Global ETD Search

21	Impacto da análise molecular da mutação JAK2V617F no diagnóstico de neoplasias mieloproliferativas crônicas de acordo com os critérios da OMS 2016 Pedrazzani, Fabiane Spagnol January 2016 (has links) As neoplasias mieloproliferativas (NMPs) são um grupo de doenças derivadas de uma transformação clonal de célula tronco hematopoiéticas no qual a linhagem celular mielóide é predominantemente expandida no sangue periférico. As NMPs Philadelphia-negativas incluem policitemia vera (PV), trombocitemia essencial (TE) e mielofibrose primária (MFP) que compartilham muitas características hematológicas, clínicas e evolutivas. A mutação da JAK2 (JAK2V617F) está presente em cerca de 95% dos pacientes com PV, entre 50 a 70% com TE e 40 a 50% com MFP. No entanto, os testes moleculares para diagnóstico são muitas vezes um desafio devido ao alto custo e a disponibilidade de equipamentos especializados. Objetivo: Verificar o impacto do teste molecular da mutação JAK2V617F para o diagnóstico de NMPs nos pacientes atendidos no Hospital de Clínicas de Porto Alegre. Métodos: Foram avaliados 87 pacientes com suspeita de NMPs. As amostras de sangue periférico foram analisadas para a mutação JAK2V617F pelo método genético molecular de PCR alelo-específico e os resultados correlacionados com os dados clínico-laboratoriais. Para estabelecimento do diagnóstico, foram utilizados os critérios da Organização Mundial da Saúde (OMS) de 2016. Resultados: Dos 87 pacientes avaliados, 27,6% foram diagnosticados como PV, 39,1% como TE, 4,6% como MFP e 28,7% não contemplavam os critérios para o diagnóstico NMPs. A comparação da utilização do teste da mutação JAK2V617F mostrou que, apenas 41,7% dos pacientes com PV sem utilizar o teste, teriam sido diagnosticados comparados a 91,7% utilizando este teste como um dos critérios no diagnóstico final (p = 0,004). Na TE e na MFP, este critério não foi estatisticamente significativo. Conclusão: O teste molecular para a mutação de JAK2V617F no nosso hospital teve um impacto significativo no diagnóstico dos pacientes com PV, mostrando ser uma ferramenta importante para o diagnóstico final desta NMP. / Myeloproliferative neoplasms (MPNs) are a group of disorders derived from a clonal transformation of stem cell on which myeloid cell lineage is predominantly expanded in the peripheral blood. Philadelphia-negative MPNs include polycythemia vera (PV), essential thrombocythemia (ET), and primary myelofibrosis (PMF) which share many hematological, clinical, and evolutionary characteristics. The JAK2 mutation (JAK2V617F) is present in about 95% of patients with PV, between 50 to 70% with ET and 40 to 50% PMF. However, the molecular diagnostic tests are often a challenge due to the high cost and the availability of specialized equipment. Objective: To verify the impact of molecular testing of the JAK2V617F mutation for the diagnosis of MPNs in patients attended at Hospital de Clinics, Porto Alegre. Methods: A total of 97 patients were evaluated with suspected of MPNs. The peripheral blood samples were analyzed for the JAK2V617F mutation by the molecular genetic allelespecific PCR method and the results correlated with the clinical-laboratory data. To establish the diagnosis, the 2016 World Health Organization (WHO) criteria were used. Results: Of the 87 patients evaluated, 27.6% were diagnosed as PV, 39.1% as ET, 4.6% as PMF and 28.7% did not meet criteria for MPNs diagnosis. Comparison of the use of the JAK2V617F test showed that only 41.7% of patients with PV without the mutation test were diagnosed compared to 91.7% using this test as one of the criteria for the final diagnosis (p = 0.004). In the ET and the PMF, this criterion was not statistically significant. Conclusion: The molecular test for the JAK2V617F mutation in our hospital had a significant impact in the diagnosis of patients with PV, showing to be an important tool for the final diagnosis of this MPN. Policitemia vera Trombocitemia essencial Mielofibrose primária Myeloproliferative neoplasms Polycythemia vera Essential thrombocythaemia Primary myelofibrosis JAK2 JAK2V617F
22	Inibição farmacológica dos substratos do receptor de insulina em neoplasia mieloproliferativa JAK2V617F / Pharmacological inhibition of insulin receptor substrates in myeloproliferative neoplasm JAK2V617F Fenerich, Bruna Alves 29 June 2017 (has links) A mutação recorrente JAK2V617F é a lesão molecular com maior impacto na fisiopatologia das neoplasias mieloproliferativas (NMP) BCR ABL1 negativas. A ausência de resposta clínica completa ao inibidor seletivo de JAK1/2, ruxolitinibe, indica a necessidade de novas abordagens terapêuticas. Dados recentes sugerem que IGF1R/IRS representa um potencial alvo de inibição para o tratamento das NMP: (i) o substrato do receptor de insulina 2 (IRS2) coopera com JAK2V617F na transformação maligna em NMP; (ii) a desregulação da via de sinalização de IGF1R induz NMP. O composto NT157 foi desenvolvido para inibir IRS1/2 e apresentou efeitos antineoplásicos em neoplasias sólidas. Os objetivos deste trabalho foram avaliar os efeitos celulares e moleculares do tratamento com o inibidor de IRS1/2, NT157, isolado e em combinação com ruxolitinibe, em NMP JAK2V617F. Células HEL e SET2 JAK2V617F foram tratadas com veículo, NT157 e/ou ruxolitinibe e submetidas à avaliação da viabilidade celular, apoptose, proliferação, clonogenicidade, ciclo celular, expressão gênica e/ou expressão/ativação proteica. Células primárias de pacientes com policitemia vera foram submetidos a tratamento com NT157 e avaliação de formação espontânea de colônias eritroides. O efeito do NT157 in vivo foi avaliado utilizando modelo de xenotransplante de células HEL em camundongos NSG. A análise estatística foi realizada através do teste ANOVA ou t de Student. Em células HEL e/ou SET2 JAK2V617F, o tratamento com NT157 promoveu redução da viabilidade, clonogenicidade e proliferação celular, aumentou a apoptose e resultou em parada do ciclo celular em G2/M (p?0,05). Exposição ao NT157 resultou em inibição da fosforilação de STAT3, STAT5 e ERK e na modulação da expressão de 23 oncogenes (CCND1, MYB e WT1) e genes supressores tumorais (CDKN1A, JUN e FOS) em células HEL (p?0,05). O tratamento combinado com ruxolitinibe não apresentou efeito potencializador, sendo que a redução da viabilidade nas condições de combinação corresponde ao efeito das monoterapias nas linhagens celulares avaliadas. Em células primárias de pacientes com policitemia vera (n=3), NT157 reduziu a formação espontânea de colônias eritroides (p?0,05). O tratamento in vivo com veículo ou NT157 na dose de 70mg/kg, 3 vezes por semana, via intraperitoneal, em modelos de xenotransplante com células HEL em camundongos NSG (n=5 para cada grupo) não apresentou efeitos antineoplásicos. Em conclusão, a inibição farmacológica de IRS1/2 apresentou efeitos antineoplásicos significativos em modelos de linhagens celulares e amostras primárias de pacientes com NMP JAK2V617F. A inibição farmacológica combinada de IRS1/2 e JAK1/2 não potencializou o efeito antineoplásico das monoterapias nos processos celulares investigados. Os resultados dos estudos in vivo em modelos de xenotransplante indicam a necessidade de estudos de farmacocinética e farmacodinâmica para o NT157. Os efeitos moleculares identificados permitiram uma melhor compreensão sobre os mecanismos de ação da droga NT157 em NMP. / The recurrent V617F mutation in JAK2 is a major contributor to the pathogenesis of BCR-ABL1 negative myeloproliferative neoplasms (MPN). Absence of complete clinical response to ruxolitinib, a JAK1/2 inhibitor, highlights the need for targeting other signaling pathways that contribute to JAK2. Recent data indicate that IGF1R/IRS is a potential target in MPN: (i) insulin receptor substrate 2 (IRS2) cooperates to malignant transformation induced by JAK2V617F, (ii) IGF1R signaling upregulation induces MNP phenotype. NT157 is a synthetic compound designed as IRS1/2 inhibitor and was able to induce anti-neoplastic effects in solid tumors. We, herein, aimed to characterize the molecular and cellular effects of NT157 treatment, combined or not with ruxolitinib, in MPN JAK2V617F. HEL and SET2 JAK2V617F cells were treated or not with vehicle, NT157 and/or ruxolitinib and submitted to evaluation of cell viability assay, apoptosis, proliferation, clonogenicity, cell cycle, gene expression and protein expression/activation. Primary cells from polycythemia vera (PV) patients (n=3) were exposed to NT157 treatment and evaluated for erythropoietin-independent colony formation. NT157 effects in vivo were evaluated in a xenograft model of leukemogenesis induced by HEL cells in NSG mice. Statistical analysis was performed using ANOVA or Student\'s t test. In MPN cell lines, NT157 treatment significantly decreased cell viability, clonogenicity and cell proliferation, increased apoptosis and cell cycle arrest in G2/M (all p<0.05). NT157 exposure resulted in inhibition of STAT3, STAT5 and ERK phosphorylation. NT157 also modulated the expression of 23 oncogenes (CCND1, MYB and WT1) and suppressor tumor genes (CDKN1A, FOS and JUN) in HEL cells (p?0.05). In both cell lines, the combined treatment, NT157 plus ruxolitinib, did not potentiate the effects of monotherapies. In primary cells from polycythemia vera patients, NT157 exposition reduced spontaneous erythroid colony formation (all p<0.05). In vivo treatment with vehicle or NT157 (70mg/kg intraperitoneal), three times a week, showed no antineoplastic effects in NSG mice transplanted with HEL cells (n = 5 for each group). In summary, the IRS1/2 pharmacological inhibitor NT157 displayed remarkable antineoplastic effects in JAK2V617F cells lines and MPN primary cells. The combined treatment of NT157 plus ruxolitinib did not present potentializing effects when compared to the monotherapy. The results of in vivo treatment using a xenograft model highlight the need for pharmacokinetic and pharmacodynamic studies for the NT157 compound. The molecular effects identified allowed a better understanding about the mechanisms of NT157 action in MPNs. Insulin receptor substrates JAK2V617F JAK2V617F Myeloproliferative neoplasm Neoplasia mieloproliferativa NT157 NT157 Substratos do receptor de insulina
23	Modélisation des néoplasmes myéloprolifératifs grâce aux cellules souches induites à la pluripotence (IPSC) / Modeling of myeloproliferative neoplasms thanks to an induced pluripotent stem cell model (IPSC) Secardin, Lise 25 November 2016 (has links) Les néoplasmes myéloprolifératifs (NMP) sont hémopathies malignes aboutissant à la surproduction d'une ou plusieurs lignées myéloïdes. Elles sont dues à l'acquisition de mutations sur l'axe de signalisation MPL/JAK2 incluant des mutations de JAK2V617F, de MPL et plus récemment de la calréticuline (CALR), dont les deux principales sont CALRdel52 et CALRins5. Ces mutations de signalisations peuvent être accompagnées de mutations de l'épigénétique, les plus importantes étant des mutations dans TET2. Le but de cette thèse était d'étudier le rôle des mutations de TET2 et de la calrdel52 dans les NMP grâce à une technologie de cellules souches induites à la pluripotence (IPSC). Dans la première partie j'ai pu démontrer que TET2 joue un rôle dans le processus de reprogrammation, vraisemblablement de manière indépendante de son activité catalytique. Dans la seconde partie, j'ai démontré que CALRdel52 joue un rôle dans les MPN en provoquant une hypersensibilité et une pousse indépendante de la TPO des progéniteurs mégakaryocytaires ainsi qu'une hyperprolifération des mégacaryocytes, liées à l'activation constitutive de stat3 et de ERK. J'ai également démontré une pousse indépendante du GCSF des granulocytes. Ce travail a donc permis de mettre en lumière le rôle du facteur épigénétique TET2 dans le processus de reprogrammation ainsi que le rôle de CALRdel52 dans les MPN dans un contexte d'expression endogène. / Myeloproliferative neoplasms (NMP) are hematological malignancies that lead to an ovrproduction of one or more myeloid lineages. They are driving by mutations in MPLl/jak2 signaling pathway, mainly JAK2V617F, MPL, and more recently calreticulin (CARL), with two main mutations being calrdel52 and calrins5. These signaling mutations are sometimes associated with epigenetic mutations, the major one being in tet2. The objective of my thesis was to study the role of TET2 and CALRdel52 in MPN thanks to an induced pluripotent stem cells (IPSC) model. In the first part i demonstrated the role of TET2 in reprogramming process, probably independently of the catalytic domain. In the second part i demonstrated that CALRdel52 induced a TPO hypersensitivity and a TPO indenpendant growth of the megakaryocytic progenitors as well as a hyperproliferation of the megakaryocytes. This phenotype is associated with a constitutive activation of stat3 and ERK. A G-CSF independent growth of the granulocyte was also demonstrated. In conclusion this work underline the role of an epegenetic factor, TET2, in the reprogramming process and demonstrate the role of CALRdel52in MPN with an endogenous expression model. Néoplasmes myéloprolifératifs JAK/STAT TET2 IPSC Myeloproliferative neoplasms JAK/STAT TET2 IPSC
24	Hyaluronan in normal and malignant bone marrow : a clinical and morphological study with emphasis on myelofibrosis Sundström, Gunnel January 2005 (has links) Fibrosis in the bone marrow is usually denominated myelofibrosis and may contribute to impaired hematopoiesis. Myelofibrosis is seen both in malignant and non-malignant diseases. The normal microenvironment in the bone marrow consists of a heterogenous population of hematopoietic and non-hematopoietic stromal cells, their extracellular products and hematopoietic cytokines. The stromal cells produce a complex array of molecules, among others collagens and glycosaminoglycans (GAGs) of which hyaluronan (HYA) is the most abundant. Marrow fibrosis results from an increased deposition of collagens, which are polypeptides. Staining for reticulin, mostly composed of collagen type III, is the common way of visualizing myelofibrosis. HYA, like the collagens, is widely distributed in connective tissues. Little is known about the distribution of HYA in bone marrow. The aims of this thesis have been to determine how HYA is distributed in normal and malignant bone marrow, compared to reticulin staining, and to follow patients with chronic myeloproliferative diseases (CMPD) during two years treatment with anagrelide considering development of cellularity and fibrosis. In bone marrow biopsies from healthy volunteers, the controls, HYA was found in a pattern that was concordant with the reticulin staining. Comparing patients with different malignant diseases with and without bone marrow involvemen, HYA staining was found to be significantly stronger in both groups compared to the controls. The HYA scores were also significantly higher in the bone marrow of patients with de novo acute myeloid leukemia (AML), compared to the controls. There was a correlation between HYA and reticulin in the patients with de novo AML, and in the patients with different malignant diseases with and without bone marrow involvement as in the controls. Increase of HYA, reticulin and cellularity in the bone marrow of patients with CMPD after two years of treatment with anagrelide indicated progression of fibrosis. Anagrelide is a valuable drug for reduction of platelets but seems unable to stop progression of fibrosis and hypercellularity. HYA is an interesting molecule with properties not only contributing to the structure of extracellular matrix but also to cell signaling and behaviour, although the understanding of the detailed mechanisms is still incomplete. Hyaluronan reticulin fibrosis chronic myeloproliferative disorders acute myeloid leukemia anagrelide bone marrow Medicine Medicin
25	The Mevalonate Pathway: A Potential Therapeutic Target for JAK2-driven Myeloproliferative Neoplasms Griner, Lori Nicole 01 January 2013 (has links) The Mevalonate Pathway: A Potential Therapeutic Target for JAK2-driven Myeloproliferative Neoplasms Lori Nicole Griner Abstract Myeloproliferative neoplasms (MPNs) are diseases of hematopoietic stem cell origin and are characterized by uncontrolled growth of cells of the myeloid compartment. The Philadelphia chromosome negative classical MPNs, including polycythemia vera, essential thrombocythemia, and myelofibrosis, are diseases of dysregulated JAK2 signaling. In fact, the majority of MPN patients have activating mutations in JAK2 (e.g JAK2-V617F), a tyrosine kinase that contributes to the growth and survival of myeloid cells. While MPNs were first described over sixty years ago, a significant need remains to develop therapeutic strategies for them. Inhibitors of JAK2 are currently being developed, and one inhibitor, ruxolitinib, was recently approved for certain MPN patients. Ruxolitinib has made profound impacts on improving splenomegaly and constitutional symptoms in MPN patients, but it and other JAK2 inhibitors have not significantly reduced the JAK2 mutant allele burden, and thus such inhibitors have not induced remission in these patients. The current consensus in the MPN field supports JAK inhibition for the treatment of patients, but a further understanding of MPNs and JAK2 signaling, as well as improved JAK2 inhibitors, may be necessary for treating MPN patients. The work described in this dissertation has uncovered novel requirements for JAK2-V617F-driven signaling and transformation. We demonstrate that JAK2-V617F co-localizes with lipid rafts, cholesterol-rich microdomains within the plasma membrane that function to serve as platforms for signaling complex formation. Signaling complex formation is a necessary component for dysregulated signaling induced by JAK2-V617F. We provide evidence that cholesterol altering-lipid raft disrupting agents attenuate JAK2-V617F-driven signaling. We also show that cholesterol-lowering statins are effective at downregulating JAK2 signaling and inducing apoptosis in JAK2-V617F-driven cell lines. Importantly, we show that statins, inhibitors of the mevalonate pathway, inhibit the growth of primary MPN cells, while the same statin doses have no effect on healthy controls. Impressively, we demonstrate that statins cooperate with multiple JAK inhibitors, including ruxolitinib, to inhibit cell growth and induce apoptosis of JAK2-V617F-driven cells. This report establishes statin-mediated inhibition of the mevalonate pathway as a potential approach to improve MPN therapeutics. We propose future studies with statins and JAK2 inhibitors in the treatment of MPNs. cholesterol JAK2-V617F JAK inhibitor lipid rafts myeloproliferative neoplasms statins Biology
26	Investigation into the Role of CBL-B in Leukemogenesis and Migration Badger-Brown, Karla Michelle 15 September 2011 (has links) CBL proteins are E3 ubiquitin ligases and adaptor proteins. The mammalian homologs – CBL, CBL-B and CBL-3 show broad tissue expression; accordingly, the CBL proteins play roles in multiple cell types. We have investigated the function of the CBL-B protein in hematopoietic cells and fibroblasts. The causative agent of chronic myeloid leukemia (CML) is BCR-ABL. This oncogenic fusion down-modulates CBL-B protein levels, suggesting that CBL-B regulates either the development or progression of CML. To assess the involvement of CBL-B in CML, bone marrow transduction and transplantation (BMT) studies were performed. Recipients of BCR-ABL-infected CBL-B(-/-) cells succumbed to a CML-like myeloproliferative disease with a longer latency than the wild-type recipients. Peripheral blood white blood cell numbers were reduced, as were splenic weights. Yet despite the reduced leukemic burden, granulocyte numbers were amplified throughout the animals. As well, CBLB(-/-) bone marrow (BM) cells possessed defective BM homing capabilities. From these results we concluded that CBL-B negatively regulates granulopoiesis and that prolonged latency in our CBL-B(-/-) BMT animals was a function of perturbed homing.To develop an in vitro model to study CBL-B function we established mouse embryonic fibroblasts (MEFs) deficient in CBL-B expression. Transduction of the wild-type and CBL-B-deficient MEFs with BCR-ABL did not confer transformation; nevertheless, the role of CBL-B in fibroblasts was evaluated. The CBL-B(-/-) MEFs showed enhanced chemotactic migration toward serum in both Transwell migration and time-lapse video microscopy studies. The biochemical response to serum was extensively evaluated leading to the development of a model. We predict that CBL-B deficiency either: (a) augments GRB2-associated binding protein 2 (GAB2) phosphorylation leading to enhanced extracellular signal-regulated kinase (ERK) and protein kinase B (PKB / Akt) signaling, or (b) alleviates negative control of Vav3 resulting in stimulation of Rho effectors. In either case, our results reveal a negative regulatory role for CBL-B in fibroblast migration. The two studies detailed herein expand our knowledge of CBL-B function. They strongly suggest that CBL-B can modulate granulocyte proliferation and point toward a role for CBL-B in the motility of numerous cell types. cancer myeloproliferative disease BCR-ABL CBL-B fibroblasts migration chronic myeloid leukemia bone marrow transplantation 0992
27	Etude de la calréticuline dans les syndromes myéloprolifératifs : de la détermination de la charge allélique aux mécanismes de dégradation des variants protéiques / Study of calreticulin in myeloproliferative neoplasms : from allelic burden determination to mechanisms of variant proteins degradation Mansier, Olivier 14 December 2017 (has links) Des mutations dans le gène de la calréticuline (CALR), codant pour une protéine résidente du réticulum endoplasmique (RE), ont été découvertes récemment dans les syndromes myéloprolifératifs (SMP). Elles sont associées à augmentation de prolifération cellulaire portant spécifiquement sur la lignée mégacaryocytaire. Ceci est le résultat d’une activation constitutive de la signalisation des voies JAK-STAT et MAP Kinases, consécutive à l’interaction des protéines mutantes CALR avec le récepteur à la thrombopoïétine. Plusieurs études ont montré la faible expression de ces protéines mutées dans les cellules, mais aucune n’a déterminé l’impact de leur expression sur l’homéostasie du RE ni les acteurs mis en jeu dans leur élimination. Dans ce travail, nous avons montré que l’expression des protéines CALR mutées ne perturbe pas sensiblement l’équilibre du RE et ne modifie pas la sensibilité des cellules à l’apoptose induite par un stress du RE. Nous avons ensuite démontré dans différents modèles, y compris des cellules engagées dans la différenciation mégacaryocytaire, que les faibles niveaux intracellulaires de variants protéiques CALR n’étaient pas liés à une sécrétion accrue dans le milieu extracellulaire ni à un défaut transcriptionnel. Cette faible expression est en fait la conséquence d’une dégradation mettant en jeu principalement la voie ERAD-protéasome. Dans ce processus, la reconnaissance de motifs glycans n’est pas impliquée, mais EDEM3 semble avoir un rôle majeur puisque son extinction augmente l’expression des formes mutées de CALR. La modulation de cette dégradation pourrait constituer une approche thérapeutique innovante dans les SMP. / Mutations in the calreticulin gene (CALR), encoding for an endoplasmic reticulum (ER) resident protein, have recently been discovered in myeloproliferative neoplasms (MPN). They are associated with an increased cell proliferation, specifically in the megakaryocytic lineage. This is the result of a constitutive activation of the JAK-STAT and MAP kinase pathways, following the interaction of mutant calreticulin proteins with the thrombopoietin receptor. Several studies have demonstrated that these mutated proteins are faintly expressed in cells, but none have determined the impact of their expression on ER homeostasis, nor addressed the actors at play in their degradation. In this work, we showed that the expression of mutated CALR proteins does not significantly disturb ER equilibrium, nor does it change the cellular sensitivity to ER stress-induced apoptosis. We next demonstrated in different models including cells committed towards megakaryocytic differentiation that the poor intracellular levels of variant CALR proteins are neither due to enhanced secretion into the extracellular medium, nor to transcriptional defects. This low-level expression is mainly the result of increased degradation, involving the ERAD-proteasome pathway. In this process, the recognition of glycan motifs is not engaged, but EDEM3 seems to be a key component as its extinction increases the expression levels of variant forms of CALR. Modulating this degradation process could represent a therapeutic option for MPN patients. Calréticuline EDEM Syndromes Myéloprolifératifs ERAD Protéasome Calreticulin EDEM Myeloproliferative Neoplasms ERAD Proteasome
28	Impacto da análise molecular da mutação JAK2V617F no diagnóstico de neoplasias mieloproliferativas crônicas de acordo com os critérios da OMS 2016 Pedrazzani, Fabiane Spagnol January 2016 (has links) As neoplasias mieloproliferativas (NMPs) são um grupo de doenças derivadas de uma transformação clonal de célula tronco hematopoiéticas no qual a linhagem celular mielóide é predominantemente expandida no sangue periférico. As NMPs Philadelphia-negativas incluem policitemia vera (PV), trombocitemia essencial (TE) e mielofibrose primária (MFP) que compartilham muitas características hematológicas, clínicas e evolutivas. A mutação da JAK2 (JAK2V617F) está presente em cerca de 95% dos pacientes com PV, entre 50 a 70% com TE e 40 a 50% com MFP. No entanto, os testes moleculares para diagnóstico são muitas vezes um desafio devido ao alto custo e a disponibilidade de equipamentos especializados. Objetivo: Verificar o impacto do teste molecular da mutação JAK2V617F para o diagnóstico de NMPs nos pacientes atendidos no Hospital de Clínicas de Porto Alegre. Métodos: Foram avaliados 87 pacientes com suspeita de NMPs. As amostras de sangue periférico foram analisadas para a mutação JAK2V617F pelo método genético molecular de PCR alelo-específico e os resultados correlacionados com os dados clínico-laboratoriais. Para estabelecimento do diagnóstico, foram utilizados os critérios da Organização Mundial da Saúde (OMS) de 2016. Resultados: Dos 87 pacientes avaliados, 27,6% foram diagnosticados como PV, 39,1% como TE, 4,6% como MFP e 28,7% não contemplavam os critérios para o diagnóstico NMPs. A comparação da utilização do teste da mutação JAK2V617F mostrou que, apenas 41,7% dos pacientes com PV sem utilizar o teste, teriam sido diagnosticados comparados a 91,7% utilizando este teste como um dos critérios no diagnóstico final (p = 0,004). Na TE e na MFP, este critério não foi estatisticamente significativo. Conclusão: O teste molecular para a mutação de JAK2V617F no nosso hospital teve um impacto significativo no diagnóstico dos pacientes com PV, mostrando ser uma ferramenta importante para o diagnóstico final desta NMP. / Myeloproliferative neoplasms (MPNs) are a group of disorders derived from a clonal transformation of stem cell on which myeloid cell lineage is predominantly expanded in the peripheral blood. Philadelphia-negative MPNs include polycythemia vera (PV), essential thrombocythemia (ET), and primary myelofibrosis (PMF) which share many hematological, clinical, and evolutionary characteristics. The JAK2 mutation (JAK2V617F) is present in about 95% of patients with PV, between 50 to 70% with ET and 40 to 50% PMF. However, the molecular diagnostic tests are often a challenge due to the high cost and the availability of specialized equipment. Objective: To verify the impact of molecular testing of the JAK2V617F mutation for the diagnosis of MPNs in patients attended at Hospital de Clinics, Porto Alegre. Methods: A total of 97 patients were evaluated with suspected of MPNs. The peripheral blood samples were analyzed for the JAK2V617F mutation by the molecular genetic allelespecific PCR method and the results correlated with the clinical-laboratory data. To establish the diagnosis, the 2016 World Health Organization (WHO) criteria were used. Results: Of the 87 patients evaluated, 27.6% were diagnosed as PV, 39.1% as ET, 4.6% as PMF and 28.7% did not meet criteria for MPNs diagnosis. Comparison of the use of the JAK2V617F test showed that only 41.7% of patients with PV without the mutation test were diagnosed compared to 91.7% using this test as one of the criteria for the final diagnosis (p = 0.004). In the ET and the PMF, this criterion was not statistically significant. Conclusion: The molecular test for the JAK2V617F mutation in our hospital had a significant impact in the diagnosis of patients with PV, showing to be an important tool for the final diagnosis of this MPN. Policitemia vera Trombocitemia essencial Mielofibrose primária Myeloproliferative neoplasms Polycythemia vera Essential thrombocythaemia Primary myelofibrosis JAK2 JAK2V617F
29	Implication physiopathologique de l'adaptateur LNK : mécanismes d'action et perspectives thérapeutiques dans les Néoplasmes Myéloprolifératifs / Physiopathological implication of LNK adaptor : mechanisms of action and therapeutic applications in myeloproliferative neoplasms Jungalee, Anouchka 15 December 2016 (has links) L’adaptateur LNK est un régulateur négatif des voies de signalisation, dont la voie JAK/STAT,essentielle au développement du système hématopoïétique. Son implication dans les hémopathies chroniques, notamment les Néoplasmes Myéloprolifératifs (NMP), a été mise en évidence par l’analyse de souris invalidées pour cet adaptateur et l’identification de mutations de LNK chez les patients atteints de ces pathologies. Toutefois, le mécanisme permettant la régulation de ses partenaires, dont la kinase JAK2, et l’implication fonctionnelle des mutations de LNK dans les NMP, restent à définir. Ainsi, mon projet de thèse a porté sur l’analyse structurale et fonctionnelle des complexes de signalisation LNK/JAK2 et sur le développement d’une stratégie moléculaire pour l’utilisation thérapeutique de LNK dans les NMP. Nos résultats ont montré pour la première fois, la fonction inhibitrice de la région N-terminale incluant le domaine d’homologie à la Pleckstrine deLNK sur JAK2 normale et de manière plus importante, sur la forme mutée JAK2-V617F, retrouvée chez les patients atteints de NMP. De plus, nos études sur les mutations de LNK localisées dans cette région régulatrice, ont permis de comprendre leur contribution dans le développement de ces hémopathies et de proposer un mécanisme d’inhibition de l’activation de JAK2 par LNK. Nos résultats permettent d’utiliser le ciblage de la région N-terminale de LNK comme stratégie moléculaire inhibant spécifiquement la forme oncogénique JAK2-V617F à l’aide de peptides pénétrants (CPP). A long terme, cette approche pourrait être utilisée comme outil thérapeutique dans le traitement de patients atteints de NMP positifs pour JAK2-V617F. / The LNK adaptor protein is a key negative regulator of signalling pathways, such as JAK/STAT, important in the development of the hematopoietic system. Its implication in chronic blood diseases, such as Myeloproliferative Neoplasms (MPN) has been confirmed by studies on Lnk-deficient mice, as well as the identification of LNK mutations in MPN patients. However, the LNK mechanism of regulation on its partners and the functional implication of LNK mutations in MPN pathogenesis, are still unclear. Therefore, my PhD project covers the structural and functional analysis of theLNK/JAK2 signalling complex and the development of a molecular strategy to use LNK as a therapeutic tool for the treatment of MPN patients. Our study showed, for the first time, the inhibitory function of the N-terminal region and the pleckstrin homology domain of LNK on JAK2 activity, which occurs more importantly on JAK-V617F than JAK2 wild type form. Moreover, our study provided evidence on how LNK mutations located in this LNK region could contribute to these haematological diseases and has allowed us to propose a model for LNK regulatory function on JAK2activity. Furthermore, we developed a cell penetrating peptide-based strategy to deliver this regulatory region of LNK in hematopoietic cells to specifically inhibit JAK2-V617F oncogenic form. The finalaim is to use this region as a therapeutic molecule to treat JAK2-V617F-positive MPN patients. Protéine adaptatrice Inhibiteur de signalisation Voie de signalisation JAK/STAT Néoplasmes myéloprolifératifs Thérapie ciblée Myeloproliferative neoplasms
30	Impacto da análise molecular da mutação JAK2V617F no diagnóstico de neoplasias mieloproliferativas crônicas de acordo com os critérios da OMS 2016 Pedrazzani, Fabiane Spagnol January 2016 (has links) As neoplasias mieloproliferativas (NMPs) são um grupo de doenças derivadas de uma transformação clonal de célula tronco hematopoiéticas no qual a linhagem celular mielóide é predominantemente expandida no sangue periférico. As NMPs Philadelphia-negativas incluem policitemia vera (PV), trombocitemia essencial (TE) e mielofibrose primária (MFP) que compartilham muitas características hematológicas, clínicas e evolutivas. A mutação da JAK2 (JAK2V617F) está presente em cerca de 95% dos pacientes com PV, entre 50 a 70% com TE e 40 a 50% com MFP. No entanto, os testes moleculares para diagnóstico são muitas vezes um desafio devido ao alto custo e a disponibilidade de equipamentos especializados. Objetivo: Verificar o impacto do teste molecular da mutação JAK2V617F para o diagnóstico de NMPs nos pacientes atendidos no Hospital de Clínicas de Porto Alegre. Métodos: Foram avaliados 87 pacientes com suspeita de NMPs. As amostras de sangue periférico foram analisadas para a mutação JAK2V617F pelo método genético molecular de PCR alelo-específico e os resultados correlacionados com os dados clínico-laboratoriais. Para estabelecimento do diagnóstico, foram utilizados os critérios da Organização Mundial da Saúde (OMS) de 2016. Resultados: Dos 87 pacientes avaliados, 27,6% foram diagnosticados como PV, 39,1% como TE, 4,6% como MFP e 28,7% não contemplavam os critérios para o diagnóstico NMPs. A comparação da utilização do teste da mutação JAK2V617F mostrou que, apenas 41,7% dos pacientes com PV sem utilizar o teste, teriam sido diagnosticados comparados a 91,7% utilizando este teste como um dos critérios no diagnóstico final (p = 0,004). Na TE e na MFP, este critério não foi estatisticamente significativo. Conclusão: O teste molecular para a mutação de JAK2V617F no nosso hospital teve um impacto significativo no diagnóstico dos pacientes com PV, mostrando ser uma ferramenta importante para o diagnóstico final desta NMP. / Myeloproliferative neoplasms (MPNs) are a group of disorders derived from a clonal transformation of stem cell on which myeloid cell lineage is predominantly expanded in the peripheral blood. Philadelphia-negative MPNs include polycythemia vera (PV), essential thrombocythemia (ET), and primary myelofibrosis (PMF) which share many hematological, clinical, and evolutionary characteristics. The JAK2 mutation (JAK2V617F) is present in about 95% of patients with PV, between 50 to 70% with ET and 40 to 50% PMF. However, the molecular diagnostic tests are often a challenge due to the high cost and the availability of specialized equipment. Objective: To verify the impact of molecular testing of the JAK2V617F mutation for the diagnosis of MPNs in patients attended at Hospital de Clinics, Porto Alegre. Methods: A total of 97 patients were evaluated with suspected of MPNs. The peripheral blood samples were analyzed for the JAK2V617F mutation by the molecular genetic allelespecific PCR method and the results correlated with the clinical-laboratory data. To establish the diagnosis, the 2016 World Health Organization (WHO) criteria were used. Results: Of the 87 patients evaluated, 27.6% were diagnosed as PV, 39.1% as ET, 4.6% as PMF and 28.7% did not meet criteria for MPNs diagnosis. Comparison of the use of the JAK2V617F test showed that only 41.7% of patients with PV without the mutation test were diagnosed compared to 91.7% using this test as one of the criteria for the final diagnosis (p = 0.004). In the ET and the PMF, this criterion was not statistically significant. Conclusion: The molecular test for the JAK2V617F mutation in our hospital had a significant impact in the diagnosis of patients with PV, showing to be an important tool for the final diagnosis of this MPN. Policitemia vera Trombocitemia essencial Mielofibrose primária Myeloproliferative neoplasms Polycythemia vera Essential thrombocythaemia Primary myelofibrosis JAK2 JAK2V617F

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