Estudo comparativo entre diferentes metodologias na detecção da mutação JAK2V617F em Neoplasias Mieloproliferativas Crônicas BCR-ABL1 negativo / Comparative analysis among different techniques for JAK2V617F mutation in BCR-ABL1 negative myeloproliferative neoplasm

Alline Didone

30 November 2015

As Neoplasias mieloproliferativas (NMP) representam um vasto grupo de doenças clonais hematológicas malignas com três elementos principais: Policitemia vera (PV), Trombocitemia essencial (TE), e Mielofibrose Primária (MFP). JAK2 é uma proteína citoplasmática com atividade de tirosina quinase com função na transdução de várias vias na hematopoiese. A identificação da mutação do gene JAK2 (JAK2V617F) nas PV, TE e MFP representa um importante avanço para a compreensão da biologia destas NMPs. Variações marcantes na frequência desta mutação são observadas entre os diferentes estudos e acredita-se que um dos fatores responsáveis por estas diferenças seja a sensibilidade do método utilizado. Atualmente, diversas técnicas para detecção de JAK2V617F têm sido utilizadas, testadas e validadas quanto à sua sensibilidade e especificidade, entre elas: PCR RFLP (Restriction Fragment Lenght Polymorphysm), ARMS PCR (Amplification-Refractory Mutation System), HRM (High-Resolution Melt Analysis) e Sequenciamento pela técnica de Sanger. Neste estudo foram realizadas todas as metodologias citadas anteriormente para a detecção da mutação de JAK2V617F em amostras de sangue de 136 pacientes (PV=20; MFP=20; TE=28; suspeita de NMP=68). Os resultados obtidos foram concordantes para as quatro técnicas empregadas nos pacientes com PV e MFP, já nos pacientes com TE as metodologias PCR-ARMS e PCR-HRM detectaram a mutação JAK2V617F em 67,8% enquanto o PCR-RFLP e o Sequenciamento pela técnica de Sanger foi 71,4% e 64,2% respectivamente. Nos casos onde houve suspeita diagnóstica de NMP também foram encontradas discordâncias entre as metodologias PCR-RFLP (4,4%) e PCR-HRM (1,5%) quando comparadas ao PCR-ARMS (3%) e o Sequenciamento (3%). O PCR-ARMS foi considerado nesse estudo como a melhor técnica para a detecção da mutação JAK2V617F, devido o menor risco de contaminação cruzada durante a reação, baixo tempo de execução, além da sua capacidade de determinação da carga alélica de JAK2, importante para o acompanhamento do paciente / Myeloproliferative neoplasms (MPN) represent a large group of clonal hematologic malignant diseases with three main members: Polycythemia Vera (PV), Essential Thrombocythemia (ET), and Primary Mielofibroses (PMF). JAK2 is a cytoplasmic tyrosine kinase protein and is important in different signal transduction pathways. Identification of JAK2V617F mutation in PV, ET and PMF is an important advance for understanding the biology of MPN. Differences in the frequency of this mutation are reported among different studies and it is believed that technical sensitivity could be the major reason for this variability. Currently, several techniques for detection of JAK2V617F have been developed, tested and validated for their sensitivity and specificity, including: PCR-RFLP (Restriction Fragment Lenght Polymorphysm), PCR-ARMS (Amplification Refractory Mutation System), PCR-HRM (High-Resolution Melt analysis) and Sanger Direct Sequencing. The present study, evaluated all four molecular diagnostic methods mentioned above blood samples from 136 patients (PV=20; MFP=20; ET=28 and other MPN=68). Comparable results were observed for PV and PMF when all technics were applied. Patients with diagnosis of ET JAK2V617F mutations were detected in 67.8% when PCR-ARMS and PCR-HRM were used whilst PCR-RFLP and direct sequencing detected 71.4% and 64.2% respectively. In 68 patients with suspicion of MPN discordant results were seen between PCR-RFLP (4.4%) and PCR-HRM (1.5%) when compared to PCR-ARMS (3%) and direct sequencing (3%) related to JAK2V617F frequency. In conclusion PCR-ARMS was considered the most reliable methodology for JAK2V617F detection by presenting the lowest risk for cross contamination, less laborious, and the ability in determining allele burden that is becoming an important tool for risk stratification

Janus Quinase 2

Mielofibrose primária

Mutação

Neoplasias hematológicas

Neoplasias mieloproliferativas

Policitemia Vera

Reação em cadeia da polimerase

Trombocitemia essencial

Essential thrombocythemia

Hematological neoplasms

Janus Quinase 2

Mutation

Myeloproliferative diseases

Polycythemia Vera

Polymerase chain reaction

Primary mielofibroses

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

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