenterons une exp erience physique simple bas ee sur les conclusions du mod ele, et r ev elant des similitudes frappantes avec la croissance pulmonaire. morphogenèse poumon développement embryogenèse organogenèse FGF10
6	Estudo da expressão imunohistoquímica de SO2, FGF-10 e WNT-1 em lesões odontogênicas epiteliais benignas Nascimento, Marcelo Anderson Barbosa 02 February 2018 (has links) Submitted by Automação e Estatística (sst@bczm.ufrn.br) on 2018-07-26T17:29:42Z No. of bitstreams: 1 MarceloAndersonBarbosaNascimento_TESE.pdf: 2038745 bytes, checksum: 1d85461112edc92cb7035c7e72456c87 (MD5) / Approved for entry into archive by Arlan Eloi Leite Silva (eloihistoriador@yahoo.com.br) on 2018-07-27T19:29:57Z (GMT) No. of bitstreams: 1 MarceloAndersonBarbosaNascimento_TESE.pdf: 2038745 bytes, checksum: 1d85461112edc92cb7035c7e72456c87 (MD5) / Made available in DSpace on 2018-07-27T19:29:57Z (GMT). No. of bitstreams: 1 MarceloAndersonBarbosaNascimento_TESE.pdf: 2038745 bytes, checksum: 1d85461112edc92cb7035c7e72456c87 (MD5) Previous issue date: 2018-02-02 / Conselho Nacional de Desenvolvimento Científico e Tecnológico - CNPq / Os dentes desenvolvem-se a partir de interações sequenciais entre o epitélio e o mesênquima derivado da crista neural em diferentes estágios de histodiferenciação e morfodiferenciação. Ao final da odontogênese, espera-se que as estruturas que participaram da formação destes tecidos desapareçam ou permaneçam quiescentes. Não é incomum que os remanescentes epiteliais da odontogênese originem lesões, como cistos e tumores odontogênicos. No desenvolvimento dentário precoce, a manutenção das células-tronco é regulada por uma série de fatores de transcrição específicos, que inclui OCT-4, SOX-2, Nanog, Stat-3 e c-Myc e diversos outros genes Homeobox e vias de transcrição (SHH, Wnt/β-catenina, FGF, BMP) contribuem para o destino e diferenciação celular. No entanto, há a participação destes genes e vias na patogênese de vários tipos de tumores. O objetivo do presente estudo foi avaliar a imunoexpressão de SOX2, FGF-10 e Wnt-1 em uma série de casos de lesões odontogênicas e alguns espécimes de germes dentários. A amostra consistiu de 20 Ceratocistos Odontogênicos (CO), 20 Ameloblastomas sólidos (AM), 20 Tumores odontogênicos adenomatoides (TOA), 10 Tumores odontogênico epitelial calcificante (TOEC) e 05 casos de germes dentários usados comparativamente. A imunoexpressão foi avaliada de acordo com o percentual de células epiteliais imunomarcadas e intensidade de células positivas resultando na pontuação de imunomarcação total (PIT) que variou de 0 a 7. A análise da imunoexpressão da SOX2 revelou positividade na maioria dos casos das lesões estudadas. A pontuação de imunomarcação para SOX2 revelou haver diferença estatisticamente significativa entre os grupos de lesões estudadas, com maior frequência em CO e TOEC (p <0,001). Após o pareamento, observou-se diferença significativa entre AM e CO, AM e TOEC, CO e TOA, CO e TOEC e, TOA e TOEC (p <0,05). A análise da imunoexpressão da FGF-10 e Wnt-1 revelou positividade em todos os casos das lesões estudadas, mas sem diferença estatisticamente significativa entre os grupos de lesões estudadas (p = 0,628). Houve diferença significativa em relação aos escores de positividade para Wnt-1 (p <0,001) com maior frequência em CO e TOA. Após o pareamento, observou-se existir diferença estatisticamente significativa entre AM e CO, AM e TOEC, CO e TOEC e, TOA e TOEC (p <0,05). O padrão de expressão de SOX2, FGF-10 e Wnt-1, em germes dentários e nas lesões odontogênicas aqui avaliadas, confirma a participação destas vias na odontogênese e também no desenvolvimento das lesões odontogênicas. / Dental development occurs from sequential interactions between the epithelium and the mesenchyme derived from the neural crest at different stages of histodifferentiation and morphodifferentiation. At the end of tooth development, the structures that participated in the formation of these tissues are expected to disappear or remain quiescent. It is not uncommon that the epithelial remnants of the tooth development originate lesions such as odontogenic cysts and tumors. In early tooth development, stem cell maintenance is regulated by specific transcription factors, which includes OCT-4, SOX-2, Nanog, Stat-3 and c-Myc and several other Homeobox genes and transcription pathways (SHH, Wnt/β-catenin, FGF, BMP) contribute to cell fate and differentiation. However, there is involvement of these genes and pathways in the pathogenesis of several types of tumors. The aim of the present study was to evaluate the immunoexpression of SOX2, FGF-10 and Wnt-1 in a case series of odontogenic lesions and some specimens of dental germs. The sample consisted of 20 Odontogenic Keratocysts (OK), 20 solid ameloblastomas (AM), 20 adenomatoid odontogenic tumors (AOT), 10 calcifying epithelial odontogenic tumors (CEOT) and 5 dental gerns for comparison. Immunoexpression was evaluated according to the percentage of immunostained epithelial cells and intensity of the positive cells resulting in total immunostaining score (PIT) ranging from 0 to 7. The analysis of SOX2 immunoexpression revealed positivity in most cases of the lesions studied. The immunostaining score for SOX2 revealed a statistically significant difference between the groups of lesions studied, with a higher frequency in OK and CEOT (p < 0.001). After pairing, we observed a significant difference between AM and OK, AM and CEOT, OK and AOT, OK and CEOT, and AOT and CEOT (p <0.05). Analysis of the FGF-10 and Wnt-1 immunoexpression revealed positivity in all cases of the lesions studied, with no statistically significant difference between the groups of lesions studied (p = 0.628). There was a significant difference in relation to the positivity scores for Wnt-1 (p <0.001) with higher frequency in OK and AOT. After pairing, there was a statistically significant difference between AM and OK, AM and CEOT, OK and CEOT and, AOT and CEOT (p <0.05). The expression pattern of SOX2, FGF-10 and Wnt-1 in dental germs and odontogenic lesions evaluated here confirms the participation of these pathways in the tooth development as well as in the development of odontogenic lesions. CNPQ::CIENCIAS DA SAUDE: PATOLOGIA ORAL Células-tronco Imunohistoquímica SOX2 FGF10 Wnt-1
7	Exploring Molecular Mechanisms Controlling Skin Homeostasis and Hair Growth. MicroRNAs in Hair-cycle-Dependent Gene Regulation, Hair Growth and Associated Tissue Remodelling. Ahmed, Mohammed I. January 2010 (has links) The hair follicle (HF) is a cyclic biological system that progresses through stages of growth, regression and quiescence, each being characterized by unique patterns of gene activation and silencing. MicroRNAs (miRNAs) are critically important for gene silencing and delineating their role in hair cycle may provide new insights into mechanisms of hair growth control and epithelial tissue remodelling. The aims of this study were: 1) To define changes in the miRNA profiles in skin during hair cycle-associated tissue remodelling; 2) To determine the role of individual miRNAs in regulating gene expression programs that drive HF growth, involution and quiescence; 3) and to explore the role of miRNAs in mediating the effects of BMP signalling in the skin. To address Aims 1 & 2, global miRNA expression profiling in the skin was performed and revealed marked changes in miRNAs expression during distinct stages of the murine hair cycle. Specifically, miR-31 markedly increased during anagen and decreased during catagen and telogen. Administration of antisense miR-31 inhibitor into mouse skin during the early- and mid-anagen phases of the hair cycle resulted in accelerated anagen development, and altered differentiation of hair matrix keratinocytes and hair shaft formation. Microarray, qRT-PCR and Western blot analyses revealed that miR-31 negatively regulates expression of Fgf10, the components of Wnt and BMP signalling pathways Sclerostin and BAMBI, and Dlx3 transcription factor, as well as selected keratin genes. Luciferase reporter assay revealed that Krt16, Krt17, Dlx3, and Fgf10 serve as direct miR-31 targets. In addition, miR-214 was identified as a potent inhibitor of the Wnt signalling pathway in the keratinocytes. Mutually exclusive expression patterns of miR-214 and ¿-catenin was observed during HF morphogenesis. MiR-214 decreases the expression of ¿-catenin and other components of Wnt signalling pathways c-myc, cyclin D1, and Pten in the keratinocytes. Luciferase reporter assay proved that ¿-catenin serves as a direct target of miR-214. In addition, miR-214 prevented translocation of ¿-catenin into the nucleus in response to the treatment with an activator of the Wnt signalling pathway lithium chloride, and abrogated the lithium-induced increase of the expression of the Wnt target gene VI Axin2. This suggests that miR-214 may indeed be involved in regulation of skin development and regeneration at least in part, by controlling the expression of ¿-catenin and the activity of the Wnt signalling pathway. To address Aim 3, the role of miRNAs in mediating the effects of the bone morphogenetic protein (BMP) signalling in the skin was explored. MiRNAs were isolated from the primary mouse keratinocytes treated with BMP4 and processed for analysis of global miRNA expression using the microarray approach. Microarray and real-time PCR analysis revealed BMP4-dependent changes in the expression of distinct miRNAs, including miR-21, which expression was strongly decreased in the keratinocytes after BMP4 treatment. In contrast, miR-21 expression was substantially higher in the skin of transgenic mice over-expressing BMP antagonist Noggin. Transfection of the keratinocytes with miR-21 mimic revealed existence of two groups of the BMP target genes, which are differentially regulated by miR-21. Thus, this suggests a novel mechanism controlling the effects of BMP signalling in the keratinocytes. Thus, miRNAs play important roles in regulating gene expression programs in the skin during hair cycle. By targeting a number of growth regulatory molecules, transcription factors and cytoskeletal proteins, miRNAs are involved in establishing an optimal balance of gene expression in the keratinocytes required for the HF and skin homeostasis. MicroRNAs Hair follicle Growth control Global miRNA expression Keratin 16 Keratin 17 Dlx3 Fgf10
8	GLI2 Transcriptional Cascade During Mouse Fetal Lung Development Rutter, Martin Edward 01 August 2008 (has links) The lung is an organ that contains a vast system of airways carefully constructed to achieve maximal surface area in a confined space, requiring guidance from a multitude of developmental factors. The Shh pathway is one such signaling mechanism that is critical to proper lung formation, guiding branching morphogenesis and cellular proliferation through its downstream Gli transcription factors. Additionally, Foxf1 has been shown to be a key developmental factor required for proper lung formation during embryogenesis. Although theorized that the Gli transcription factors are responsible for regulating foxf1 levels, their exact relationship has yet to be revealed. Using five different models for Shh signaling (gli2 null, gli2 over-expressor [hVER-Gli2], gli3 null, Gli3 constitutive repressor [Gli3Δ699] and cyclopamine treated lung explants), I compared and contrasted the role of Gli2 and Gli3 in terms of their effect on cell cycle regulation, and on the expression levels of foxf1 and its potential downstream target genes tbx4, tbx5 and fgf10. I found that ectopic over-expression of gli2 resulted in increased Shh pathway activation, and increased expression of G1/S phase cyclins, which was associated with increased cellular proliferation and lung growth. However, no change in the levels of G1/S phase cyclins due to altered Gli3 signaling was observed. Foxf1 levels positively correlate with the levels of gli2, and appear to be independent of Gli3 activity. The amount of tbx4, tbx5, and fgf10 transcripts were observed to follow the levels of gli2 in the different gli2 mouse models, however, there was no significant change in gli3 null or Gli3Δ699 mice. Finally, by analyzing gene expression at different time points during gestation, I found that while gli2 levels affect foxf1 throughout gestation, the relationship to tbx4, tbx5 and fgf10, occurs only during the latter stages of lung development. I conclude, that Gli2 and not Gli3 appears to be the primary transducer of Shh signaling influencing cyclin regulation, leading to changes in embryonic lung growth. Furthermore, that Gli2 and not Gli3 appears to regulate foxf1 expression levels, and that this may extend downstream to influence tbx4, tbx5 and fgf10 expression. Sonic Hedgehog Gli2 Foxf1 Lung Pulmonary Mouse Transgenic Development Gli3 Shh Cellular Proliferation Morphogenesis Fgf10 Branching Morphogenesis Embryo Transgene 0369
9	GLI2 Transcriptional Cascade During Mouse Fetal Lung Development Rutter, Martin Edward 01 August 2008 (has links) The lung is an organ that contains a vast system of airways carefully constructed to achieve maximal surface area in a confined space, requiring guidance from a multitude of developmental factors. The Shh pathway is one such signaling mechanism that is critical to proper lung formation, guiding branching morphogenesis and cellular proliferation through its downstream Gli transcription factors. Additionally, Foxf1 has been shown to be a key developmental factor required for proper lung formation during embryogenesis. Although theorized that the Gli transcription factors are responsible for regulating foxf1 levels, their exact relationship has yet to be revealed. Using five different models for Shh signaling (gli2 null, gli2 over-expressor [hVER-Gli2], gli3 null, Gli3 constitutive repressor [Gli3Δ699] and cyclopamine treated lung explants), I compared and contrasted the role of Gli2 and Gli3 in terms of their effect on cell cycle regulation, and on the expression levels of foxf1 and its potential downstream target genes tbx4, tbx5 and fgf10. I found that ectopic over-expression of gli2 resulted in increased Shh pathway activation, and increased expression of G1/S phase cyclins, which was associated with increased cellular proliferation and lung growth. However, no change in the levels of G1/S phase cyclins due to altered Gli3 signaling was observed. Foxf1 levels positively correlate with the levels of gli2, and appear to be independent of Gli3 activity. The amount of tbx4, tbx5, and fgf10 transcripts were observed to follow the levels of gli2 in the different gli2 mouse models, however, there was no significant change in gli3 null or Gli3Δ699 mice. Finally, by analyzing gene expression at different time points during gestation, I found that while gli2 levels affect foxf1 throughout gestation, the relationship to tbx4, tbx5 and fgf10, occurs only during the latter stages of lung development. I conclude, that Gli2 and not Gli3 appears to be the primary transducer of Shh signaling influencing cyclin regulation, leading to changes in embryonic lung growth. Furthermore, that Gli2 and not Gli3 appears to regulate foxf1 expression levels, and that this may extend downstream to influence tbx4, tbx5 and fgf10 expression. Sonic Hedgehog Gli2 Foxf1 Lung Pulmonary Mouse Transgenic Development Gli3 Shh Cellular Proliferation Morphogenesis Fgf10 Branching Morphogenesis Embryo Transgene 0369
10	マウス胚尿生殖洞上皮を用いた初期前立腺発生におけるFGF10、WNT、レチノイン酸シグナルの機能解析宇野, 亘 25 September 2023 (has links) 京都大学 / 新制・課程博士 / 博士(生命科学) / 甲第24944号 / 生博第506号 / 新制\|\|生\|\|67(附属図書館) / 京都大学大学院生命科学研究科高次生命科学専攻 / (主査)教授北島智也, 教授豊島文子, 教授見学美根子 / 学位規則第4条第1項該当 / Doctor of Philosophy in Life Sciences / Kyoto University / DFAM 前立腺発生尿生殖洞上皮尿生殖洞間充織 FGF10 WNT レチノイン酸 460

Search results