Role of group 2 innate lymphoid cells in the pathogenesis of bone marrow fibrosis / Roll av medfödda lymfoida celler i grupp 2 i patogenesen av benmärgsfibros

Piñero Garasa, Maria Angeles

January 2022

Primär myelofibros (PMF) är en typ av myeloproliferativ neoplasm (MPN) som leder till en progressiv och irreversibel benmärgsfibros. En somatisk mutation, Jak2V617F, har hittats hos 50 % av patienterna med MPN i hematopoetiska stamceller. Nyligen har man upptäckt grupp 2 av medfödda lymfoida celler (ILC2) som tillhör det medfödda systemet. De är T-cellernas motsvarighet men saknar TCR-receptorn. ILC2 reagerar på IL-33 och producerar Il-13. Under de senaste åren har man upptäckt att dessa två cytokiner är inblandade i PMF. För att undersöka ILC2:s roll i utvecklingen av benmärgsfibros in vivo producerade vi retrovirus som uttrycker Jak2 vildtyp (JAK2_WT) eller Jak2V617F (JAK2_V617F) och transducerade benmärg vildtyp (BM_WT) eller benmärg ILC2KO (BM_ILC2KO). Benmärgen transplanterades till subletalt bestrålade immunbristande möss (NOG). Klinikopatologiska drag som är karakteristiska för sjukdomens första stadier, som förhöjda hemoglobinnivåer, megakaryocythyperplasi och betydande trombocytos, uppstod inte under studieperioden. Ökade vita blodkroppar uppstod dock på grund av avsaknaden av ILC2 i JAK2_V617F-expressiva möss. Flödescytometeranalys visade ursprunget till den markerade leukocytosen som ett resultat av expansionen från lymfocytlinjen, mer specifikt B-celler, men resultaten är inte entydiga eftersom de förhöjda nivåerna av B-celler kan vara en följd av ILC2 knock-out fenotypen som förvärras av närvaron av mutationen. Granulocytnivåerna från de inympade cellerna hölls låga till följd av att stamcellerna i värdens benmärg var inblandade på grund av subletal bestrålning. Vi drar slutsatsen att frånvaron av ILC2 i JAK2_V617F-uttryckta benmärgsprogenitorer har en tendens att förvärra den myeloproliferativa fenotypen i sjukdomens tidiga skeden, vilket tyder på en möjlig skyddande roll för ILC2 vid utvecklingen av MPN. / Primary myelofibrosis (PMF) is one type of myeloproliferative neoplasm (MPN) that leads to a progressive and irreversible bone marrow fibrosis. A somatic mutation, Jak2V617F has been found in 50% of patients with MPN in hematopoietic stem cells. Group 2 innate lymphoid cells (ILC2) belonging to the innate system has been recently discovered. They are the counter part of T cells but lacking the TCR receptor. ILC2 response to IL-33 producing Il-13. In recent years, the involvement of these two cytokines in the PMF has been uncovered. To investigate the role of ILC2 in the progression of bone marrow fibrosis in vivo we produced retrovirus expressing Jak2 wild-type (JAK2_WT) or Jak2V617F (JAK2_V617F) and transduced bone marrow wild type (BM_WT) or bone marrow ILC2KO (BM_ILC2KO). The bone marrow was transplanted into sub-lethally irradiated immunodeficient mice (NOG). Clinicopathologic features characteristic from the first stages of the disease, as elevated hemoglobin levels, megakaryocyte hyperplasia and significant thrombocytosis did not emerge during the study period. However, increased in white blood cells arise from the absence of ILC2 in JAK2_V617F expressing mice. Flow cytometer analysis revealed the origin of the marked leukocytosis as a result of the expansion from the lymphocyte lineage, more specifically B cells, but the results are inconclusive as the elevated levels of B-cells could be a consequence of the ILC2 knock-out phenotype aggravated by the presence of the mutation. Granulocyte levels from engrafted cells were kept low because of the involvement of host bone marrow stem cells due to sublethal irradiation. We conclude that the absence of ILC2 in JAK2_V617F-express bone marrow progenitors has a tendency to aggravate the myeloproliferative phenotype in the early stages of the disease, indicating a possible protective role of ILC2 in the development of MPNs.

Myeloproliferative neoplasms

Primary myelofibrosis

Group 2 innate lymphoid cells

JAK2

leukocytosis

Cell Biology

Cellbiologi

Expressão de microRNAs em leucócitos e células CD34+ em Policitemia Vera / microRNA expression in leukocytes and CD34+ cells in Polycythemia Vera

Nunes, Natália de Souza

25 January 2012

A Neoplasia Mieloproliferativa Crônica (NMPC)- Politemia Vera é uma desordem clonal caracterizada pelo acúmulo de eritrócitos, leucócitos, plaquetas e progenitores normais na ausência de um estímulo definido. Apesar dos avanços no diagnóstico de PV e da descrição de mecanismos envolvidos no estabelecimento da doença sua patogênese permanece desconhecida entretanto, alterações no mecanismo regulador da apoptose parecem estar envolvidos em sua fisiopatologia. A compreensão acerca do funcionamento da maquinaria apoptótica e sua possível regulação por microRNAs em pacientes com Policitemia Vera parece revelar novos alvos para estudo e consequentemente transformar-se em novas terapias para a doença. Neste contexto os objetivos deste trabalho foram avaliar em leucócitos de sangue periférico e células CD34+ de medula óssea dos pacientes de PV: (1) a quantificação da expressão de microRNAs cujos alvos são RNAs associados a regulação da apoptose; (2) Correlação dos níveis de expressão dos miRNAs com os de RNAm das moléculas pró e antiapoptóticas da família Bcl-2 e dos receptores de morte; (3) Correlação dos níveis de expressão dos miRNAs com os seguintes dados clínico-laboratoriais dos pacientes: concentração de hemoglobina, hematócrito e percentagem da mutação JAK2. Os pacientes com Policitemia Vera apresentam aumento de expressão dos microRNAs 29c, 16, 21, 26a, 130b e let-7d e diminuição de miR15a e 34c em leucócitos de sangue periférico; Aumento de expressão dos miRs 29c, 16 e 21; diminuição na expressão de miR 130b e let-7d em células CD34+ ; alteração na expressão de genes pró e anti-apoptóticos em leucócitos de sangue periférico com aumento de a1, mcl-1 e diminuição de bcl-2, ciap-2, bax e fas-L,alteração na expressão de genes pró e anti-apoptóticos em células CD34+ com aumento de expressão de fas, bid, mcl-1, bcl-xl e c-flip; diminuição na expressão de bik. Observamos diminuição na expressão protéica de BCL-2 em pacientes quando comparado aos indivíduos controle.Notamos também a correlação entre a alteração na expressão de microRNAs e seus respectivos genes alvo e destes com parâmetros hematológicos analisados. Os linfócitos dos pacientes de PV apresentam maior resistência a apoptose do que os indivíduos controles quando induzidos por: Actinomicina, etoposídeo, citarabina e cicloheximida. Concluindo, os dados obtidos sugerem a participação dos microRNAs na regulação da maquinaria apoptótica e a participação desta desregulação na fisiopatologia da PV. Estes resultados contribuem para o melhor entendimento da fisiopatologia da PV e serão úteis futuramente para o desenho de novos alvos terapêuticos e descrição de marcadores de prognóstico. / Polycythaemia vera (PV) is a clonal disorder characterized by an accumulation of normal red and white cells, platelets, and their progenitors in absence of a definable stimulus. Despite the advances in PV diagnosis and the description of the mechanisms involved in disease establishment its pathogenesis remains unclear. The apoptosis deregulation might have a role in PV physiopathology. Fully understanding the basic apoptotic pathway and its potential regulation by microRNA in PV patients cells might unveil targets for manipulation, which may be translated into novel therapies for disease.The aims of this study were to avaluate in leukocytes and CD34+ cells: (1) The microRNA expression whose RNA target are associated with apoptosis regulation (2) Correlation between microRNA expression and the mRNA levels of anti and pro-apoptotic family Bcl-2 expression and death receptors; (3) Correlation between microRNA expression and the clinical data of patients: hemoglobin concentration, hematocrit and JAK2 percentage. Patientes with Polycythemia Vera shows increased expression of microRNAs 29c, 16, 21, 26a, 130b and let-7d and 34c and 15a decrease in peripheral leukocytes; incresead expression of miRs 29c, 16 and 21, decrease in miR130b and let-7d expression in CD34+ cells; deregulation in pro and anti-apoptotic gene expression in peripheral leukocytes with increase in a1, mcl-1 and decrease in bcl-2, ciap-2, bax and fas-L, deregulation in pro and anti-apoptotic gene expression in CD34+ cells with increased expression of fas, bid, mcl-1, bcl-xl and c-flip and decreased expression of bik. Decreased in proteic expression of BCL-2 in peripheral leukocytes of patients when compared to controls. Correlation between de deregulated expression of microRNA and their genes target and those with hematological parameters. Lymphocytes from PV patients shows higher resistance to apoptosis than controls when induced by: Actinomicin, etoposide, cytarabine and cycloheximide. In conclusion the data suggest the involvement of microRNA in apoptosis regulation and the involvement of apoptosis machinery in the PV pathophysiology. These results will contribute for a better understanding of PV pathophysiology and will be useful for the discover of future therapies.

Apoptose

Apoptosis

Expressão Gênica.

microRNAs

microRNAs e Gene Expression

Myeloproliferative Neoplasms

Polycythemia Vera

Expressão dos genes da via mTORC1 e seu envolvimento nas Neoplasias Mieloproliferativas / A. mTORC1 gene expression and involvement in Myeloproliferative Neoplasms

Nunes, Natália de Souza

09 March 2016

As Neoplasias Mieloproliferativas (NMPs) se caracterizam por apresentarem acúmulo de eritrócitos, leucócitos e plaquetas morfologicamente normais e seus precursores. Nos últimos anos vários estudos buscaram conhecer os mecanismos celulares e moleculares envolvidos na fisiopatologia e evolução dessas desordens, com o intuito de encontrar marcadores de diagnóstico, prognóstico e terapias eficazes. A mutação pontual no gene que codifica a enzima Janus Kinase 2 (JAK2 V617F), presente em aproximadamente 90% dos pacientes com PV e em 50% dos pacientes com TE e MF, foi o principal achado genético anormal associado a essas doenças. Essa mutação resulta na ativação constitutiva da enzima JAK2 e na desregulação da proliferação celular e resistência à apoptose. Nosso grupo de pesquisa descreveu em PV, TE e MF a expressão alterada de genes reguladores da apoptose e dados da literatura indicam que a desregulação do ciclo celular contribui para a fisiopatologia das NMPs. Nesse projeto o intuito foi investigar a associação da via de sinalização m-TOR com as alterações do ciclo celular e via JAK/STAT nas NMPs. A via de sinalização m-TOR participa dos processos celulares de sobrevivência e proliferação. A estratégia experimental foi avaliar a expressão de genes e proteínas, reguladores da via m-TOR, em leucócitos de pacientes com NPMC e linhagens celulares JAK2+ tratadas com inibidores de JAK2 e AKT. Para determinar a relação da via m-TOR nas NMPs foi escolhido o gene eIF4E, alterado nessas doenças, para observar sua modulação diante da inibição farmacológica nas linhagens celulares JAK2 positivas. Os resultados desse estudo contribuem para a descrição de novos alvos terapêuticos dependentes e indepentendes da atividade quinase JAK2 e para o melhor conhecimento da participação da via de sinalização m-TOR na fisiopatologia das NMPs. / The myeloproliferative neoplasms (MNPs) are characterized by accumulation of erythrocytes, leukocytes and platelets morphologically normal and their precursors. In recent years several studies have sought to understand the cellular and molecular mechanisms involved in the pathophysiology and progression of these disorders in order to find diagnostic and prognostic markers and effective therapies. The point mutation in the gene encoding the enzyme Janus kinase 2 (JAK2 V617F), present in approximately 90% of PV patients and in 50% of patients with ET and MF was the main abnormal genetic finding associated with these diseases. This mutation results in constitutive activation of JAK2 enzyme and the deregulation of cell proliferation and resistance to apoptosis. Our research group described in PV, ET and MF altered expression of apoptosis regulatory genes and literature data suggest that deregulation of the cell cycle contributes to the pathophysiology of MNPs. In this project the aim was to investigate the signaling pathway of the association m-TOR with the changes of the cell cycle and JAK / STAT in NMPs. The signaling pathway participates in the m-TOR cell survival and proliferation processes. The experimental strategy was to evaluate the expression of genes and proteins, regulators of m-TOR pathway in leukocytes from patients with and NPMC cell lines treated with the JAK2 JAK2 + and AKT inhibitors. To determine the relationship of m-TOR pathway with MNPs has been selected the eIF4E gene deregulated in these disorders to observe their modulation in pharmacologically inhibited cells lines JAK 2 positive. Results of this study contribute to the description of new therapeutic targets of dependent and independent JAK2 kinase activity and to a better understanding of the signaling pathway of participation m-TOR in the pathophysiology of NMPs.

cell cycle

ciclo celular

JAK2V617F mutation

mTORC1 pathway

mutação JAK2V617F.

Myeloproliferative Neoplasms

Neoplasias Mieloprolifertivas

Via de sinalização mTORC1

Expressão gênica de metaloproteinases e de seus reguladores em neoplasias mieloproliferativas: associação com biomarcadores de angiogênese e status mutacional / Gene expression of metalloproteinases and theirs regulators myeloproliferative neoplasms: association with angiogenesis markers and mutational status.

Lima, Luciene Terezina de

05 May 2016

As neoplasias mieloproliferativas (NMPs) BCR-ABL1 negativas compreendem a mielofibrose primária (PMF), trombocitemia essencial (TE) e a policitemia vera (PV). A patogênese e progressão dessas NMPs não estão completamente elucidadas. As metaloproteinases de matriz (MMPs) degradam a matriz extracelular, ativando citocinas e fatores de crescimento que, por sua vez, participam da tumorigênese e angiogênese. O objetivo deste estudo foi avaliar a relação da expressão gênica das MMPs, TIMPs, HIF1-&#945; e SPARC com os marcadores angiogênicos bFGF e VEGFA em pacientes com MF e TE, considerando o status mutacional; bem como avaliar a regulação desses genes em camundongos submetidos à hipóxia, e em modelos HIF1-&#945;(-/-) e VHL(-/-). Foram incluídos 21 pacientes com MF, 21 com MF pós-TE, 6 com MF pós-PV, 23 com TE e 78 indivíduos controle. As análises realizadas foram: dosagem sérica e expressão de RNAm de MMP2, MMP9, TIMP1, TIMP2 e SPARC, hemograma, determinação da proteína C reativa ultrassensível, determinação das concentrações de VEGFA e bFGF e avaliação das mutações nos genes JAK2, cMPL e CALR. A avaliação da densidade microvascular da medula óssea foi feita em 30 dos pacientes incluídos. Os pacientes com MFP, MFPTE e TE apresentaram maior expressão de MMP2, SPARC, TIMP1, TIMP2 e bFGF quando comparados aos seus controles (P<0,05), enquanto MMP9 foi mais expressa nos pacientes com MFPTE e TE (P= 0,011 e P=0,047, respectivamente). Os pacientes com TE apresentaram maior expressão de HIF1-&#945; e VEGFA em relação ao grupo controle (P<0,05). Pacientes com MF JAK2V617F positivos apresentaram maiores concentrações de MMP9, TIMP2, bFGF e VEGFA quando comparados aos pacientes portadores de mutações na CALR (P<0,05). Os pacientes com TE JAK2V617F positivos apresentaram maiores concentrações de MMP2 e TIMP2 (P=0,049 e P=0,020, respectivamente). As concentrações das proteínas estudadas não apresentaram correlação com a carga alélica de JAK2V617F e nem com a densidade microvascular da medula óssea. Células de medula óssea de camundongos submetidos à hipóxia apresentaram maior expressão de MMP2 e TIMP1 comparados aos camundongos em normóxia. Camundongos VHL(-/-) apresentaram aumento na expressão dos genes MMP2, MMP9, TIMP1, TIMP2 e VEGFA. Diferentemente, embriões HIF1-&#945;(-/-) não foram considerados um bom modelo para este estudo devido ao envolvimento das MMPs na embriogênese/organogênese. Frente aos resultados encontrados, pode-se sugerir que a maior expressão de MMP2, SPARC e de bFGF estão associadas às NMPs. A mutação JAK2V617F foi associada a maiores concentrações de MMPs, TIMP2 VEGFA e bFGF. HIF1-&#945; foi mais expresso na PV e na TE, sugerindo uma possível regulação da expressão das MMPs e TIMPs nessas doenças. / Myeloproliferative neoplasms (MPNs) BCR-ABL1-negative include primary myelofibrosis (PMF), essential thrombocythemia (ET) and polycythemia vera (PV). The mechanisms underlying the pathology and disease progression in MPN are not completely elucidated. The matrix metalloproteinases (MMPs) cleave extracellular matrix, activating cytokines and growth factors that, in turn, regulate tumorigenesis and angiogenesis. The aim of this study was to evaluate the relationship of MMPs, TIMPs, HIF1-&#945 and SPARC gene expression with angiogenic markers bFGF and VEGFA in patients with MPN considering their mutational status; as well as to assess the regulation of these genes in animal models HIF1-&#945 and VHL knockouts. Twenty-one MF, 21 MF post-ET, 6 MF post-PV, 23 ET patients and 78 controls were enrolled. The analysis performed in peripheral blood were: serum and mRNA expression of MMP2, MMP9, TIMP1, TIMP2 and SPARC, blood count, high-sensitivity C-reactive protein determination and VEGFA and bFGF measurements in plasma. We also evaluate mutations in JAK2, MPL and CALR. The assessment of microvascular density (MVD) in bone marrow was performed in 30 patients. Patients with MFP, MFPET and ET presented higher expression of MMP2, SPARC, TIMP1, TIMP2 and bFGF compared to their controls (P <0.05), while MMP9 expression was higher in patients with MFPET and ET (P=0.011 and P=0.047, respectively). Higher expression of HIF1-&#945; and VEGFA was found in ET patients compared to the controls (P <0.05). PMF JAK2V617F patients had higher concentrations of MMP9, TIMP2, bFGF and VEGFA compared to CALR mutated ones (P <0.05). ET patients JAK2V617F positive had higher levels of MMP2 and TIMP2 (P=0.049 and P=0.020, respectively). The JAK2V617F allele burden was not associated with MVD in the bone marrow. Bone marrow cells from mice in hypoxia condition showed higher MMP2 and TIMP1 expression compared to the control. VHL(-/-) mice exhibited increased expression of MMP2, MMP9, TIMP1, TIMP2 and VEGFA. In contrast, the HIF1-&#945;(-/-) embryos were not considered an applicable model for this study due to MMPs role in embryogenesis/organogenesis. In view of these findings, we can conclude that increased expression of MMP2, SPARC and bFGF are associated with MPN. The JAK2V617F mutation was associated with higher concentrations of MMPs, TIMP2 VEGFA and bFGF. HIF1-&#945; is upregulated in PV and ET and perhaps regulate the MMPs and TIMPs expression in these diseases.

Angiogênese

Angiogenesis

Expressão gênica

Gene expression

Matrix metalloproteinases

Metaloproteinases de matriz

Mutational status

Myeloproliferative neoplasms

Neoplasias mieloproliferativas

Status mutacional

Rôle des cellules endothéliales avec mutation JAK2V617F et des polynucléaires neutrophiles dans la physiopathologie de la thrombose des néoplasies myéloprolifératives / Implication of JAK2V617F endothelial cells and neutrophils in the physiopathology of thrombosis during myeloproliferative neoplasms

Guy, Alexandre

20 November 2018

Les néoplasies myéloprolifératives (NMP) sont des maladies hématologiques acquises de la cellule souche hématopoiétique (CSH) caractérisées par une prolifération accrue de cellules sanguines. Une mutation activatrice de la protéine JAK2 (JAK2V617F) a été identifiée chez plus de 50% des patients. La survenue de thromboses au niveau artériel et veineux constitue une des principales complications au cours de ces maladies. Au cours d’un premier axe de travail, nous avons souhaité étudier les conséquences sur la physiopathologie de la thrombose de la présence de la mutation JAK2V617F dans les cellules endothéliales (CE). Utilisant deux approches complémentaires, in vitro avec l’utilisation de cellules endothéliales veineuses, et in vivo avec l’utilisation d’un modèle murin permettant la présence de la mutation JAK2V617F dans le compartiment endothélial, nous avons démontré que la présence de CE JAKV617F favorisait la survenue de thrombose. Cette augmentation de la survenue de thrombose était médiée par une augmentation de l’adhésion des leucocytes au niveau des CE JAK2V617F, secondaire à une augmentation d’expression de P-Sélectine à leur surface. Ce travail a permis de mettre en évidence un nouveau mécanisme de la physiopathologie de la thrombose au cours des NMP JAK2V617F. Au cours d’un second axe de travail, nous avons étudié les polynucléaires neutrophiles (PNN) et le phénomène de NETose (formation de neutrophil extracellular traps ou NET) au cours des NMP. Nous avons démontré que la formation de NET était augmentée dans une cohorte de patients avec NMP, tout comme des marqueurs indirects de NETose (ADN plasmatique, MPO-ADN plasmatique). Nous avons mis en évidence que les taux de MPO-ADN plasmatique étaient plus élevés chez les patients avec antécédents de thrombose par rapport aux patients sans. Nous avons confirmé ces résultats à l’aide de deux modèles murins différents dans lesquels nous avons également retrouvé une formation de NET augmentée. Nous avons mis en évidence que cette formation de NET participait à la physiopathologie de la thrombose, l’administration de DNAse entraînant une réduction de la survenue de thrombose. Enfin, nous avons démontré que les plaquettes JAK2V617F stimulaient la production de NET par les PNN JAK2V617F, suggérant une collaboration de ces deux types cellulaires au cours de la physiopathologie de la thrombose des NMP. / Myeloproliferative neoplasms (MPN) are acquired hematologic diseases of the hematopoietic stem cell (HSC) characterized by blood cell proliferation. An activating mutation of the protein JAK2 (JAK2V617F) has been identified in more than 50% of patients. The occurrence of arterial and venous thrombosis is one of the main complications during these diseases. We first studied the consequences of the presence of the JAK2V617F mutation in endothelial cells (EC) on the physiopathology of thrombosis. We used two complementary approaches, in vitro with the use of human venous endothelial cells, and in vivo with the use of a mouse model allowing the presence of the JAK2V617F mutation only in the endothelial compartment: the PDGFb-iCreERT2;JAK2V617F/WT model. We first observed that PDGFbiCreERT2; JAK2V617F/WT mice displayed a higher propensity for thrombosis. This increased thrombus formation was mediated by an increased leukocyte adhesion in presence of JAK2V617F EC, secondary to an increase in P-Selectin expression at their surface. This work made it possible to highlight a new mechanism of the physiopathology of thrombosis during JAK2V617F MPN. Then we studied neutrophils and the phenomenon of NETosis (formation of neutrophil extracellular traps or NET) during MPN. We demonstrated that NET formation was increased in a cohort of patients with MPN, such as indirect markers of NETosis (plasmatic DNA and MPO-DNA). We found that plasma MPO-DNA levels were higher in patients with a history of thrombosis compared to patients without. We confirmed these results using two different mouse models in which we also found increased NET formation. We found that NET formation was involved in the physiopathology of thrombosis, as DNAse administration resulted in a reduction of thrombosis occurrence. Finally, we demonstrated that JAK2V617F platelets stimulated NET formation by JAK2V617F neutrophils, suggesting collaboration of these two cell types during the physiopathology of thrombosis during MPN.

Thrombose

Néoplasies myéloprolifératives

Cellules endothéliales

Polynucléaires neutrophiles

Net

Mutation JAK2V617F

Thrombosis

Myeloproliferative neoplasms

Endothelial cells

Neutrophils

Net

JAK2V617F mutation

JAK2V617F-positive Myeloproliferative Neoplasms : KI mouse models, Interferon-α therapy and clonal architecture / JAK2V617F-positive Néoplasies Myéloprolifératifs : modèles murins KI, Interféron-α thérapie et architecture clonale

Hasan, Salma

27 November 2013

Ce travail concerne des hémopathies myéloïdes malignes appelés Néoplasmes Myéloprolifératifs (NMP) qui incluent les Polyglobulies de Vaquez (PV), les Thrombocythémies Essentielles (TE) et les Myélofibroses Primaires (MFP). Ces maladies résultent de la transformation d’une cellule souche hématopoïétique (CSH) avec hyperprolifération mais sans blocage de différentiation. Leur défaut moléculaire le plus fréquent est la mutation JAK2V617F résultant dans l’activation de la signalisation des récepteurs aux cytokines utilisant JAK2. Au cours de ce travail, nous avons développé un modèle murin « Knock-In » (KI) constitutif et conditionnel pour la mutation JAK2V617F. Ces animaux développent une maladie mimant la PV humaine évoluant vers la MF secondaire. Ces animaux présentent augmentation en fonction de l’âge du nombre de cellules immatures (phénotypes Lin-, LSK et SLAM: LSK/CD48-/CD150+). Dans un système compétitifs in vivo nous montrons que les cellules KI ont un avantage prolifératif dés le stade CSH et qu'un faible nombre de CSH peuvent déclencher la maladie. Ces résultats suggèrent que la mutation JAK2V617F seule est suffisante pour (1) le phénotype et (2) l'émergence de ces maladies. Nous avons aussi testé l'effet de l'interféron-a (IFNa) sur le développement des NMP en utilisant ces souris JAK2V617F KI. Nous montrons que l'IFNa traite le phénotype de la maladie en bloquant la propagation des cellules KI dés le stade immature avec éradication des cellules souches néoplasiques, entraînant comme chez certains patients PV une rémission hématologique et aussi moléculaire. Enfin, en combinant l’analyse quantitative de l’haplotype 46/1 et de la mutation JAK2V617F sur les cellules sanguines nous développons une nouvelle méthode prédictive de la fréquence des clones hétérozygotes et homozygotes JAK2V617F chez les patients PV. Cette étude suggère que l'IFNa cible préférentiellement le clone homozygote JAK2V617F et que sa réponse est fonction de l’intensité de la signalisation JAK2. / This work concerns malignant myeloid hemopathies called classical BCR-ABL-negative Myeloproliferative Neoplasms (MPN) and include Polycythemia Vera (PV), Essential Thrombocythemia (ET) and Primary Myelofibrosis (PMF). They result from the transformation of a multipotent hematopoietic stem cell (HSC) with hyperproliferation but no blockade of differentiation. The most common molecular defect is the acquired point mutation JAK2V617F resulting into the activation of the cytokine receptor/JAK2 pathway. We have developed a mouse constitutive and a conditional JAK2V617F knock-in (KI) mouse models. These animals developed a disease mimicking human PV evolving into secondary MF. They also displayed an age dependent increase in the total numbers of early hematopoietic cells (phenotype LK, LSK and SLAM: LSK/CD48-/CD150+). Using In vivo competitive repopulation assays we demonstrated that cells from KI origin outcompeted their WT counterparts and that a low number of JAK2V617F KI SLAM cells propagates the disease. These results show that the sole JAK2V617F mutation, without any additional mutations, is sufficient for disease phenotype and emergence. Using this KI mouse model, we tested the effect of interferon-a (IFNa) treatment on MPN development. We found that IFNa treats the disease phenotype by blocking the propagation of early JAK2V617F cells and eradicates disease-initiating cells, showing that IFNα could cure the disease in mice, as shown in some PV patients. Finally, we developed a new method combining the measurement of 46/1 SNPs and JAK2V617F allele burdens in blood predicting the frequency of normal, heterozygous and homozygous JAK2V617F clones in PV patients. This study suggested that IFNa preferentially targets the homozygous JAK2V617F clone in PV patients suggesting a link between the levels of JAK2 signaling and the success of the IFNa response.

Néoplasies Myéloprolifératifs

JAK2V617F

CSH

Interféron- α

Haplotype 46/1

Myeloproliferative Neoplasms

JAK2V617F

HSC

Interferon- α

Haplotype 46/1

Alterações da expressão de apoptomirs, de genes e proteínas pró- e anti-apoptóticos em Mielofibrose e Trombocitemia Essencial / Deregulated expression of apoptomirs and apoptosis-related genes and proteins in Primary Myelofibrosis and Essential Thrombocythemia

Tognon-Ribeiro, Raquel

11 October 2011

As Neoplasias Mieloproliferativas Crônicas (NMPC) Trombocitemia Essencial (TE), Mielofibrose (MF) - são desordens hematopoéticas resultantes da expansão clonal da célula tronco hematopoética alterada. Essas doenças caracterizam-se pela independência dos progenitores hematopoéticos aos estímulos dos fatores de crescimento e citocinas e pela proliferação exacerbada das células da linhagem mielóide com maturação preservada. Os mecanismos moleculares e celulares envolvidos na patogênese e progressão da TE e MF não foram ainda esclarecidos, mas o mieloacúmulo presente nessas doenças parece estar associado à alteração de proliferação e apoptose celular. Nesse contexto, os objetivos deste trabalho foram avaliar em células CD34+ da medula óssea e leucócitos dos pacientes com TE e MF: (1) a expressão de apoptomirs e de genes pró- e anti-apoptóticos pertencentes à via intrínseca e extrínseca da apoptose pela metodologia de RT-PCR em tempo real; (2) expressão de proteínas pró- e anti-apoptóticas por Western-blot; (3) o perfil de sensibilidade das células mononucleares à apoptose induzida por diferentes agentes apoptogênicos pela técnica de citometria de fluxo e (4) correlacionar os resultados obtidos com dados clínico-laboratoriais dos pacientes e com a expressão do gene PRV-1. Em TE, nas células CD34+, foi detectado aumento da expressão de a1, mcl-1, bid, bok e noxa e diminuição de bax em relação aos controles. Nos leucócitos, foi detectada a elevação da expressão de a1, bcl-2, bcl-w e bcl-xL, bad e bok e diminuição de bid e bimEL. Em comparação com o grupo controle, os pacientes com MF apresentaram maior expressão dos genes a1, bcl-w bak, bok e noxa e menor de bcl-2 nas células CD34+. Nos leucócitos dos pacientes com MF foi verificado aumento da expressão dos genes bcl-2, bcl-w e bcl-xL, bad e bok. O c-iap-1 apresentou maior expressão nas células CD34+ dos pacientes com MF e TE, enquanto que o c-iap-2 estava elevado nos leucócitos e células CD34+. Foi ainda detectada a expressão diferencial em TE e MF dos genes pertencentes a via de receptor de morte, como a maior expressão dos genes fas, fas-L, faim e dr4 nas células CD34+ dos pacientes e menor expressão do fas-L e trail nos leucócitos dos pacientes com TE e MF. Os resultados indicaram associação da expressão do gene PRV-1 com a mutação JAK2V617F e com a expressão dos genes a1, bcl-w, bik, bax, c-iap-2 e trail. Com relação à expressão proteica, BCL-XL estava aumentada e TRAIL diminuída em leucócitos de pacientes com MF enquanto que a molécula BID estava diminuída em leucócitos de pacientes com TE. Os miRNA26a, let 7d e miR15a estavam mais expressos nos leucócitos de pacientes com TE e MF. Em pacientes com TE o miR130b estava elevado e o mIR16 diminuído, enquanto que nos pacientes com MF o miR198 estava aumentado. Os linfócitos dos pacientes com TE e MF apresentaram maior resistência à apoptose estimulada por: actinomicina, etoposídeo, teniposídeo, citarabina e estaurosporina do que os linfócitos dos controles. Em conclusão, os dados obtidos sugerem a ligação da alteração do processo de apoptose celular, com a expressão do gene PRV-1 e status da mutação JAK2V617F. Esses resultados contribuem para o melhor entendimento da fisiopatologia das NMPC visto que associam a fisiopatologia da TE e MF com a resistência das células alteradas à apoptose. Essas informações serão úteis no futuro, possibilitando o desenho de novos alvos terapêuticos e a descrição de novos marcadores de prognóstico. / Chronic Myeloproliferative Neoplasms (cMPN) - Essential Thrombocythemia (ET), Primary Myelofibrosis (PMF) and Polycythemia Vera (PV) - are clonal hematopoietic stem cell malignancies characterized by an accumulation of mature myeloid cells in bone marrow and peripheral blood. It seems that apoptotic machinery deregulation contribute to ET and PMF pathogenesis. Despite the advances in the molecular knowledge, the physiopathology of these diseases remains unknown. This study investigated cellular and molecular mechanisms involved in apoptosis process regulation in bone marrow haematopoietic progenitor CD34+ cells and leukocytes from ET and PMF patients. The specifics aims were: (1) to evaluate death receptors family members and Bcl-2 related genes expression as well apoptosis-related microRNAs by Real Time PCR; (2) apoptosis-related protein expression by Western Blot; (3) access mononuclear cells apoptosis resistance by flow cytometry and (4) to correlate the results with JAK2V617F mutation, PRV-1 gene expression and as well clinical data. In ET CD34+ cells, we found overexpression of a1, mcl-1, bid, bok e noxa and a decrease of bax compared to controls, while in leukocytes a1, bcl-2, bcl-w e bcl-xL, bad e bok expression was increased and bid and bimEL expression was lower than in controls. In PMF, a1, bcl-w bak, bok e noxa were overexpressed and bcl-2 downregulated in CD34+ cells. In PMF leukocytes bcl-2, bcl-w e bcl-xL, bad e bok mRNA levels were increased. c-iap-1 was increased in ET and PMF CD34+ cells and c-iap-2 expression elevated in ET and PMF CD34+ cells and leukocytes. Death receptor related genes showed overexpression of fas, fas-L, faim and dr4 in patients CD34+ cells and downregulation of fas-L and trail in ET and PMF leukocytes. We found differential expression of several genes between patients JAK2V617F positive and negative, as well we found correlation between gene expression and JAK2V617F allele burden, white blood cells and platelets count and splenomegaly. PRV-1 gene was overexpressed in ET and PMF leukocytes and showed correlation with JAK2V617F mutation and a1, bcl-w, bik, bax, c-iap-2 and trail gene expression. Regarding protein expression, BCL-XL was increased and TRAIL decreased in PMF leukocytes and BID was decreased in ET leukocytes. miRNA26a, let 7d e miR15a was overexpressed in ET and PMF leukocytes, while miR130b was increased only in ET and miR198 only in PMF. miR16 was downregulated in ET leukocytes comparing to controls. We also detected a resistance to apoptosis-inducers in ET and PMF lymphocytes and we observed correlation between apoptosis percentage and the expression of many studied genes. In conclusion, the results indicate the participations of Bcl-2 family genes and Death Receptor pathway genes, as well PRV-1 and JAK2V617F mutation in these disorders, which contribute to elucidate cMPN physiopathology and might lead to the discovery of new cMPN therapies and molecular markers.

Apoptose

Apoptosis

Essential Thrombocythemia

Expressão Gênica

Gene Expression

microRNA

microRNA

Mielofibrose

Myelofibrosis

Myeloproliferative Neoplasms

Neoplasias Mieloproliferativas Crônicas

Trombocitemia Essencial

The Role of MEK in Leukemogenesis

Chung, Eva

January 2011

<p>Hematopoiesis is the continual process of blood cell generation that primarily occurs in the bone marrow of adult animals. Hematologic neoplasms can also occur in the bone marrow and often result from dysregulation of signal transduction pathways. One example is the activation of the Ras oncogene, which has been linked to a variety of different cancers, including hematologic neoplasms. Ras is located proximal to the cell membrane and can activate many downstream effector pathways, thus it is difficult to determine which downstream pathway is mediating oncogenic Ras function. My thesis work focused on the effect of inappropriate activation of MEK/ERK, a downstream Ras effector pathway, in the hematopoietic system.</p><p>Using a retroviral transduction system, we expressed a constitutively active form of MEK1 in hematopoietic stem cells (HSCs). Mice transplanted with HSCs expressing active MEK developed a lethal myelodysplastic syndrome/myeloproliferative disease (MDS/MPN) characterized by the expansion of granulocytes/macrophages (GM) at the expense of lymphoid cell development. Transplantation of active MEK-induced MDS/MPNs into naïve mice did not result in further disease, suggesting that the MDS/MPN is not a frank leukemia.</p><p>Bcl-2 is an anti-apoptotic molecule that has been shown to play a role in leukemia development and maintenance. Coupling expression of active MEK and Bcl-2 resulted in MDS/MPNs that were phenotypically identical and had very similar disease onset compared to active MEK-induced MDS/MPNs. However, transplantation of Bcl-2/active MEK-induced MDS/MPNs did not result in a myeloid disease; rather, it resulted in the development of T-acute lymphoblastic leukemia (T-ALL) that was marked by activated Notch signaling. </p><p>These results led us to conclude that activation of MEK/ERK was sufficient to cause a pre-leukemic myeloid disease; however, additional oncogenic factors, such as Bcl-2 and Notch, were necessary for frank leukemia development. Moreover, additional oncogenic factors can alter the disease phenotype and disease course. Future analysis of the interplay between oncogenic factors will help shed light on disease development and aid in the development of more effective cancer treatments.</p> / Dissertation

Immunology

Oncology

Bcl-2

MAP kinase

myelodysplastic syndrome (MDS)

myeloproliferative neoplasm (MPN)

T-actue lymphoblastic leukemia (T-ALL)

Expressão dos genes da via mTORC1 e seu envolvimento nas Neoplasias Mieloproliferativas / A. mTORC1 gene expression and involvement in Myeloproliferative Neoplasms

Natália de Souza Nunes

09 March 2016

As Neoplasias Mieloproliferativas (NMPs) se caracterizam por apresentarem acúmulo de eritrócitos, leucócitos e plaquetas morfologicamente normais e seus precursores. Nos últimos anos vários estudos buscaram conhecer os mecanismos celulares e moleculares envolvidos na fisiopatologia e evolução dessas desordens, com o intuito de encontrar marcadores de diagnóstico, prognóstico e terapias eficazes. A mutação pontual no gene que codifica a enzima Janus Kinase 2 (JAK2 V617F), presente em aproximadamente 90% dos pacientes com PV e em 50% dos pacientes com TE e MF, foi o principal achado genético anormal associado a essas doenças. Essa mutação resulta na ativação constitutiva da enzima JAK2 e na desregulação da proliferação celular e resistência à apoptose. Nosso grupo de pesquisa descreveu em PV, TE e MF a expressão alterada de genes reguladores da apoptose e dados da literatura indicam que a desregulação do ciclo celular contribui para a fisiopatologia das NMPs. Nesse projeto o intuito foi investigar a associação da via de sinalização m-TOR com as alterações do ciclo celular e via JAK/STAT nas NMPs. A via de sinalização m-TOR participa dos processos celulares de sobrevivência e proliferação. A estratégia experimental foi avaliar a expressão de genes e proteínas, reguladores da via m-TOR, em leucócitos de pacientes com NPMC e linhagens celulares JAK2+ tratadas com inibidores de JAK2 e AKT. Para determinar a relação da via m-TOR nas NMPs foi escolhido o gene eIF4E, alterado nessas doenças, para observar sua modulação diante da inibição farmacológica nas linhagens celulares JAK2 positivas. Os resultados desse estudo contribuem para a descrição de novos alvos terapêuticos dependentes e indepentendes da atividade quinase JAK2 e para o melhor conhecimento da participação da via de sinalização m-TOR na fisiopatologia das NMPs. / The myeloproliferative neoplasms (MNPs) are characterized by accumulation of erythrocytes, leukocytes and platelets morphologically normal and their precursors. In recent years several studies have sought to understand the cellular and molecular mechanisms involved in the pathophysiology and progression of these disorders in order to find diagnostic and prognostic markers and effective therapies. The point mutation in the gene encoding the enzyme Janus kinase 2 (JAK2 V617F), present in approximately 90% of PV patients and in 50% of patients with ET and MF was the main abnormal genetic finding associated with these diseases. This mutation results in constitutive activation of JAK2 enzyme and the deregulation of cell proliferation and resistance to apoptosis. Our research group described in PV, ET and MF altered expression of apoptosis regulatory genes and literature data suggest that deregulation of the cell cycle contributes to the pathophysiology of MNPs. In this project the aim was to investigate the signaling pathway of the association m-TOR with the changes of the cell cycle and JAK / STAT in NMPs. The signaling pathway participates in the m-TOR cell survival and proliferation processes. The experimental strategy was to evaluate the expression of genes and proteins, regulators of m-TOR pathway in leukocytes from patients with and NPMC cell lines treated with the JAK2 JAK2 + and AKT inhibitors. To determine the relationship of m-TOR pathway with MNPs has been selected the eIF4E gene deregulated in these disorders to observe their modulation in pharmacologically inhibited cells lines JAK 2 positive. Results of this study contribute to the description of new therapeutic targets of dependent and independent JAK2 kinase activity and to a better understanding of the signaling pathway of participation m-TOR in the pathophysiology of NMPs.

ciclo celular

mutação JAK2V617F.

Neoplasias Mieloprolifertivas

Via de sinalização mTORC1

cell cycle

JAK2V617F mutation

mTORC1 pathway

Myeloproliferative Neoplasms

Expressão gênica de metaloproteinases e de seus reguladores em neoplasias mieloproliferativas: associação com biomarcadores de angiogênese e status mutacional / Gene expression of metalloproteinases and theirs regulators myeloproliferative neoplasms: association with angiogenesis markers and mutational status.

Luciene Terezina de Lima

05 May 2016

As neoplasias mieloproliferativas (NMPs) BCR-ABL1 negativas compreendem a mielofibrose primária (PMF), trombocitemia essencial (TE) e a policitemia vera (PV). A patogênese e progressão dessas NMPs não estão completamente elucidadas. As metaloproteinases de matriz (MMPs) degradam a matriz extracelular, ativando citocinas e fatores de crescimento que, por sua vez, participam da tumorigênese e angiogênese. O objetivo deste estudo foi avaliar a relação da expressão gênica das MMPs, TIMPs, HIF1-&#945; e SPARC com os marcadores angiogênicos bFGF e VEGFA em pacientes com MF e TE, considerando o status mutacional; bem como avaliar a regulação desses genes em camundongos submetidos à hipóxia, e em modelos HIF1-&#945;(-/-) e VHL(-/-). Foram incluídos 21 pacientes com MF, 21 com MF pós-TE, 6 com MF pós-PV, 23 com TE e 78 indivíduos controle. As análises realizadas foram: dosagem sérica e expressão de RNAm de MMP2, MMP9, TIMP1, TIMP2 e SPARC, hemograma, determinação da proteína C reativa ultrassensível, determinação das concentrações de VEGFA e bFGF e avaliação das mutações nos genes JAK2, cMPL e CALR. A avaliação da densidade microvascular da medula óssea foi feita em 30 dos pacientes incluídos. Os pacientes com MFP, MFPTE e TE apresentaram maior expressão de MMP2, SPARC, TIMP1, TIMP2 e bFGF quando comparados aos seus controles (P<0,05), enquanto MMP9 foi mais expressa nos pacientes com MFPTE e TE (P= 0,011 e P=0,047, respectivamente). Os pacientes com TE apresentaram maior expressão de HIF1-&#945; e VEGFA em relação ao grupo controle (P<0,05). Pacientes com MF JAK2V617F positivos apresentaram maiores concentrações de MMP9, TIMP2, bFGF e VEGFA quando comparados aos pacientes portadores de mutações na CALR (P<0,05). Os pacientes com TE JAK2V617F positivos apresentaram maiores concentrações de MMP2 e TIMP2 (P=0,049 e P=0,020, respectivamente). As concentrações das proteínas estudadas não apresentaram correlação com a carga alélica de JAK2V617F e nem com a densidade microvascular da medula óssea. Células de medula óssea de camundongos submetidos à hipóxia apresentaram maior expressão de MMP2 e TIMP1 comparados aos camundongos em normóxia. Camundongos VHL(-/-) apresentaram aumento na expressão dos genes MMP2, MMP9, TIMP1, TIMP2 e VEGFA. Diferentemente, embriões HIF1-&#945;(-/-) não foram considerados um bom modelo para este estudo devido ao envolvimento das MMPs na embriogênese/organogênese. Frente aos resultados encontrados, pode-se sugerir que a maior expressão de MMP2, SPARC e de bFGF estão associadas às NMPs. A mutação JAK2V617F foi associada a maiores concentrações de MMPs, TIMP2 VEGFA e bFGF. HIF1-&#945; foi mais expresso na PV e na TE, sugerindo uma possível regulação da expressão das MMPs e TIMPs nessas doenças. / Myeloproliferative neoplasms (MPNs) BCR-ABL1-negative include primary myelofibrosis (PMF), essential thrombocythemia (ET) and polycythemia vera (PV). The mechanisms underlying the pathology and disease progression in MPN are not completely elucidated. The matrix metalloproteinases (MMPs) cleave extracellular matrix, activating cytokines and growth factors that, in turn, regulate tumorigenesis and angiogenesis. The aim of this study was to evaluate the relationship of MMPs, TIMPs, HIF1-&#945 and SPARC gene expression with angiogenic markers bFGF and VEGFA in patients with MPN considering their mutational status; as well as to assess the regulation of these genes in animal models HIF1-&#945 and VHL knockouts. Twenty-one MF, 21 MF post-ET, 6 MF post-PV, 23 ET patients and 78 controls were enrolled. The analysis performed in peripheral blood were: serum and mRNA expression of MMP2, MMP9, TIMP1, TIMP2 and SPARC, blood count, high-sensitivity C-reactive protein determination and VEGFA and bFGF measurements in plasma. We also evaluate mutations in JAK2, MPL and CALR. The assessment of microvascular density (MVD) in bone marrow was performed in 30 patients. Patients with MFP, MFPET and ET presented higher expression of MMP2, SPARC, TIMP1, TIMP2 and bFGF compared to their controls (P <0.05), while MMP9 expression was higher in patients with MFPET and ET (P=0.011 and P=0.047, respectively). Higher expression of HIF1-&#945; and VEGFA was found in ET patients compared to the controls (P <0.05). PMF JAK2V617F patients had higher concentrations of MMP9, TIMP2, bFGF and VEGFA compared to CALR mutated ones (P <0.05). ET patients JAK2V617F positive had higher levels of MMP2 and TIMP2 (P=0.049 and P=0.020, respectively). The JAK2V617F allele burden was not associated with MVD in the bone marrow. Bone marrow cells from mice in hypoxia condition showed higher MMP2 and TIMP1 expression compared to the control. VHL(-/-) mice exhibited increased expression of MMP2, MMP9, TIMP1, TIMP2 and VEGFA. In contrast, the HIF1-&#945;(-/-) embryos were not considered an applicable model for this study due to MMPs role in embryogenesis/organogenesis. In view of these findings, we can conclude that increased expression of MMP2, SPARC and bFGF are associated with MPN. The JAK2V617F mutation was associated with higher concentrations of MMPs, TIMP2 VEGFA and bFGF. HIF1-&#945; is upregulated in PV and ET and perhaps regulate the MMPs and TIMPs expression in these diseases.

Angiogênese

Expressão gênica

Metaloproteinases de matriz

Neoplasias mieloproliferativas

Status mutacional

Angiogenesis

Gene expression

Matrix metalloproteinases

Mutational status

Myeloproliferative neoplasms