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41	Mitochondrial function in murine skin epithelium is crucial for hair follicle morphogenesis and epithelial-mesenchymal interactions Kloepper, J.E., Baris, O.R., Reuter, K., Kobayash, K., Weiland, D., Vidali, S., Tobin, Desmond J., Niemann, C., Wiesner, R.J., Paus, R. 08 1900 (has links) No / Here, we studied how epithelial energy metabolism impacts overall skin development by selectively deleting intraepithelial mtDNA in mice by ablating a key maintenance factor (TfamEKO), which induces loss of function of the electron transport chain (ETC). Quantitative (immuno)histomorphometry demonstrated that TfamEKO mice showed significantly reduced hair follicle (HF) density and morphogenesis, fewer intrafollicular keratin15+ epithelial progenitor cells, increased apoptosis, and reduced proliferation. TfamEKO mice also displayed premature entry into (aborted) HF cycling by apoptosis-driven HF regression (catagen). Ultrastructurally, TfamEKO mice exhibited severe HF dystrophy, pigmentary abnormalities, and telogen-like condensed dermal papillae. Epithelial HF progenitor cell differentiation (Plet1, Lrig1 Lef1, and β-catenin), sebaceous gland development (adipophilin, Scd1, and oil red), and key mediators/markers of epithelial–mesenchymal interactions during skin morphogenesis (NCAM, versican, and alkaline phosphatase) were all severely altered in TfamEKO mice. Moreover, the number of mast cells, major histocompatibility complex class II+, or CD11b+ immunocytes in the skin mesenchyme was increased, and essentially no subcutis developed. Therefore, in contrast to their epidermal counterparts, pilosebaceous unit stem cells depend on a functional ETC. Most importantly, our findings point toward a frontier in skin biology: the coupling of HF keratinocyte mitochondrial function with the epithelial–mesenchymal interactions that drive overall development of the skin and its appendages. Mitochondrial function Murine skin epithelium Hair follicles Morphogenesis Epithelial-mesenchyma
42	Matrix Metalloproteinase-9 Is Involved in the Regulation of Hair Canal Formation. Sharov, A.A., Schroeder, M., Sharova, T.Y., Mardaryev, Andrei N., Peters, E.M.J., Tobin, Desmond J., Botchkarev, Vladimir A. January 2011 (has links) No / Hair follicle (HF) morphogenesis is governed by a series of signals exchanged between the epidermal keratinocytes committed to HF-specific differentiation and the mesenchymal cells forming the follicular papilla (Schmidt-Ullrich and Paus, 2005). These interactions lead to the construction of the hair bulb, in which keratinocytes rapidly proliferate and differentiate into several cell populations forming the hair shaft and the inner root sheath. During the final steps of development, the HF elongates up to its maximal length and the hair shaft emerges through the epidermis through the hair canal that is formed at the distal portion of the HF epithelium (Schmidt-Ullrich and Paus, 2005). ...To elucidate a role for MMP-9 in the control of HF development and hair canal formation, its expression was studied by immunohistochemistry in cryosections of embryonic and postnatal skin of C57BL/6 mice (Sharov et al., 2003), and was correlated to the micro-anatomy of the developing hair canal depicted by high-resolution light microscopy, as described previously (Magerl et al., 2001). MMP-9 expression was not observed in the epidermis and developing HF placodes. Matrix Metalloproteinase-9 Hair canal formation Regulation Hair follicles
43	Human Hair Follicle and Epidermal Melanocytes Exhibit Striking Differences in Their Aging Profile which Involves Catalase. Kauser, Sobia, Westgate, Gillian E., Green, M.R., Tobin, Desmond J. January 2011 (has links) No / Canities or senile hair graying, a universally recognized sign of aging, remains unresolved in terms of physiological causes, although a strong genetic contribution is understood (Gunn et al., 2009). As the hair fiber continues to grow long after melanin production ceases, we suggest that melanocytes in the hair follicle may be more sensitive to the impact of chronological aging than are keratinocytes. Moreover, follicular melanocytes also age more markedly than those in the overlying epidermis. The hair follicle provides a unique opportunity to decouple the impact of age on two hair follicular tissue functions: hair formation and hair pigmentation. ... This study provides analysis of race, age, and anatomically matched cultures of adult human epidermal and hair follicle melanocytes (HFMs). Human hair follicles Age Aging profiles Catalase Melanocytes Keratinocytes
44	Androgens trigger different growth responses in genetically identical human hair follicles in organ culture that reflect their epigenetic diversity in life Miranda, Benjamin H., Charlesworth, Matthew R., Tobin, Desmond J., Sharpe, David T., Randall, Valerie A. 2017 October 1918 (has links) Yes / Male sex hormones-androgens-regulate male physique development. Without androgen signaling, genetic males appear female. During puberty, increasing androgens harness the hair follicle's unique regenerative ability to replace many tiny vellus hairs with larger, darker terminal hairs (e.g., beard). Follicle response is epigenetically varied: some remain unaffected (e.g., eyelashes) or are inhibited, causing balding. How sex steroid hormones alter such developmental processes is unclear, despite high incidences of hormone-driven cancer, hirsutism, and alopecia. Unfortunately, existing development models are not androgen sensitive. Here, we use hair follicles to establish an androgen-responsive human organ culture model. We show that women's intermediate facial follicles respond to men's higher androgen levels by synthesizing more hair over several days, unlike donor-matched, androgen-insensitive, terminal follicles. We demonstrate that androgen receptors-androgen-activated gene transcription regulators-are required and are present in vivo within these follicles. This is the first human organ that involves multiple cell types that responds appropriately to hormones in prolonged culture, in a way which mirrors its natural behavior. Thus, intermediate hair follicles offer a hormone-switchable human model with exceptional, unique availability of genetically identical, but epigenetically hormone-insensitive, terminal follicles. This should enable advances in understanding sex steroid hormone signaling, gene regulation, and developmental and regenerative systems and facilitate better therapies for hormone-dependent disorders. Alopecia Balding Hirsutism Intermediate hair follicles Model system
45	Re-evaluating cyclosporine A as a hair growth-promoting agent in human scalp hair follicles Hawkshaw, N.J., Haslam, I.S., Ansell, David, Shamalak, A., Paus, R. 07 May 2020 (has links) No / Cyclosporine A (CsA) has long been recognized as a potent hair growth stimulator in both humans and rodent. The induction of a dose-dependent hypertrichosis is one of the most frequent adverse effects of long-term CsA therapy (Lutz, 1994). However, it is unclear how this immunosuppressant induces hypertrichosis in patients or stimulates hair growth in human scalp skin transplanted on nude mice (Gilhar et al., 1988; Gilhar et al., 1991). Cyclosporine A Hair growth stimulant Human scalp Hair follicles
46	MicroRNA-214 controls skin and hair follicle development by modulating the activity of the Wnt pathway Ahmed, Mohammed I., Alam, Majid A., Emelianov, V.U., Poterlowicz, Krzysztof, Patel, Ankit, Sharov, A.A., Mardaryev, Andrei N., Botchkareva, Natalia V. January 2014 (has links) Yes / Skin development is governed by complex programs of gene activation and silencing, including microRNA-dependent modulation of gene expression. Here, we show that miR-214 regulates skin morphogenesis and hair follicle (HF) cycling by targeting β-catenin, a key component of the Wnt signaling pathway. miR-214 exhibits differential expression patterns in the skin epithelium, and its inducible overexpression in keratinocytes inhibited proliferation, which resulted in formation of fewer HFs with decreased hair bulb size and thinner hair production. The inhibitory effects of miR-214 on HF development and cycling were associated with altered activities of multiple signaling pathways, including decreased expression of key Wnt signaling mediators β-catenin and Lef-1, and were rescued by treatment with pharmacological Wnt activators. Finally, we identify β-catenin as one of the conserved miR-214 targets in keratinocytes. These data provide an important foundation for further analyses of miR-214 as a key regulator of Wnt pathway activity and stem cell functions during normal tissue homeostasis, regeneration, and aging. Hair follicles Skin development MicroRNA-214 Wnt pathway
47	Development of a novel, clinically-relevant model for investigating factors that stimulate human hair growth Miranda, Benjamin H. January 2011 (has links) Lack of hair due to alopecia or skin grafting procedures causes significant distress due to hair's role in social and sexual communication. Only limited pharmacological agents are currently available to stimulate hair growth; their development is hampered by inappropriate model systems. Most research involves large terminal scalp follicles rather than the clinical targets of tiny vellus or intermediate follicles. The overall aim of this thesis was to develop a novel model system based on intermediate hair follicles. Initially, intermediate follicles from female pre-auricular skin were characterised and compared to matched terminal follicles. Intermediate follicles were smaller, less pigmented, shorter and possessed a more 'tubular' bulb morphology than their more 'bulbous' terminal counterparts. Significant correlations were demonstrated between various hair follicle measurements and corresponding dermal papilla diameters. Isolated terminal follicles grew significantly more than intermediate hair follicles in organ culture for 9 days. Testosterone (10nM), the major regulator of human hair growth, increased only intermediate follicle growth; the anti-androgen, cyproterone acetate (1μM), prevented this stimulation, unlike the 5α-reductase type 2 inhibitor finasteride (40ng/ml). Immunohistochemistry demonstrated androgen receptor and 5α-reductase type 2 proteins in both follicle types, while quantitative real-time PCR and gene microarray analysis detected their increased gene expression in intermediate follicles. Thus, smaller intermediate follicles showed major morphological and gene expression differences to terminal follicles in vivo and retained significant, biologically-relevant differences in vitro in organ culture including androgen-responsiveness. Therefore, intermediate hair follicles offer a novel, exciting, more clinically relevant, albeit technically difficult, model for future investigations into hair growth. 612.7
48	Dinâmica folicular e luteal em éguas de diferentes portes David, Fabíola Freire Albrecht de January 2018 (has links) Comparações da dinâmica ovariana entre mais de duas raças equinas, sob condições padronizadas, não são encontradas na literatura. Objetivando comparar a dinâmica folicular e luteal, foram realizados exames diários de ultrassonografia durante um intervalo interovulatório contemporâneo, em éguas de pequeno porte (grupo Mini Pony – MP; n=10), médio porte (grupo Large Pony – LP; n=9) e grande porte (grupo Brasileiro de Hipismo – BH; n=12). Concluiu-se que os três grupos diferiram quanto ao máximo diâmetro do folículo pré-ovulatório (FPO) (mm) (MP=36,15; LP=40,95; BH=46,66), diâmetro do FPO um dia antes da ovulação (mm) (MP=35,8; LP=40,55; BH=46,48) e crescimento diário médio do FPO (mm/dia) (MP=2,6; LP=3,05; BH=3,51). O grupo MP diferiu dos demais quanto ao número de folículos por onda ovulatória (MP=4,8; LP=10,11; BH=9,75), número de folículos por dia (MP=4,19; LP=10,27; BH=10,63), número de folículos maiores ou iguais a 10mm (MP=2,98; LP=5,88; BH=5,98), diâmetro do FPO à divergência (mm) (MP=22,62; LP=24,81; BH=25,58), diâmetro do segundo maior folículo à divergência (SMF) (mm) (MP=15,56; LP=21,25; BH=21,83), diferença de diâmetro entre FPO e SMF à divergência (mm) (MP=7,25; LP=3,56; BH=3,75) e área do corpo lúteo (CL) (mm2) (MP=436,1; LP=674,4; BH=720,4). Não houve diferença entre os grupos quanto à duração do ciclo (dias) (MP=21,9; LP=20,22; BH=20,58), ocorrência de divergência (MP=80%; LP=88,89%; BH=100%), dias decorridos entre a emergência do FPO e SMF (MP=0,8; LP=0,89; BH=0,92) e diferença de diâmetro entre estes na emergência (mm) (MP=0,4; LP=0,44; BH=0,5) e na divergência (mm) (MP=7,25; LP=3,56; BH=3,75); dias entre emergência e divergência (MP=5,12; LP=5,5; BH=5,5) e divergência e ovulação (MP=7,12; LP=6,62; BH=6,8), número de ondas menores (MP=0,3; LP=0,33; BH=0,42) e duração do CL (dias) (MP=12,4; LP=14,67; BH=13,92). / Comparisons of ovarian dynamics between more than two equine breeds, under standardized conditions, are not found in the literature. The objective of this study was to compare follicular and luteal dynamics during one contemporary intervulatory interval by daily ultrasonography examinations in small size mares (Mini Pony group - MP; n=10), medium size (Large Pony group - LP; n=9) and large size (Brazilian Warmblood group - BH; n=12). It was concluded that all three groups differed regarding maximum diameter of the preovulatory follicle (POF) (mm) (MP=36.15; LP=40.95; BH=46.66), maximum diameter of POF one day before ovulation (mm) (MP=35.8; LP=40.55; BH=46.48) and the mean daily growth of POF (mm / day) (MP=2.6; LP=3.05; BH=3.51). The MP group differed from LP and BH groups regarding number of follicles per ovulatory wave (MP=4.8; LP=10.11; BH=9.75), number of follicles per day (MP=4.19; LP=10, 27; BH=10.63), number of follicles equal or greater than 10mm (MP=2.98; LP=5.88; BH=5.98), diameter of POF at deviation (mm) (MP=22.62; LP=24.81; BH=25.58), diameter of second largest follicle (SLF) at deviation (MP=15.56; LP=21.25; BH=21.83), diameter difference between FPO and SLF at deviation (mm) (MP=7.25; LP=3.56; BH=3.75), corpus luteum (CL) area (mm2) (MP=436.1; LP=674.4; BH=720.4). There was no difference between groups regarding cycle length (MP=21.9; LP=20.22; BH=20.58), occurrence of deviation (MP=80%; LP=88.89%; BH=100%), days between emergence of POF and SLF (MP=0.8, LP = 0.89, BH = 0.92), and diameter difference between POF and SLF at emergence (mm) (MP=0.4; LP=0.44; BH=0.5) and at deviation (mm) (MP=7.25; LP=3.56; BH=3.75); days between emergence and deviation (MP=5.12; LP=5.5; BH=5.5), deviation and ovulation (MP=5.12; LP=6.62; BH=6.8), number of minor waves (MP = 0.3; LP = 0.33; BH = 0.42) and CL lifespan (days) (MP=12.4; LP=14.67; BH=13.92). Reprodução animal Equinos Foliculogênese Luteinização Mares Deviation Comparison Follicles Estrous cycle
49	Avaliações ultrassonográficas dos ciclos reprodutivos das serpentes Boidae Neotropicais / Sonographic evaluations of the reproductive cycles of the snakes Neotropical Boidae Garcia, Viviane Campos 14 December 2012 (has links) Existe pouca informação a respeito do desenvolvimento reprodutivo das serpentes Neotropicais da família Boidae. Este trabalho descreve por meio de avaliações ultrassonográficas os ciclos reprodutivos nas estações do ano (primavera, verão, outono e inverno), de exemplares das seguintes espécies: Eunectes murinus, Boa constrictor constrictor, Corallus hortulanus e Epicrates cenchria pertencentes ao acervo do Museu Biológico do Instituto Butantan. E. murinus e B. c. constrictor apresentaram vitelogênese primária prolongada, com duração de um ano, em todas as estações. A vitelogênese secundária ocorreu na primavera e no verão em E. murinus e B. c. constrictor, em todas as estações em C. hortulanus, e no inverno e primavera em E. cenchria. Houve reabsorção folicular nas quatro espécies. Cópula foi observada no inverno em B. c. constrictor e E. cenchria, e na primavera em C. hortulanus. Eunectes murinus necessita de agregações reprodutivas e E. cenchria, de ritual de combate entre os machos para ovulação e fecundação, e posteriormente gestação. Nascimentos ocorreram no verão, em B. c. constrictor e E. cenchria, e no inverno, em C. hortulanus. Ovos atrésicos foram eliminados no parto em B. c. constrictor e C. hortulanus. Houve reabsorção uterina de ovos inférteis em C. hortulanus. O tamanho da ninhada foi maior em Boa c. constrictor do que em C. hortulanus e E. cenchria. Nos machos, houve aumento de testículo na época de cópula em B. c. constrictor e E. cenchria. A ultrassonografia demonstrou ser uma técnica de diagnóstico segura e não invasiva para estudar os ciclos reprodutivos. / There is little information about to the phases of the reproductive development of Neotropical snakes of Boidae family. This paper describes by sonographic evaluations the reproductive cycles along the seasons (spring, summer, autumn and, winter), of specimens of: Eunectes murinus, Boa constrictor constrictor, Corallus hortulanus and, Epicrates cenchria belonging to the Museu Biologico of the Instituto Butantan. E. murinusand, B. c. constrictor showed prolonged primary vitellogenesis, for one year, in all seasons. The secondary vitellogenesis occurred in the spring and, summer in E. murinus and, B. c. constrictor, in all seasons in C. hortulanus and, in winter and, spring in E. cenchria. In the four species, there were follicular resorptions. Copulation was observed in winter in B. c. constrictor and, E. cenchria and, in spring in C. hortulanus. Eunectes murinus requires breeding aggregations and E. cenchria male-male ritualized combat for ovulation and, fertilization, and, after pregnancy. The births occurred in summer in B. c. constrictor and, E. cenchria, and, in winter in C. hortulanus. Atretic eggs were eliminated in parturition in B. c. constrictor and, C. hortulanus. There was resorption of uterine infertile eggs in C. hortulanus. The litter size was higher in Boa c. constrictor than in C. hortulanus and, E. cenchria. In males, there was an increase of testis during the copulation season in B. c. constrictor and E. cenchria. The ultrasonography proved to be a safe and, non-invasive diagnostic technique for studying the reproductive cycles. Animal reproduction Folículos Follicles Reprodução animal Sazonal Seasonal Serpentes Snakes Ultrasound Ultrassom
50	Maturação e fertilização in vitro de oócitos estádio III de zebrafish / In vitro maturation and fertilization of oocytes stage III in zebrafish (Danio Rerio) Silva, Laura Arnt January 2015 (has links) Protocolos de sucesso para a maturação in vitro de oócitos de peixe são importantes, uma vez que é necessário para garantir uma fertilização bem sucedida, formação do zigoto, crescimento do embrião e seu completo desenvolvimento. Em algumas espécies, a eficiência deste processo ainda é muito baixa ou restrita a poucas substâncias que podem ser utilizadas. Assim, pesquisou-se a utilização de hormônios alternativos ao protocolo já existente para maturação in vitro de ovócitos de zebrafish. O objetivo foi avaliar a eficiência do extrato de hipófise de carpa (EHC), dos hormônios folículo estimulante (FSH) e luteinizante (LH) para fazer a maturação dos ovócitos estádio III de zebrafish. Os oócitos estádio III foram colocados em meio de cultivo Leibovitz modificado, suplementado com soro fetal bovino e adicionado o hormônio correspondente a seu tratamento (T1-controle; T2-16 μg/ml de EHC; T3- 32 μg/ml de EHC; T4- 48 μg/ml de EHC; T5- 64 μg/ml de EHC; T6- 80 μg/ml de EHC; T7- 0,5 μg/ml de FSH; T8- 0,5 μg/ml de LH e T9- 0,5 μg/ml de FSH e 0,5 μg/ml de LH). A taxa de maturação foi avaliada através da visualização da quebra da vesícula germinal (GVBD). Em todos os tratamentos houve maturação, embora o EHC tenha demonstrado taxas de maturação muito baixas (T2= 12,8%; T3=24,8%; T4=27%; T5=22,7%; T6=9,7%) e inferiores em relação a maior eficiência dos hormônios gonadotrópicos (T7=16%; T8=35%; T9=50%). Além disso foi possível verificar a viabilidade dos oócito através da fertilização in vitro do melhor tratamento (T9) com uma taxa de eclosão e desenvolvimento em larva de 60%. Os resultados da maturação in vitro utilizando estes indutores hormonais em oócitos estádio III de zebrafish mostraram-se promissores, e reforçam as perspectivas para o aprimoramento e uso desta técnica para produção in vitro de embriões viáveis. / Successful protocols for maturation of oocytes are important, as it is necessary for ensuring successful fertilization, zygote formation, embryo growth and full development. In some species the efficiency of in vitro maturation is still very low or is still restricted to a little amount of substances which can be used for the matter. Thus, we studied the use of alternative hormones to the existing protocol for in vitro maturation of zebrafish oocytes. The aim of this study was to evaluate the efficiency of the use of carp pituitary extract (CPE), the follicle stimulating hormone (FSH) and luteinizing hormone (LH) to oocyte maturation stage III of zebrafish. Oocytes stage III were placed in modified Leibovitz culture medium, suplemented with fetal bovine serum and added to the correnponding hormone treatment (T1-control; T2-16 g / ml of CHE; T3 32 g / ml of CHE, T4 - 48 g / ml of CHE; T5- 64 g / ml of CHE; T6- 80 g / ml of CHE; T7- 0.5 g / ml of FSH, T8 0.5 mg / ml of LH and T9- 0.5 g / ml of FSH and 0.5 mg / ml LH). The maturation rate was assessed by the germinal vesicle break down (GVBD). In all cases there was maturation, though the EHC has demonstrated fairly low maturation rate (T2= 12,8%; T3=24,8%; T4=27%; T5=22,7%; T6=9,7%) and lower in relation of the high efficiency presented by the gonadotropic hormones (T7=16%; T8=35%; T9=50%). In addition it was possible to verify the viability of the oocyte through IVF of the best treatment (T9) with a result of 60% of hatching and larvae development rate. The results of maturation in turn using this hormones in stage III oocytes of zebrafish proved promising, and enhance the prospects for improvement and use of this technique for in vitro production of viable embryos. Peixe Reprodução animal Hormônio Piscicultura Fertilization FSH LH Ovarian follicles Carp pituitary Gonadotropic hormones

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