Global ETD Search

31	Estudo do perfil genético de pacientes com Neoplasias Mieloproliferativas (NMP) cromossomo Filadélfia negativo / Study of genetic profile of patients with Philadelphia-negative Myeloproliferative Neoplasms (MPN) Mariana Marchiani 26 February 2016 (has links) As neoplasias mieloproliferativas (NMPs) Filadelfia negativo como a policitemia vera (PV), trombocitemia essencial (TE) e mielofibrose primária (MFP) são desordens clonais da célula tronco hematopoiética caracterizadas pela produção excessiva de células mielóides diferenciadas. Este fenômeno ocorre devido à uma mutação somática (JAK2V617F) que ativa a via JAK-STAT de transdução de forma constitutiva. Esta mutação é mais frequente na PV, ocorrendo em 95% dos casos, e em 50% dos casos de TE e MFP. Outro defeito genético que ocorre é a mutação no receptor de trombopoetina, MPL. As mutações em MPL podem ser germinativas ou somáticas e menos de 10% dos pacientes com TE e MFP apresentam essa alteração genética. Entretanto, grande parte dos pacientes com TE e MFP que não apresentam mutação em JAK2V617F ou MPL podem apresentar mutações somáticas no gene CALR. Em adição às mutações somáticas que causam mieloproliferação, outras alterações genéticas em genes que funcionam como reguladores epigenéticos são encontrados nas NMPs nos genes TET2, IDH1, IDH2 e ASLX1. Objetivo: Estabelecer um perfil genético em pacientes com NMP através da avaliação de mutações nos genes JAK2, CALR, MPL, IDH1, IDH2, TET2 e ASXL1 assim como estabelecer uma correlação laboratorial destas na PV, TE e MFP. Casuística e Métodos: Foram utilizadas amostras de sangue periférico de 104 pacientes que foram enviadas para o Laboratório de Biologia Tumoral do Serviço de Hematologia do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo para avaliação diagnóstica. Quinze dos 104 pacientes são de pacientes com PV (14,4%), 20/104 (19,2%) com MFP, 20/104 (19,2%) com TE e 49/104 (47,1%) com outras doenças hemtológicas. Foi feita a avaliação da prevalência de mutações somáticas, seja por sequenciamento ou análise de fragmentos, nos genes JAK2 (exon 12 e Y931C), MPL, IDH1, IDH2, CALR, TET2 e ASXL1. PCR-RFLP foi realizada para identificação de mutações em JAK2V617F. Resultados: A mutação JAK2V617F foi observada em 30 (28,8%) pacientes (12 PV, 11 TE e 7 MFP), a mutação JAK2 exon 12 foi observada em apenas um (0,96%) paciente com PV, mutação JAK2Y931C em 4 (3,8%) pacientes (1 PV, 2 TE e 1 MFP) e 8 (7,7%) pacientes apresentaram mutações em CALR (3 TE e 5 MFP). Mutações nos genes epigenéticos como IDH1 foram observadas em 9 (8,7%) pacientes (2 TE, 2 MFP, 1 SMD, e 4 pacientes com suspeita de NMP), mutações em IDH2 estão presentes em 5 (4,8%) pacientes (2 TE, 1 SMD/leucemia e 4 pacientes com suspeita de NMP), mutações em ASXL1 foram identificadas em 13 (12,5%) pacientes (1 PV, 3 TE, 2 MFP, 3 SMD/leucemias e 4 com suspeita de NMP) e finalmente, mutações em TET2 foram encontradas em 33 (31,7%) pacientes (3 PV, 5 TE, 4 MFP, 8 SMD/leucemias e 13 pacientes com suspeita de NMP). Além disso, no caso da PV, os pacientes que apresentam mutações em JAK2V617F apresentam valores aumentados de plaquetas (mediana de 5,41 x 105/mm3 plaquetas) em relação aos pacientes sem a mutação (mediana de 2,06 x 105/mm3 plaquetas), com diferença estatística (p=0,031). Pacientes do mesmo grupo que apresentam mutações em TET2 apresentam, opostamente aos com mutações em JAK2V617F, menores valores de plaquetas (mediana de 1,75 x105/mm3 plaquetas) em relação aos pacientes sem mutações no gene TET2 (mediana de 5,41 x 105/mm3 plaquetas), com diferença estatística (p=0,048). No caso da MFP, os pacientes que apresentam mutações em JAK2V617F apresentam valores maiores de leucócitos (mediana de 1,09 x104/mm3 leucócitos) do que os pacientes que não apresentam a mutação (mediana de 6,99 x103/mm3 leucócitos) com diferença estatística (p=0,046), já os pacientes que apresentam mutações no gene ASXL1 apresentam valores menores de hemácias (mediana de 2,43 x106/mm3 hemácias) em relação aos pacientes que não apresentam mutação (mediana de 3,71 x106/mm3 hemácias) com diferença estatística (p=0,042). Conclusão: O trabalho permitiu fornecer um perfil genético dos pacientes com NMP estudados. Além disso, é possível observar que algumas mutações epigenéticas podem influenciar em diferenças clínicas / Myeloproliferative neoplasms (MPNs) Philadelphia (Ph) chromosome negative, such as polycythemia vera (PV), essential thrombocythemia (ET) and primary myelofibrosis (PMF) are clonal disorders of hematopoietic stem cell characterized by increased proliferation of differentiated myeloid cells. This phenomenon occurs due somatic mutation (JAK2V617F) that constitutively stimulates the JAK-STAT signaling pathway. This mutation is more frequent in PV, around 95%, and between 50% in ET and PMF. Other genetic aberration can be observed in the thrombopoietin (TPO) receptor MPL. Mutations in MPL can be in the germline line or somatic and less than 10% of patients with TE or PMF would harbor this genetic alteration. Otherwise, patients with TE or PMF without JAK2V617F or MPL mutation could present somatic mutations in calreticulin (CALR). In addition to somatic mutations that cause myeloproliferation, other genetic alterations that function as epigenetic regulators were identified in genes as TET2, IDH1, IDH2 e ASLX1 in MPN. Objective: Establish genetic profile in patients with diagnosis of PV, ET, and PMF through genetic alterations in the following genes: JAK2, MPL, CALR, IDH1, IDH2, TET2 e ASXL1, and correlate those alterations with demographic characteristic of the study population. Casuistic and Methods: Peripheral blood samples from 104 patients referred to the Tumor Biology Laboratory of the Department of Hematology of Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo for diagnostic investigation were analyzed. Fifteen out 104 samples were from PV patients (14.4%), 20/104 (19.2%) in PMF, 20/104 (19.2%) in ET and 49/104 (47.1%) with other hematologic diseases. Identification of somatic mutations was made, either by direct sequencing or fragment analysis in JAK2 (exon 12 and Y931C), MPL, IDH1, IDH2, CALR, TET2 and ASXL1. PCR-RFLP was performed to identify JAK2V617F mutation. Results: JAK2V617F mutation was observed in 30 (28.8%) patients (12 PV, 11 ET and 7 PMF), JAK2 exon 12 in only one (0.96%) patient with PV, JAK2Y931C in 4 (3.8%) patients (1 PV, 2 ET and 1 PMF), and 8 patients (7.7%) presented CALR mutation (3 ET and 5 PMF). Mutations in the epigenetic genes as IDH1 were observed in 9 (8.7%) patients (2 ET, 2 PMF, 1 MDS and 4 patients with suspected MPN), IDH2 mutations were present in 5 (4.8%) patients (2 ET, 1 MDS/leukemia, and 4 patients with suspected MPN), ASLX1 mutations were identified in 13 (12.5%) patients (1 PV, 3 ET, 2 PMF, 3 MDS/leukemia and 4 with suspected MPN) and finally, TET2 mutations were present in 33 (31.7%) patients (3 PV, 5 ET, 4 PMF, 8 MDS/leukemia, and 13 with suspected MPN). In addition, patients with PV who harbor JAK2V617F have increased platelet counts (median 5.41 x 105/mm3 platelets) compared to those without the mutation (median 2.06 x 105/mm3 platelets, p=0.031). Patients in the same group with TET2 mutation, as opposed to those with JAK2V617F, presented low platelets counts (median of 1.75 x 105/mm3 platelets) compared to those without TET2 mutation (median 5.41 x 105/mm3 platelets, p=0.048). Presence of JAK2V617F in patients diagnosed with PMF have a greater number of leukocytes (median 1.09 x104/mm3 leukocytes) when compared to patients without the mutation (median 6.99 x 103/mm3 leukocytes, p=0.046). Patients with PMF who presented mutations in ASXL1 gene have a lower number of red blood cells (median of 2.43 x 106/mm3) compared to patients without mutations in the same gene (median 3.71 x 106/mm3, p=0.042). Conclusion: The present study allows us to provide a genetic profile of patients with MPN. Furthermore, it is possible to observe that some epigenetic mutations could influence in some clinical differences Calreticulina Janus quinase 2 Mielofibrose primária Policitemia vera Transtornos mieloproliferativos Trombocitemia essencial Calreticulin Janus kinase 2 Myeloproliferative disorders Polycythemia vera Primary myelofibrosis Thrombocythemia essential
32	Die Rolle von Calretikulin, einem kalziumbindenden Chaperon, in der Progression des Nierenzellkarzinoms / The role of the calcium-binding chaperone calreticulin in renal cell carcinoma progression Eckrich, Jakob Neville 24 February 2021 (has links) No description available. 610 Calretikulin ER-Stress Cisplatin UPR-Signalweg Nierenzellkarzinom Chemoresistenz calreticulin cisplatin chemoresistance renal cell carcinoma ER stress UPR pathway GOK-MEDIZIN
33	Exprese markerů imunogenní buněčné smrti na buňkách karcinomu plic / Expression of immunogenic cell death markers on lung cancer cells Kobosilová, Linda January 2014 (has links) Immunogenic cell death (ICD) is characterized by presence of specific molecules including surface exposed calreticulin (CRT) and the heat shock proteins HSP70 and HSP90. Release of ATP and high- mobility group box protein 1 (HMGB1) belongs to other typical characteristics. For induction of ICD in lung cancer cells high-hydrostatic pressure (HHP) was used. Treatment by HHP induces expression of immunogenic markers CRT, HSP70 and HSP90 on the cell surface. HHP also induces secretion of ATP to the extracellular milieu. Dendritic cells (DC) pulsed with HHP-treated tumor cells showed fenotypic maturation characterized by upregulation of maturation molecule CD83, costimulation molecules CD80 and CD86, chemokine receptor CCR7 and MHC class II molecule HLA-DR. Pulsed DCs have also higher rate of phagocytosis of HHP-treated tumor cells and they induce lower numbers of regulatory T cells compared to immature DCs. Moreover, activation of caspases (-8, -9, -3) and other proteins (phosphorylation of eIF2α) which are crucial in ER-stress mediated apoptotic pathway, was observed after HHP treatment. Using wide range of methods it was confirmed that HHP treatment is able to induce ICD in lung cancer cell lines, fenotypic and functional characteristics were described and the decreased induction of regulatory T-lymphocytes...
34	Bases moléculaires et structurales de l’interaction entre deux calréticulines de parasite et la protéine humaine C1q / Deciphering the molecular and structural mechanism of the interaction between two parasite calreticulins and the human protein C1q Moreau, Christophe 01 October 2015 (has links) Au cours de cette thèse, nous avons étudié plus particulièrement deux calréticulines de parasite et leur interaction avec la protéine C1q humaine, dans un contexte de détournement du système immunitaire. En effet, une stratégie de mimétisme moléculaire avec des cellules apoptotiques a été proposée pour l'exposition de calréticuline à la surface de la forme infectieuse du parasite Trypanosoma cruzi, agent vecteur de la maladie de Chagas. Dans le cas du parasite Entamoeba histolytica, agent vecteur de l'amibiase, l'interaction de C1q avec la calréticuline exposée à la surface de l'amibe est utilisée pour mieux phagocyter les cellules de l'hôte.La calréticuline est une protéine principalement localisée dans le réticulum endoplasmique où elle joue le rôle de protéine chaperonne en favorisant le repliement des protéines monoglucosylées. Une des fonctions extracellulaires de la calréticuline humaine est de favoriser l'élimination des cellules apoptotiques par les macrophages. Pour cela, la calréticuline est exposée à la surface des deux types cellulaires, à la surface desquelles elle est reconnue par C1q.Nous avons résolu la structure de fragments des deux CRTs de parasite. Des interactions de type chaperonne et un aperçu de la flexibilité du domaine P ont été observés dans l'empilement cristallin et approfondis par analyse de diffusion des rayons X aux petits angles. Ces fragments générés pour l'analyse structurale nous ont permis en plus d'identifier une région clé dans l'interaction des calréticulines avec C1q. Du côté de C1q, deux mutations dans les régions globulaires de C1q (GRC1q), inhibent l'interaction avec la CRT et les IgM, suggérant un site partagé. Pour approfondir la caractérisation de l'interaction, des études du complexe par RMN ont débuté et nous avons développé une première forme recombinante monocaténaire de GRC1q, dont nous avons déterminé la structure. Nos recherches peuvent aider à développer des traitements contre ces parasites, aussi bien qu'à décrypter le rôle de la CRT des mammifères présente à la surface des macrophages et des cellules apoptotiques. / During this thesis, we were interested in two parasite calreticulin and their interaction with the human C1q protein in the context of the subversion of the immune system. Indeed, a molecular mimicry strategy with human apoptotic cells is suggested for the calreticulin exposure on the surface of the infectious form of the parasite Trypanosoma cruzi, which is responsible of Chagas' disease. In the case of the parasite Entamoeba histolytica, which is involved in amoebiasis, the interaction of C1q with the surface-exposed calreticulin is used to enhance phagocytosis of host cells.Calreticulin is mainly localised in the endoplasmic reticulum, where it acts as a chaperone protein to favour the folding of monoglycosylated proteins. Moreover one of the extracellular functions of human calreticulin is to enhance the clearance of apoptotic cells by macrophages. This function is mediated through C1q interaction with calreticulin exposed on the surface of both cells.We solved the structure of fragments of both parasite calreticulins. Chaperone-like interactions and an overview of the flexibility of the P domain were observed in the crystal packing and deepened using SAXS analyses. The fragments generated for X-ray crystallography studies allowed us to identify a key region of the interaction between C1q and the calreticulins. Two C1q mutations located in its globular regions (GRC1q) inhibit the interaction with calreticulin and IgM, suggesting a common binding area. To further characterise theses interactions, we started NMR experiments and we produced the first single-chain recombinant form of GRC1q, which allowed solving its structure at high-resolution. Our investigations could provide tools to develop therapies against these parasites, and to decipher the role of mammal CRT on the surface of macrophages and apoptotic cells. C1q GRC1q recombinantes Calréticuline Biologie structurale Trypanosoma cruzi Entamoeba histolytica Immunité innée Stratégie subversion pathogènes C1q GRC1q recombinantes Calreticulin Structural biology Trypanosoma cruzi Entamoeba histolytica Innate immunity Pathogens subversion strategies 500 570
35	Role of rare calreticulin mutants and of the endoplasmic reticulum stress in the pathogenesis of myeloproliferative neoplasms / Rôle de mutants rares de la calréticuline et du stress du réticulum endoplasmique dans la pathogenèse des néoplasmes myéloprolifératifs Toppaldoddi, Katte Rao 25 September 2017 (has links) Après la découverte des mutations de la calréticuline dans les néoplasmes classiques myéloproliferatifs négatifs pour le Ph1, les travaux se sont focalisés sur les deux mutations les plus fréquentes, c'est-à-dire la calréticuline del52 et l’ins5, mais il existe environ 20% de mutants rares de la calréticuline (une cinquantaine), qui ont été classés en type-1 « like » et type-2 « like », classification basée sur leur structure. Cependant il reste à déterminer si cette classification est pertinente du point de vue fonctionnel, ce qui pourrait avoir des conséquences pour la prise en charge des patients et leur traitement. Ici, nous démontrons que deux mutants rares de type-1 (del34 et del46) et un de type-2 (del19) se comportent de manière similaire aux deux mutations fondatrices de cette classification, del52 et ins5, respectivement. Ces résultats ont été validés par des expériences in vivo chez la souris. Tous les mutants de la calréticuline (del19, del34 et del46) nécessitent absolument le récepteur de la thrombopoïétine, appelé MPL, pour induire une transformation cellulaire en provoquant une activation indépendante de la thrombopoïétine de la voie MPL / JAK2-STAT, comme les mutants del52 et ins5. Dans les expériences de transplantation de moelle osseuse de souris, les mutants rares de type-1 sont associés à une progression fréquente de la maladie d’un tableau proche d’une thrombocytémie essentielle à une myélofibrose, tandis que le mutant rare de type 2 est associé à une légère thrombocytose. Du point de vue hématopoïétique, les mutants rares de type-1 provoquent une amplification au niveau des cellules souches hématopoïétiques donc à un stade précoce tandis que les mutants rares de type-2 provoquent une amplification tardive de la mégacaryopoïèse. Grâce à une modélisation protéique basée sur l'homologie des mutants de calréticuline, nous avons identifié des domaines oncogènes qui seraient potentiellement responsables de l'interaction pathologique de la calréticuline et de MPL pour conduire à une activation indépendante de la thrombopoïétine. Maintenant, ces résultats in silico doivent être absolument validés par des études structure fonction. Enfin, nous avons modélisé un nouveau mécanisme de signalisation dans la leucémie myéloïde chronique comprenant IRE-1alpha, un bras de la voie de réponse des protéines mal repliées (UPR), qui pourrait être responsable de la perte de la fonction de la p53 pendant la progression de la leucémie myéloïde chronique vers une leucémie aiguë. Un tel mécanisme pourrait être impliqué dans les autres MPN. / After the discovery of calreticulin mutations in classical Ph1- Myeloproliferative Neoplasms, extensive investigation is underway on the two most frequent mutations, i.e., del52 and ins5, but it remains that the rare calreticulin mutants, which include both type-1 like and type-2 like require a similar investigation for ascertaining whether the classification of type-1 and type-2 has a functional relevance as well as for therapeutic intervention and patient management. Here we demonstrate that type-1 like (del34 and del46) and type-2 like (del19) mutants behave similarly as del52 and ins5 mutants, respectively. Moreover, we validate our findings with in vivo experiments. All the calreticulin mutants (del19, del34 and del46) absolutely require the thrombopoietin receptor, MPL, to induce cell transformation by causing ligand independent activation of the MPL/JAK2-STAT pathway. In mouse bone marrow transplantation experiments, type-1 like mutants are associated with frequent progression from an essential thrombocythemia-like phenotype to myelofibrosis whereas type-2 like mutant is associated with mild thrombocytosis. Type-1 like mutants cause clonal amplification of early hematopoetic stem cells whereas the type-2 like mutant causes late platelet amplification. Further, by homology based protein modeling of calreticulin mutants, we have identified possible oncogenic domains responsible for pathologic interaction of CALR and MPL leading to ligand independent activation of MPL. Now they must be validated by structural-functional studies Finally, we have modelled a novel signaling mechanism in chronic myeloid leukemia comprising of IRE-1alpha, an unfolded protein response (UPR) pathway arm, which may be responsible for loss of the WT p53 function during leukemic development and progression. Such a mechanism may be involved in the other MPNs Néoplasmes myéloprolifératifs Mutants de type-1 Mutants de type-2 IRE-1alpha Calreticulin Myeloproliferative neoplasms Type-1 like mutants Type-2 like mutants Essential thrombocythemia Unfolded protein response (UPR) Myelofibrosis IRE-1alpha Chronic myeloid leukemia P53
36	Biochemische und zellbiologische Charakterisierung des COP Vesikel vermittelten Proteintransports in Pflanzen Pimpl, Peter 03 May 2001 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science COP Vesikel ER Golgi-Apparat Sekretion ER Retention Amylase Calreticulin 42.15 Zellbiologie 42.13 Molekularbiologie 42.40 Pflanzencytologie

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