Targeting the GH/IGF-1 axis with novel, small molecule inhibitors /

Rosengren, Linda,

January 2007

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 6 uppsatser.

The IGF-IGFBP system in aerobic exercise - with focus on skeletal muscle /

Berg, Ulrika,

January 2007

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 5 uppsatser.

Biochemical studies on IGF and IGF-binding proteins interactions & structural investigations on the SH3 domain of Crk-associated tyrosine kinase substrate p130cas (CAS)

Wisniewska, Magdalena.

Unknown Date

Techn. University, Diss., 2005--München.

Les cellules dendritiques CD103+ intestinales : maîtres d'oeuvres du contrôle naturel de la cryptosporidiose et cibles de choix pour l'immunostimulation protectrice contre la maladie / Intestinal CD103+ dendritic cells : key players in the natural control of cryptosporidiosis and attractive targets for protective immunostimulation against the disease

Lantier, Louis

02 December 2013

A la naissance, le système immunitaire des nouveau-nés est encore en plein développement. La première partie du travail de thèse a consisté à étudier les spécificités du système immunitaire intestinal des nouveau-nés qui conduisent à leur plus grande susceptibilité à l’infection par Cryptosporidium parvum. Ce protozoaire constitue un excellent modèle pour étudier les réponses immunitaires mucosales. En effet, son développement est restreint à l’épithélium intestinal et est strictement relié au statut immunitaire de son hôte ce qui explique que cet agent zoonotique affecte tout particulièrement les nouveau-nés et les immunodéficients. Nous avons démontré que les cellules dendritiques (DC) CD103+ étaient indispensables au contrôle de la phase aigüe de l’infection et que leur faible représentation dans la lamina propria de l’iléon chez les nouveau-nés était responsable de leur susceptibilité à l’infection. Nous avons identifié avec précision le mécanisme CXCR3 dépendant permettant le recrutement des DC CD1O3+ dans la muqueuse infecté et leur capacité à produire de l’IL-12 et de l’IFNdz, deux cytokines majeures impliquées dans le mécanisme de protection. La deuxième partie de ce travail a consisté à utiliser une stratégie d’immunostimulation basée sur l’utilisation de ligands de TLR capables d’activer fortement les cellules dendritiques du nouveau-né. Cette approche permet un contrôle rapide et très efficace d’une infection par C. parvum. / At birth, the neonatal immune system is still developing. In the first part of the thesis we investigated the characteristics of the intestinal immune system of neonates that lead to their greater susceptibility to infection by Cryptosporidium parvum. This protozoan is an excellent model for studying mucosal immune responses. Indeed, its development is restricted to the intestinal epithelium and is strictly related to the immune status of its host which explains the particular susceptibility of neonates and immunocompromised to this zoonotic agent. We have demonstrated that CD103+ dendritic cells (DC) are essential for the control of the acute phase of infection and their low representation in the ileal lamina propria of neonates was responsible for their higher susceptibility to infection. We have accurately identified the CXCR3-dependent mechanism for the recruitment of DC CD1O3+ in the infected mucosa and their ability to produce IL -12 and IFNdz, two major cytokines involved in the mechanism of protection. The second part of this work was to use an immunostimulatory strategy based on administration of TLR ligands that can strongly activate neonatal DC of the intestine. This approach allows a fast and highly effective control of an ongoing C. parvum infection.

Cellule dendritique

Immunité néonatale

Immunité innée

Toll-like récepteur

Protozoaire

Dendritic cells

Neonatal immunity

Innate immunity

Toll-like receptor

Protozoan

Efeito da metformina sobre os níveis de IGF-1 e IGFBP-1, em pacientes obesas com síndrome dos ovários policísticos

Seibel, Samuar Albano

January 2005

Resumo não disponível

Síndrome do ovário policístico

Obesidade

Metformina

Fator de crescimento insulin-like-I

Avaliação de IGF-1 (Insulin-like growth factor-1), IGFBP-1 e IGFBP-3 (Insulin-like to growth binding protein-1 e 3) no fluído folicular de pacientes infertéis com endometriose

Lemos, Nadiane Albuquerque

January 2002

Resumo não disponível.

Infertilidade feminina

Endometriose

Líquido folicular

Fator de crescimento insulin-like-I

Avaliação de IGF-1 (Insulin-like growth factor-1), IGFBP-1 e IGFBP-3 (Insulin-like to growth binding protein-1 e 3) no fluído folicular de pacientes infertéis com endometriose

Lemos, Nadiane Albuquerque

January 2002

Resumo não disponível.

Infertilidade feminina

Endometriose

Líquido folicular

Fator de crescimento insulin-like-I

Avaliação de IGF-1 (Insulin-like growth factor-1), IGFBP-1 e IGFBP-3 (Insulin-like to growth binding protein-1 e 3) no fluído folicular de pacientes infertéis com endometriose

Lemos, Nadiane Albuquerque

January 2002

Resumo não disponível.

Infertilidade feminina

Endometriose

Líquido folicular

Fator de crescimento insulin-like-I

Efeito da metformina sobre os níveis de IGF-1 e IGFBP-1, em pacientes obesas com síndrome dos ovários policísticos

Seibel, Samuar Albano

January 2005

Resumo não disponível

Síndrome do ovário policístico

Obesidade

Metformina

Fator de crescimento insulin-like-I

Estudo por Modelagem e Dinâmica Molecular da Interação da Integrina alfa6beta1 com o Domínio Tipo-disintegrina de ADAM2 E ADAM9 Humanas. / MOLECULAR MODELING AND DYNAMICS OF HUMAN ALPHA6 BETA1 INTEGRIN AND DISINTEGRIN-LIKE DOMAINS OF ADAM 2 AND ADAM 9.

Mônika Aparecida Coronado

28 February 2008

A integração entre o citoesqueleto celular e a MEC mediada pelas integrinas gera a produção de força mecânica sobre a membrana plasmática. Isto permite às células gerar tração durante sua migração e tensão durante o remodelamento da MEC. Várias proteínas com diferentes funções já foram identificadas como ligantes das subunidades a e b das integrinas. O estudo de proteínas capazes de se ligar e interferir na sinalização via integrina, como as desintegrinas-like e cisteina-rich presentes nos venenos de serpente e proteínas conhecidas como ADAM (A Disintegrin And Metaloprotease), torna-se cada vez mais importante. Assim, o isolamento, a caracterização e a determinação da estrutura de várias desintegrinas oferecem valiosas ferramentas para o desenvolvimento de novos compostos terapêuticos para um vasto número de doenças, sendo excelentes candidatos-protótipo para o desenvolvimento de novos fármacos que interfiram nas funções celulares moduladas por proteínas de adesão. Entretanto, as formas como a integrina e a ADAM interagem ainda não foram bem esclarecidas. Neste contexto, este trabalho visa analisar em escalar molecular a estrutura da integrina alpha6beta1 e do domínio desintegrina-like das ADAMs 2 e 9 humanas, e a forma como estas proteínas interagem, aplicando metodologias de biologia computacional estrutural como modelagem e dinâmica molecular. Com o objetivo de estudar a interação destas proteínas, modelos estruturais foram construídos por homologia a partir das estruturas 3D de proteínas obtidas por cristalografia de raio-X, e realizaram-se simulações de dinâmica molecular com solvente explícito para as proteínas isoladas e em complexo. Através do estudo estrutural e funcional pelo método in silico da integrina alpha6beta1 e ADAMs 2 e 9 humanas, as análises dos resultados das simulações e da flutuação dos resíduos de contato entre as duas proteínas durante a dinâmica molecular, foram desenhados e caracterizados novos candidatos peptídicos para inibição da integrina alpha6beta1. Nas simulações da movimentação angular do domínio bA/Hybrid, visando a possível ativação da integrina alpha6beta1 através da interação com o domínio desintegrina-like de ADAM9 e ligantes peptídicos, obtivemos resultados positivos para os peptídeos A9b e A9d. Este estudo aponta para o desenvolvimento de inibidores protéicos viáveis da integrina alpha6beta1 com base nestas estruturas. Nossos resultados ainda comprovam pelas metodologias in silico a eficácia dos modelos construídos, conseguindo reproduzir o comportamento das proteínas em estudo. / The production of mechanical force on plasma membrane is mediated by integrins, connecting ECM components and cell cytoskeleton. This allows cells to generate traction during migration and tension during ECM remodeling. Integrins are membrane-spaning adhesion receptors that mediate dynamic linkages between intracellular actin cytoskeleton and the extracelullar adhesive matrix, outside-in/inside-out signaling, migration and detachment. Several proteins with diferent functions have already been identified as integrin ligands, and some important candidates as disintegrin-like and cystein-rich domains present in the snake venon metalloproteinases and ADAM (A Disintegrin and Metaloprotease) become important as they interfere in cell signaling pathways mediated by these transmembrane receptors. Thus, the isolation, characterization and structure determination of disintegrin-like domains o_er valuable tools for the development of new therapeutic compounds for a wide range of diseases. These compounds may provide new treatments for diseases such as cancer and inflammation pathologies. However, the mechanisms of ADAM-Integrin interaction have not been well clarified, yet. In this perspective, this study aims to analyze the molecular structure of the alfa6beta1 integrin and the disintegrin-like domain of human ADAM2 and ADAM9. Computational biology methods such as homology modeling and molecular dynamics were used in order to study the dynamics of the interaction of these proteins. Using in silico experimentation, detailed models of human alfa6beta1 and human ADAM 2 and 9 were obtained. Based on these models, the molecular basis of alfa6beta1-ADAMdsld interactions was assessed, and the most important structural components in ligand recognition/discrimination were identified. Using the collected structural information, we designed different small peptide based inhibitors, based on the structure of the interaction loop of human ADAM 9 disintegrin-like domain. Here proposed A9a inhibitor was testedin vitro, showing satisfactory results in blocking cell adhesion on specific substrates by alfa6beta1- laminin affnity inhibition in nanomolar concentrations. Our results also show the effcacy of the constructed models, the power of computational biology tools in new drug-design technologies, and clearly suggest that here presented alfa6beta1 inhibitors are good candidates for further development of new therapeutic agents against inflammation pathologies.

COMPUTABILIDADE E MODELOS DE COMPUTACAO

Dinâmica Molecular

Integrinas

ADAM

Desintegrin-like

SVMP

Molecular Dynamics

Integrins

ADAM

Desintegrin-Like

SVPM

COMPUTABILIDADE E MODELOS DE COMPUTACAO