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51	Simulation of human skin pigmentation disorders / Simulação de transtornos de pigmentação da pele humana Barros, Renan Sales January 2013 (has links) Nosso trabalho apresenta um modelo de simulação de transtornos de pigmentação humana. Nosso modelo é formado por um conjunto de equações diferenciais que definem um sistema reação-difusão. Nosso sistema simula algumas características do sistema pigmentar humano. Alterações nesse sistema podem levar a desequilíbrios na distribuição de melanina na pele resultando em artefatos conhecidos como lesões de pigmentação. Nosso modelo tem como objetivo reproduzir essas alterações e assim sintetizar lesões de pigmentação humanas. Nosso sistema reação-difusão foi elaborado tomando como base dados biológicos a respeito da pele humana, do sistema pigmentar e do ciclo de vida dos melanócitos, que são as principais células envolvidas nesse tipo de transtorno. A simulação desse tipo de transtorno apresenta diversas aplicações em dermatologia como, por exemplo, suporte para o treinamento de dermatologistas e auxílio no diagnóstico de transtornos de pigmentação. No entanto, nosso trabalho se concentra em aplicações relacionadas com computação gráfica. Assim, nós também apresentamos um método para transferir os resultados do nosso modelo de simulação para texturas e imagens de pele humana. Nesse contexto, o nosso modelo contribui para a geração de texturas de pele mais realistas e consequentemente para a geração de modelos de serem humanos mais realistas. Além disso, nós também comparamos os resultados da nossa simulação com lesões de pigmentações reais objetivando avaliar a qualidade das lesões geradas pelo nosso modelo. Para realizar essa comparação nós extraímos métricas das lesões sintetizadas e das lesões reais e comparamos os valores dessas métricas. Com base nessa comparação, nós observamos que as lesões sintetizadas apresentam as mesmas características das lesões reais. Ainda, para efeito de comparações visuais, nós também apresentamos imagens de lesões reais lado a lado com imagens sintetizadas e podemos observar que o método utilizado para produzir imagens de lesões a partir do resultado do nosso modelo de simulação produz resultados que são indistinguíveis das imagens reais. / Our work presents a simulation model of human pigmentation disorders. Our model is formed by a set of differential equations that defines a reaction-diffusion system. Our system simulates some features of the human pigmentary system. Changes in this system can lead to imbalances in the distribution of melanin in the skin resulting in artifacts known as pigmented lesions. Our model aims to reproduce these changes and consequently synthesize human pigmented lesions. Our reaction-diffusion system was developed based on biological data regarding human skin, pigmentary system and melanocytes life cycle. The melanocytes are the main cells involved in this type of human skin disorders. The simulation of such disorders has many applications in dermatology, for example, to assist dermatologists in diagnosis and training related to pigmentation disorders. However, our study focuses on applications related to computer graphics. Thus, we also present a method to transfer the results of our simulation model for textures and images of human skin. In this context, our model contributes to the generation of more realistic skin textures and consequently for the generation of more realistic human models. Moreover, we also compared the results of our simulation with real pigmented lesions to evaluate the quality of the lesions generated by our model. To perform this comparison we measured some features of real and synthesized pigmented lesions and we compared the results of these measurements. Based on this comparison, we observed that synthesized lesions exhibit the same characteristics of real lesions. Still, for the purpose of visual comparisons, we also present images of real lesions along with images of synthesized lesions. In this visual comparison, we can note that the method used to produce lesions images from the results of our simulation generates images that are indistinguishable from real images. Computação gráfica Processamento : Imagem Segmentacao : Imagem Computer graphics Human skin Melanocyte Melanosome Pigmentary system Pigmentation disorders Pigmented lesions Simulation Skin color Skin simulation
52	Simulation of human skin pigmentation disorders / Simulação de transtornos de pigmentação da pele humana Barros, Renan Sales January 2013 (has links) Nosso trabalho apresenta um modelo de simulação de transtornos de pigmentação humana. Nosso modelo é formado por um conjunto de equações diferenciais que definem um sistema reação-difusão. Nosso sistema simula algumas características do sistema pigmentar humano. Alterações nesse sistema podem levar a desequilíbrios na distribuição de melanina na pele resultando em artefatos conhecidos como lesões de pigmentação. Nosso modelo tem como objetivo reproduzir essas alterações e assim sintetizar lesões de pigmentação humanas. Nosso sistema reação-difusão foi elaborado tomando como base dados biológicos a respeito da pele humana, do sistema pigmentar e do ciclo de vida dos melanócitos, que são as principais células envolvidas nesse tipo de transtorno. A simulação desse tipo de transtorno apresenta diversas aplicações em dermatologia como, por exemplo, suporte para o treinamento de dermatologistas e auxílio no diagnóstico de transtornos de pigmentação. No entanto, nosso trabalho se concentra em aplicações relacionadas com computação gráfica. Assim, nós também apresentamos um método para transferir os resultados do nosso modelo de simulação para texturas e imagens de pele humana. Nesse contexto, o nosso modelo contribui para a geração de texturas de pele mais realistas e consequentemente para a geração de modelos de serem humanos mais realistas. Além disso, nós também comparamos os resultados da nossa simulação com lesões de pigmentações reais objetivando avaliar a qualidade das lesões geradas pelo nosso modelo. Para realizar essa comparação nós extraímos métricas das lesões sintetizadas e das lesões reais e comparamos os valores dessas métricas. Com base nessa comparação, nós observamos que as lesões sintetizadas apresentam as mesmas características das lesões reais. Ainda, para efeito de comparações visuais, nós também apresentamos imagens de lesões reais lado a lado com imagens sintetizadas e podemos observar que o método utilizado para produzir imagens de lesões a partir do resultado do nosso modelo de simulação produz resultados que são indistinguíveis das imagens reais. / Our work presents a simulation model of human pigmentation disorders. Our model is formed by a set of differential equations that defines a reaction-diffusion system. Our system simulates some features of the human pigmentary system. Changes in this system can lead to imbalances in the distribution of melanin in the skin resulting in artifacts known as pigmented lesions. Our model aims to reproduce these changes and consequently synthesize human pigmented lesions. Our reaction-diffusion system was developed based on biological data regarding human skin, pigmentary system and melanocytes life cycle. The melanocytes are the main cells involved in this type of human skin disorders. The simulation of such disorders has many applications in dermatology, for example, to assist dermatologists in diagnosis and training related to pigmentation disorders. However, our study focuses on applications related to computer graphics. Thus, we also present a method to transfer the results of our simulation model for textures and images of human skin. In this context, our model contributes to the generation of more realistic skin textures and consequently for the generation of more realistic human models. Moreover, we also compared the results of our simulation with real pigmented lesions to evaluate the quality of the lesions generated by our model. To perform this comparison we measured some features of real and synthesized pigmented lesions and we compared the results of these measurements. Based on this comparison, we observed that synthesized lesions exhibit the same characteristics of real lesions. Still, for the purpose of visual comparisons, we also present images of real lesions along with images of synthesized lesions. In this visual comparison, we can note that the method used to produce lesions images from the results of our simulation generates images that are indistinguishable from real images. Computação gráfica Processamento : Imagem Segmentacao : Imagem Computer graphics Human skin Melanocyte Melanosome Pigmentary system Pigmentation disorders Pigmented lesions Simulation Skin color Skin simulation
53	Simulation of human skin pigmentation disorders / Simulação de transtornos de pigmentação da pele humana Barros, Renan Sales January 2013 (has links) Nosso trabalho apresenta um modelo de simulação de transtornos de pigmentação humana. Nosso modelo é formado por um conjunto de equações diferenciais que definem um sistema reação-difusão. Nosso sistema simula algumas características do sistema pigmentar humano. Alterações nesse sistema podem levar a desequilíbrios na distribuição de melanina na pele resultando em artefatos conhecidos como lesões de pigmentação. Nosso modelo tem como objetivo reproduzir essas alterações e assim sintetizar lesões de pigmentação humanas. Nosso sistema reação-difusão foi elaborado tomando como base dados biológicos a respeito da pele humana, do sistema pigmentar e do ciclo de vida dos melanócitos, que são as principais células envolvidas nesse tipo de transtorno. A simulação desse tipo de transtorno apresenta diversas aplicações em dermatologia como, por exemplo, suporte para o treinamento de dermatologistas e auxílio no diagnóstico de transtornos de pigmentação. No entanto, nosso trabalho se concentra em aplicações relacionadas com computação gráfica. Assim, nós também apresentamos um método para transferir os resultados do nosso modelo de simulação para texturas e imagens de pele humana. Nesse contexto, o nosso modelo contribui para a geração de texturas de pele mais realistas e consequentemente para a geração de modelos de serem humanos mais realistas. Além disso, nós também comparamos os resultados da nossa simulação com lesões de pigmentações reais objetivando avaliar a qualidade das lesões geradas pelo nosso modelo. Para realizar essa comparação nós extraímos métricas das lesões sintetizadas e das lesões reais e comparamos os valores dessas métricas. Com base nessa comparação, nós observamos que as lesões sintetizadas apresentam as mesmas características das lesões reais. Ainda, para efeito de comparações visuais, nós também apresentamos imagens de lesões reais lado a lado com imagens sintetizadas e podemos observar que o método utilizado para produzir imagens de lesões a partir do resultado do nosso modelo de simulação produz resultados que são indistinguíveis das imagens reais. / Our work presents a simulation model of human pigmentation disorders. Our model is formed by a set of differential equations that defines a reaction-diffusion system. Our system simulates some features of the human pigmentary system. Changes in this system can lead to imbalances in the distribution of melanin in the skin resulting in artifacts known as pigmented lesions. Our model aims to reproduce these changes and consequently synthesize human pigmented lesions. Our reaction-diffusion system was developed based on biological data regarding human skin, pigmentary system and melanocytes life cycle. The melanocytes are the main cells involved in this type of human skin disorders. The simulation of such disorders has many applications in dermatology, for example, to assist dermatologists in diagnosis and training related to pigmentation disorders. However, our study focuses on applications related to computer graphics. Thus, we also present a method to transfer the results of our simulation model for textures and images of human skin. In this context, our model contributes to the generation of more realistic skin textures and consequently for the generation of more realistic human models. Moreover, we also compared the results of our simulation with real pigmented lesions to evaluate the quality of the lesions generated by our model. To perform this comparison we measured some features of real and synthesized pigmented lesions and we compared the results of these measurements. Based on this comparison, we observed that synthesized lesions exhibit the same characteristics of real lesions. Still, for the purpose of visual comparisons, we also present images of real lesions along with images of synthesized lesions. In this visual comparison, we can note that the method used to produce lesions images from the results of our simulation generates images that are indistinguishable from real images. Computação gráfica Processamento : Imagem Segmentacao : Imagem Computer graphics Human skin Melanocyte Melanosome Pigmentary system Pigmentation disorders Pigmented lesions Simulation Skin color Skin simulation
54	Endocrine Regulation of Dynamic Communication Signals in Gymnotiform Fish Goldina, Anna 04 November 2011 (has links) Communication signals are shaped by the opposing selection pressures imposed by predators and mates. A dynamic signal might serve as an adaptive compromise between an inconspicuous signal that evades predators and an extravagant signal preferred by females. Such a signal has been described in the gymnotiform electric fish, Brachyhypopomus gauderio, which produces a sexually dimorphic electric organ discharge (EOD). The EOD varies on a circadian rhythm and in response to social cues. This signal plasticity is mediated by the slow action of androgens and rapid action of melanocortins. My dissertation research tested the hypotheses that (1) signal plasticity is related to sociality levels in gymnotiform species, and (2) differences in signal plasticity are regulated by differential sensitivity to androgen and melanocortin hormones. To assess the breadth of dynamic signaling within the order Gymnotiformes, I sampled 13 species from the five gymnotiform families. I recorded EODs to observe spontaneous signal oscillations after which I injected melanocortin hormones, saline control, or presented the fish with a conspecific. I showed that through the co-option of the ancient melanocortin pathway, gymnotiforms dynamically regulate EOD amplitude, spectral frequency, both, or neither. To investigate whether observed EOD plasticities are related to species-specific sociality I tested four species; two territorial, highly aggressive species, Gymnotus carapo and Apteronotus leptorhynchus, a highly gregarious species, Eigenmannia cf. virescens, and an intermediate short-lived species with a fluid social system, Brachyhypopomus gauderio. I examined the relationship between the androgens testosterone and 11-ketotestosterone, the melanocortin a-MSH, and their roles in regulating EOD waveform. I implanted all fish with androgen and blank silicone implants, and injected with a-MSH before and at the peak of implant effect. I found that waveforms of the most territorial and aggressive species were insensitive to hormone treatments; maintaining a static, stereotyped signal that preserves encoding of individual identity. Species with a fluid social system were most responsive to hormone treatments, exhibiting signals that reflect immediate condition and reproductive state. In conclusion, variation in gymnotiform signal plasticity is hormonally regulated and seems to reflect species-specific sociality. Gymnotiformes Adrenocorticotropic hormone (ACTH) 11-Ketotestosterone (11-KT) Testosterone (T) electric communication signals plasticity EOD sociality
55	The Role of Interferon Gamma in Melanocyte Clearance During Vitiligo Strassner, James P. 07 April 2019 (has links) Vitiligo is an autoimmune disease in which CD8+ T cells selectively destroy melanocytes, leading to a patchy, disfiguring depigmentation of the skin. Our group and others have highlighted the central role of IFN-γ-dependent chemokines in the progression of disease; however, IFN-γ is also reported to have pleiotropic effects on melanocyte biology. We examined whether IFN-γ has a direct role in melanocyte killing. We tested the T-cell effector functions IFN-γ, Fas ligand and perforin by deleting them from autoreactive T cells used to induce vitiligo in mice. We found that disease incidence, disease severity and T cell accumulation in the skin was reduced in mice receiving adoptive transfer of either IFN-γ deficient or Fas ligand deficient gp100-specific T cells; however, perforin was dispensable and led to increased disease scores and T cell accumulation. To determine how melanocytes are affected by IFN-γ signaling during vitiligo, we performed single-cell RNA-sequencing on suction blister biopsies obtained from vitiligo and healthy subjects. We discovered that integrin expression and TGFb2 signaling was decreased only in lesional melanocyte transcriptomes. Moreover, melanocytes appear to participate in their own demise by increasing HLA expression and recruiting effector cells through the chemotactic ligand CCL18. The loss of melanocyte retention factors may explain their clean disappearance from the skin during keratinocyte turnover. Taken together, we believe IFN-γ production by autoreactive T cells in the skin leads to clean loss of melanocytes by downregulation of melanocyte retention factors and by increasing their potential to be detected by effector cells during vitiligo. Vitiligo autoimmunity biomarker single-cell RNA-sequencing T cell melanocyte T-cell effector functions Bioinformatics Dermatology Immune System Diseases Immunity Skin and Connective Tissue Diseases Translational Medical Research
56	Dissection of Zebrafish Adult Melanocyte Stem Cell Signaling During Regeneration Frantz, William Tyler 26 May 2021 (has links) Tissue-resident stem cells are present in many adult organs, where they are important for organ homeostasis and repair in response to injury. However, the signals that activate these cells and the mechanisms governing how these cells self-renew or differentiate are highly context dependent and incompletely understood, particularly in non-hematopoietic tissues. In the skin, melanocyte stem cells (McSCs) are responsible for replenishing mature pigmented melanocytes. In mammals, these cells reside in the hair follicle bulge and bulb niches where they are activated during homeostatic hair follicle turnover and following melanocyte destruction, as occurs in vitiligo and other skin hypopigmentation disorders. Recently, we identified adult McSCs in the zebrafish. To elucidate mechanisms governing McSC self-renewal and differentiation fates we analyzed individual transcriptomes from thousands of melanocyte lineage cells during the regeneration process. We identified transcriptional signatures for McSCs, deciphered transcriptional changes and intermediate cell states during regeneration, and analyzed cell-cell signaling changes to discover mechanisms governing melanocyte regeneration. We identified KIT signaling via the RAS/MAPK pathway as a regulator of McSC direct differentiation. Analysis of the scRNAseq dataset also revealed a population of mitfa/aox5 co-expressing cells that divides following melanocyte destruction, likely corresponding to cells that undergo self-renewal. Our findings show how different subpopulations of mitfa-positive cells underlie regeneration and differentiation of at least one subpopulation requires reactivation of developmental KIT signaling to properly reconstitute the melanocyte stripe. Melanocytes Melanocyte Stem Cells McSC Zebrafish Danio rerio Melanoma Vitiligo Single cell transcriptomics scRNAseq KIT c-KIT kita Cell Biology Cellular and Molecular Physiology Developmental Biology
57	Prévention des problèmes d’hyperpigmentation cutanée induits par les rayonnements ultraviolets et régulation par l’application d’huiles essentielles de plantes d’origine libanaise / Prevention of UV-induced skin hyperpigmentation disorders and regulation by the application of essential oils of Lebanese plants El khoury, Rindala 13 June 2019 (has links) Les problèmes d’hyperpigmentation cutanée sont caractérisés par l’apparition de taches brunes foncées, distribuées irrégulièrement sur la peau, généralement sur les zones photo-exposées. Ce problème largement répandu est la conséquence de plusieurs perturbations cutanées d’une ampleur autant physiologique qu’esthétique. Les rayonnements ultraviolets (UV) jouent un rôle important dans la mélanogenèse mais sont aussi à l’origine de plusieurs dérèglements physiologiques des mélanocytes induisant ainsi leur mal-fonctionnement.L’application d’un écran solaire est un moyen très efficace pour la protection contre les UV et la prévention des problèmes d’hyperpigmentation cutanée. Pour la première fois, nous avons pu mettre en place une nouvelle méthode in vitro pour la détermination du facteur de protection solaire (SPF) d’un écran en utilisant le film Gafchromic® EBT3 comme substrat et en se basant sur le changement de couleur du substrat. La variation de couleur est évaluée par spectroscopie ultraviolet-visible et est rapportée à l’absorbance du film après son exposition à un simulateur de soleil.En plus, nous nous sommes intéressés à la recherche de principes actifs extraits de plantes pour la régulation des problèmes d’hyperpigmentation cutanée. Pour ce, des huiles essentielles (HE) ont été extraites à partir de cinq plantes indigènes ou endémiques au Liban et leur composition analysée par chromatographie en phase gazeuse couplée à la spectrométrie de masse (GC-MS). Leurs effets moléculaires sur les structures cutanées ont été déterminés par analyses in tubo et in vitro. Les analyses enzymatiques in tubo ont permis de détecter une activité anti tyrosinase importante des deux HE d’Origanum syriacum et Origanum ehrenbergii. Cette activité a été liée à la composition phytochimique de chaque HE et a été attribuée au composé majoritaire, le carvacrol. Les études in vitro sur des cultures de mélanocytes ont permis de déterminer une diminution significative de la production de la mélanine en présence des HE et du carvacrol. Nous avons pu établir un lien entre les deux études pour déterminer le mécanisme d’action du carvacrol. Il s’agit d’une inhibition compétitive où le carvacrol se lie à la tyrosinase pour suivre une série d’oxydations enzymatiques bloquant ainsi l’oxydation de la tyrosine et causant un dérèglement de la mélanogenèse.Notre étude est la première à démontrer l’activité anti tyrosinase des HE d’O. syriacum et d’O. ehrenbergii. La complémentarité entre les tests d’efficacité et les analyses GC-MS nous a permis d’attribuer l’activité anti tyrosinase au carvacrol qui agit par inhibition compétitive.Ainsi, l’application de protecteur solaire associée à l’application cutanée de régulateurs de la mélanogenèse pourrait être une solution efficace pour les problèmes d’hyperpigmentation cutanée. / Hyperpigmentation disorders are characterized by an irregular distribution of dark spots on the skin, mainly on photo-exposed skin areas. This widespread problem is the result of several skin disorders leading to many physiological and aesthetic perturbations. Ultraviolet (UV) radiations play an important role in melanogenesis. However, they are also the source of several physiological disorders that induce a malfunctioning of melanocytes.The application of sunscreen is a very effective UV protection method and it is considered a main factor in the prevention of skin hyperpigmentation problems. One of the novelties in our research is that, for the first time, we were able to establish a new in vitro method for the determination of the sun protection factor (SPF) of a sunscreen, using EBT3 Gafchromic® film as a substrate. Our method relied on the color change of the substrate that was evaluated by UV-visible spectrophotometric measurements and valued by the absorbance of the film exposed to a solar simulator.In addition, we were interested in discovering new plant-derived active ingredients for the regulation of skin hyperpigmentation disorders. For this process, five essential oils (EO) of indigenous or endemic plants to Lebanon were extracted and their composition was studied by gas chromatography coupled to mass spectrometry (GC-MS). We studied as well their molecular effects on cutaneous structures by in tubo and in vitro analysis. In tubo enzymatic analysis allowed us to identify an important anti tyrosinase activity of the two EO of Origanum syriacum and Origanum ehrenbergii. This activity was linked to the phytochemical composition of the EO and was assigned to the presence of their main component, carvacrol. In vitro cell cultures of melanocytes enabled us to determine a significant reduction in the melanin production in the presence of the EOs and carvacrol. Furthermore, we were able to define the mechanism of action of carvacrol by linking both in tubo and in vitro studies: carvacrol binds to tyrosinase and undergoes a series of oxidation reactions, thus preventing the oxidation of tyrosine. This mechanism is called competitive inhibition and it disturbs the regular pathway of melanogenesis.Our study is the first to demonstrate the anti tyrosinase activity of the EO of O. syriacum and O. ehrenbergii. The complementarity between efficacy tests and the phytochemical GC-MS analysis was our tool to discover that tyrosinase inhibition is mainly due to the presence of carvacrol that acts by competitive inhibition.Thus, the application of a sunscreen paired with the application of cutaneous melanogenesis regulator could be an effective solution for skin hyperpigmentation disorders. Hyperpigmentation Photo-Protection Facteur de Protection Solaire Huile essentielle Mélanocyte Anti-Tyrosinase Hyperpigmentation Photo protection Sun Protection Factor Essential Oil Melanocyte Anti tyrosinase
58	Design, Synthesis, and Biological Evaluation of Melanocortin-1-Receptor Agonists for the Prevention of Skin Cancer RUWE, ANDREW R. 24 September 2008 (has links) No description available. Biochemistry Biomedical Research Chemistry Molecules Oncology Organic Chemistry Pharmaceuticals Pharmacology melanocortins MSH MC1R skin cancer melanoma arginine mimetics melanocyte stimulating hormone
59	Involvement of the Melanocortin System in the Regulation of Circadian and Behavioural Mechanisms in Zebrafish Godino Gimeno, Alejandra 14 March 2024 (has links) Tesis por compendio / [ES] El sistema de melanocortina es una estructura clave en la regulación de una amplia gama de funciones fisiológicas que incluyen la melanogénesis, la respuesta al estrés y el equilibrio energético, mediante la unión a una familia de receptores acoplados a la proteína G específicos (MC1R-MC5R). La sobreexpresión de agonistas inversos, la proteína de señalización agutí (Asip) y la proteína relacionada con agutí (Agrp) da como resultado un aumento de la ingesta de alimentos, de crecimiento lineal y de peso corporal. Asip regula la polaridad de pigmentación dorsoventral a través del MC1R, y la sobreexpresión induce obesidad en ratones al unirse al Mc4r central. La sobreexpresión de asip1 en el pez cebra transgénico (asip1-Tg) mejora el crecimiento, sin afectar la acumulación lipídica (obesidad), incluso cuando se alimentan bajo regímenes inductores severos. Los peces asip1-Tg no necesitan comer más para crecer más y más rápido, lo que sugiere una mayor eficiencia alimentaria. Además, los peces asip1-Tg criados en alta densidad son capaces de crecer mucho más que los peces de tipo salvaje (WT) criados en baja densidad, aunque los peces asip1-Tg parecen ser más sensibles al estrés por hacinamiento que los peces WT. El análisis transcriptómico comparativo del intestino de asip1-Tg refleja una expresión diferencial de transportadores aminoácidicos, monocarboxilatos, transportadores iónicos y de vitaminas. La sobreexpresión reduce la integridad del epitelio intestinal aumentando su permeabilidad paracelular y potencia el transporte electrogénico de aminoácidos. Así, los peces transgénicos poseen mayor capacidad para la absorción de nutrientes y, por extensión una mejora en la eficiencia alimenticia que podría explicar, en parte, ese crecimiento diferencial bajo tasas de ingesta similares. Esta tesis tuvo también como objetivo investigar si los asip1-Tg mantienen un fenotipo dominante asociado con una mayor tasa de alimentación. Los resultados muestran, por el contrario, un carácter reactivo/subordinado en los asip1-Tg que aboga por una participación del sistema de melanocortinas en la regulación del comportamiento de peces. El perfil subordinado de los animales asip1-Tg, junto con una activación del eje del estrés, sugiere que estos animales pueden mostrar un comportamiento de ansiedad. Los resultados indicaron que los peces asip1-Tg muestran un comportamiento de ansiedad que además relacionado con una severa disminución de los niveles centrales de serotonina (5HT) y dopamina y elevación de su recaptación neuronal y degradación. La administración de un inhibidor de la recaptación de 5HT, recupera el fenotipo comportamental salvaje, mitigando el comportamiento de ansiedad en los peces transgénicos y rescatando los niveles de 5HT. Esta ansiedad podría repercutir en una alteración del comportamiento locomotor de los animales, por ello estudiamos los ritmos circadianos de actividad locomotora. Los resultados muestran que los animales asip1-Tg exhiben una disrupción completa del ritmo de actividad, con una actividad muy elevada, especialmente durante la noche. Esta disrupción es concomitante con una desaparición del ritmo diario de serotonina y melatonina. Además, los resultados muestran una pérdida de ritmos de expresión de genes reloj (per1a y clock1a). La incubación, in vitro, de glándulas pineales con Asip1 produjo una inhibición de la secreción de melatonina replicando los resultados obtenidos in vivo y demostrando un efecto directo de Asip1, sobre la fisiología de la pineal. En esta tesis, se utilizó el pez cebra como modelo para investigar los efectos de la obesidad sobre la ansiedad y la memoria. La obesidad no tuvo ningún efecto sobre la ansiedad, pero produjo una disminución de la memoria a corto plazo, estudiada mediante test de condicionamiento aversivo. Este estudio proporciona, un protocolo fiable para evaluar el efecto de las enfermedades metabólica en la función cognitiva y conductual. / [CA] El sistema de melanocortina és una estructura clau en la regulació d'una ampla gamma de funcions fisiològiques que inclouen la melanogènesi, la resposta a l'estrès i l'equilibri energètic, mitjançant la unió a una família de receptors acoblats a la proteïna G específics (MC1R-MC5R). La sobreexpressió d'agonistes inversos, la proteïna de senyalització agutí (Asip) y la proteïna relacionada con agutí (Agrp) dona com a resultat un augment de la ingesta d'aliments, de creixement lineal i de pes corporal. Asip regula la polaritat de pigmentació dors-ventral a través del MC1R, y la sobreexpressió indueix obesitat en ratolins en unir-se al MC4R central. La sobreexpressió de asip1 en el peix zebra transgènic (asip1-Tg) millora el creixement, sense afectar l'acumulació lipídica (obesitat), inclús quan s'alimenten sota règims inductors severs. Los peces asip1-Tg no necessiten menjar més per a créixer més i més ràpid, lo qual suggereix una major eficiència alimentària. A més a més, els peixos asip1-Tg criats en alta densitat són capaces de créixer molt més que els peixos de tipus salvatge (WT) criats en baixa densitat, malgrat que els peixos asip1-Tg semblen ser més sensibles a l'estrès per amuntegament que els peixos WT. L'anàlisi transcriptòmic comparatiu de l'intestí de asip1-Tg reflecteix una expressió diferencial de transportadors aminoacídics, monocarboxilats, transportadors iònics i de vitamines. La sobreexpressió redueix la integritat de l'epiteli intestinal augmentant la seua permeabilitat paracel·lular i potencia el transport electrogènic d'aminoàcids. Per tant, els peixos transgènics posseeixen major capacitat per l'absorció de nutrients i, per extensió una millora en la eficiència alimentària que podria explicar, en part, eixe creixement diferencial sota taxes d'ingesta similars. Aquesta tesi tingué també com a objectiu investigar si els asip1-Tg mantenien un fenotip dominant associat amb una major taxa d'alimentació. Els resultats mostren, pel contrari, un caràcter reactiu/subordinat en los asip1-Tg que advoca per una participació del sistema de melanocortines en la regulació del comportament de peixos. El perfil subordinat dels animals asip1-Tg, junt amb una activació de l'eix de l'estrès, suggereix que aquests animals poden mostrar un comportament d'ansietat. Els resultats indicaren que els peixos asip1-Tg mostren un comportament d'ansietat relacionat amb una severa disminució dels nivells centrals de serotonina (5HT) i dopamina i elevació de la seua recaptació neuronal i degradació. L'administració de un inhibidor de la recaptació de 5HT recupera el fenotip comportamental salvatge, mitigant el comportament d'ansietat en els peixos transgènics i rescatant els nivells centrals de 5HT. Esta ansietat podria repercutir en una alteració del comportament locomotor dels animals, per la qual cosa vam estudiar els ritmes circadians d'activitat locomotora. Els resultats mostren que els animals asip1-Tg exhibeixen una disrupció completa del ritme d'activitat, amb una activitat molt elevada durant tot el cicle diari, especialment durant la nit. Esta disrupció es concomitant amb una desaparició del ritme diari de serotonina i melatonina. A més a més, els resultats mostren una pèrdua de ritmes de expressió de gens rellotge (per1a y clock1a). La incubació, in vitro, de glàndules pineals con Asip1 va produir una inhibició de la secreció de melatonina replicant els resultats obtinguts in vivo y demostrant un efecte directe de Asip1 sobre la fisiologia de la pineal. En esta tesi, se va utilitzar el peix zebra com a model per investigar els efectes de la obesitat sobre la ansietat i la memoria. L'obesitat no va tindre cap efecte sobre l'ansietat, però va produir una disminució de la memòria a curt termini, estudiada mitjançant tests de condicionament aversiu. Aquest estudi proporciona, un protocol fiable per a avaluar l'efecte de les malalties metabòliques en la funció cognitiva i conductual. / [EN] The melanocortin system plays a key role in the regulation of a wide range of physiological functions including melanogenesis, stress response and energy balance, through binding to a family of specific G protein-coupled receptors (MC1R-MC5R). Overexpression of inverse agonists, agouti-signalling protein (Asip) and agouti-related protein (Agrp) results in increased food intake, linear growth and body weight. Asip regulates dorso-ventral pigmentation polarity through MC1R, and over-expression induces obesity in mice by binding to the central MC4R. Overexpression of asip1 in transgenic zebrafish (asip1-Tg) enhances growth, without affecting lipid accumulation (obesity), even when fed under severe inducing regimens. The asip1-Tg fish do not need to eat more to grow bigger and faster, suggesting increased feed efficiency. In addition, asip1-Tg fish reared at high density are able to grow much larger than wild-type (WT) fish reared at low density, although asip1-Tg fish appear to be more sensitive to overcrowding stress than WT fish. Comparative transcriptomic analysis of asip1-Tg gut reflects differential expression of amino acid, monocarboxylate, ionic and vitamin transporters. Overexpression reduces the integrity of the intestinal epithelium by increasing its paracellular permeability and enhances electrogenic amino acid transport. Thus, transgenic fish possess a greater capacity for nutrient absorption and, by extension, an improvement in feed efficiency that could explain, in part, this differential growth under similar intake rates. This thesis also aimed to investigate whether asip1-Tg maintain a dominant phenotype associated with a higher feeding rate. Experimental results show, on the contrary, a reactive/subordinate character in asip1-Tg which argues for an involvement of the melanocortin system in the regulation of fish behaviour. Improving feeding motivation without promoting aggression in fish, thus avoiding the threat to native populations in case of an escape, makes the inhibition of the melanocortin system, through the overexpression of asip1, a feasible target for the development of genetically modified lines. The subordinate profile of the asip1-Tg animals, together with an activation of the stress axis, suggests that these animals may exhibit anxiety-like behaviour. The results indicated that asip1-Tg fish show a behaviour similar to our concept of anxiety related to a severe decrease in central serotonin (5HT) and dopamine levels as well as the elevation of their neuronal reuptake and degradation. The administration of fluoxetine, a serotonin reuptake inhibitor, recovers the wild-type behavioural phenotype, mitigating anxiety behaviour in transgenic fish and restoring central 5HT levels. This anxiety could have repercussions on the locomotor behaviour of the animals, so we studied circadian rhythms of locomotor activity. The results show that asip1-Tg animals exhibit a complete disruption of the activity rhythm, with very high activity levels throughout the daily cycle, especially during the night. This disruption is concomitant with a disappearance of the daily rhythm of serotonin and melatonin. In addition, the results show a loss of clock gene expression rhythms (per1a and clock1a). Incubation, in vitro, of pineal glands with Asip1 produced an inhibition of melatonin secretion replicating the results obtained in vivo and demonstrating a direct effect of Asip1 on pineal physiology. In this PhD thesis, zebrafish was used as a model to investigate the effects of overfeeding-induced obesity on anxiety-like behaviour and memory. Obesity had no effect on anxiety, but produced a decrease in short-term memory, studied by means of aversive conditioning tests. This study also provides a reliable protocol for assessing the effect of metabolic diseases on cognitive and behavioural function, supporting zebrafish as a model for cognitive and behavioural neuroscience. / Esta tesis ha sido realizada a través del programa de ‘Ayudas para la formación de personal investigador’ (FPI) BES‐2017‐082424 de la Agencia Estatal de Investigación, en Instituto de Acuicultura Torre de la Sal (IATS) del Consejo Superior de Investigaciones Científicas (CSIC) en el Grupo de investigación de Control de la Ingesta en Peces dirigido por José Miguel Cerdá Reverter, director de esta tesis. Los trabajos llevados a cabo en esta tesis han sido financiados por Ministerio de Ciencia, Innovación y Universidades (MICIU) a través de los siguientes proyectos: MELANOCONDUCT: Implicación del sistema de melanocortinas en la regulación de los mecanismos temporales y conductuales de peces AGL2016-74857-C3-3-R; Cronopeces: Red temática de cronobiología de peces y sus aplicaciones en acuicultura RED2018-102487-T; MacForFish: Nuevos aspectos homeostáticos y comportamentales de la regulación de la ingesta en peces PID2019-103969RB-C33; FISHTASTE: Implicación de los mecanismos sensoriales del gusto en la regulación de la ingesta de peces - Involvement of taste sensing mechanisms in the regulation of feed intake of fish PID2022-136288OB-C33 / Godino Gimeno, A. (2024). Involvement of the Melanocortin System in the Regulation of Circadian and Behavioural Mechanisms in Zebrafish [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/203148 / Compendio Monoamines Melanocyte-stimulating hormone (MSH) Agouti-related protein (AGRP) Nutrient absorption Feed efficiency Melanocortin Transgenic animals Pez cebra Acuicultura Melanocortinas Absorción de nutrientes Serotonina Ritmos circadianos Melatonina Proopiomelanocortin (POMC)
60	Role of myosin VI and actin dynamics in membrane remodeling during pigmentation / Rôle de la myosine VI et de l’actine dans le remodèlement membranaire au cours de la pigmentation Ripoll, Léa 28 November 2017 (has links) Le trafic intracellulaire consiste en la formation et le transport de vésicules ou tubules qui acheminent des composants protéiques et lipidiques entre les différents organites ou avec la membrane plasmique. L’élaboration de ces tubulo-vésicules est initiée par le remodelage local d’une membrane, tout d’abord en générant une courbure puis un bourgeon qui, s’allongeant, forme la tubulo-vésicule. Enfin, la rupture de la membrane, ou scission, libère le transporteur nouvellement formé. Ces étapes repose sur un sculptage profond de la membrane. Ceci requière des forces générées par des moteurs moléculaires, lesquels s’associent aux cytosquelettes comme les microtubules ou les filaments d’actine. Afin de mieux comprendre comment le cytosquelette et leurs moteurs façonnent ces transporteurs, nous avons examiné le rôle de l’actine et de la myosine VI dans la formation de tubules membranaires aux mélanosomes. Les mélanosomes sont des organites apparentés aux lysosomes, générés dans les mélanocytes de la peau et de la choroïde de l’œil, et qui sont le lieu de synthèse et de stockage d’un pigment, la mélanine. Dans l’épiderme, ces compartiments spécialisés évoluent par différentes étapes de maturation qui aboutissent à leurs transferts aux cellules voisines, les kératinocytes. Les mélanosomes sont des organites dynamiques qui reçoivent et recyclent constamment des composants membranaires, comme la SNARE VAMP7. Nous résultats montrent que la myosine VI et son adapteur optineurine se localisent à un sous-domaine spécifique de la membrane des mélanosomes, ou elles contrôlent la scission de tubules. En effet, l’activité motrice de la myosine VI et le réseau d’actine branchée, dépendant des complexes Arp2/3 et WASH, permettent la constriction des membranes du tubule et son détachement du mélanosome. Un défaut de scission de ces tubes engendre des mélanosomes plus pigmentés, enrichis en cargos et au pH plus acide. L’altération de l’homéostasie du mélanosome affecte sa fonction, comme sa capacité à être sécrété et transféré aux kératinocytes. Nos résultats démontrent que la myosine VI en coopération avec le cytosquelette d’actine permet la constriction et fission de membranes aux mélanosomes. Les intermédiaires de transport ainsi formés recyclent des protéines cargos pour leur possible réutilisation, et participent ainsi au maintien de l’homéostasie et de la fonction de ces organites. / Intracellular transport among organelles and the plasma membrane occurs through the formation and transport of vesicular and tubular membrane carriers. The formation of these carriers requires first the bending of membrane and the generation of a bud, followed by its elongation to form the tubule-vesicle. Lastly, the carrier is released from the membrane source by the scission of the membrane. Importantly, all these different steps need an accurate orchestration to properly deform the membrane. The actions exerted by molecular motors onto microtubule and actin cytoskeletons provide forces onto membrane that contribute to its remodeling during the biogenesis of carrier. Actin filaments (F-actin) and myosins are thought to participate in the initiation and the fission of carriers. However, the role of actin machinery during carrier biogenesis remains elusive. We thus decided to address the role of F-actin and the actin-based motor myosin VI in the formation of tubular intermediates at melanosome. Melanosomes are lysosome-related organelles of skin melanocytes and eye pigment cells that function in the synthesis and storage of the melanin pigment. Melanosomes originate from endosomes and progressively mature into fully pigmented compartments, which fate is to be secreted and transferred to neighboring keratinocytes. Melanosomes are dynamic organelles that constantly receive, but also recycle proteins such as the SNARE VAMP7 through the formation and release of tubular intermediates. Our work reveals that myosin VI, together with Arp2/3- and WASH-mediated branched actin localize at specific melanosomal subdomains where they promote the constriction and scission of tubular intermediates. This fission event allows the export of components such as VAMP7 from melanosomes and promotes their maturation and subsequent transfer to keratinocytes. Altogether, our results uncover a new role for myosin VI and F-actin in the constriction and scission of membrane tubules at melanosome that is required for organelle homeostasis and function. Mélanocyte Pigmentation Mélanosome Trafic intracellulaire Actine Myosine Myosine VI Moteur moléculaire Remodèlement membranaire Scission Melanocyte Pigmentation Melanosome Intracellular trafficking Actin Myosin Myosin VI Molecular motor Membrane remodeling Scission 571.67

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