Papel do gene da síndrome de Wiskott Aldrich (WASP) na leucemia mielóide crônica. / The role of Wiskott Aldrich syndrome protein (WASP) in the chronic myeloid leukemia.

Pereira, Welbert de Oliveira

04 November 2011

Bcr-Abl é a tirosina quinase (TK) responsável por causar a Leucemia Mielóide Crônica (LMC). Os últimos estudos de follow-up mostram que apenas 50% dos pacientes tratados com a segunda geração de inibidores de TK atinge a remissão completa, o que significa que metade desses pacientes necessita de um algo melhor do que está disponível. Wiskott Aldrich Syndrome Protein (WASP) é um gene essencial para o bom desenvolvimento e função das células hematopoiéticas. Ante esse contexto, decidimos investigar se WASP poderia ter algum papel ou relevância na LMC. Em conclusão, Bcr-Abl suprime a expressão WASP por um mecanismo epigenético. A re-expressão de WASP torna as células mais suscetíveis à apoptose em resposta ao Imatinib. Sugerimos que a recuperação da expressão WASP deve ser discutida como estratégia para a terapia da LMC. / Bcr-Abl is the tyrosine kinase (TK) responsible for causing Chronic Myeloid Leukemia (CML). This fusion protein up- and down-regulates several genes and pathways, producing a strong resistance to apoptosis and a blockage of cell maturation in the hematopoietic compartment. The last follow-up studies provided that only 50% of the patients treated with second generation achieve complete remission, what means that one-half of these patients needs something better. Wiskott Aldrich Syndrome Protein (WASP) is an essential gene for the proper development and function of the hematopoietic cells. In the light of this background, we decided to investigate if WASP could have some role or relevance in the CML context. In conclusion, Bcr-Abl suppresses WASP expression by an epigenetic mechanism. The re-expression of WASP makes the CML cells more susceptible to apoptosis and contribute to respond to Imatinib. We suggest that recovery of WASP expression should be discussed as a new and additional strategy for CML therapy.

Apoptose

Apoptosis

Células cultivadas de tumor

Chronic myeloid leukemia

Leucemia mieloide

Leucemia mielóide crônica

Marcador molecular

Molecular marker

Myeloid leukemia

Neoplasias

Neoplasms

Tumor cells grown

Efeito da L- aminoácido oxidase de Calloselasma rhodostoma (CR-LAAO) na indução de apoptose e modulação de microRNAs em células Bcr-Abl positivas / L-amino acid oxidase from Calloselasma rhodostoma (CR-LAAO) apoptosis induction and microRNAs modulation effect on Bcr-Abl positive cells

Burin, Sandra Mara

23 October 2015

A leucemia mielóide crônica (LMC) é uma doença mieloproliferativa clonal caracterizada pela presença do cromossomo Philadelphia e o oncogene BCR-ABL1. Este oncogene codifica a oncoproteína Bcr-Abl com atividade tirosina-quinase constitutiva. A proteína Bcr-Abl é responsável pela resistência das células leucêmicas a apoptose. Atualmente, os pacientes com LMC são tratados com os inibidores de tirosina-quinase - mesilato de imatinibe, dasatinibe e nilotinibe. Apesar de o tratamento ser eficiente, pacientes em fases avançadas e mesmo na fase crônica da doença, apresentam resistência à terapia. Desta forma, novos fármacos devem ser investigados para melhorar o tratamento da LMC. As L-aminoácido oxidases (LAAOs) têm sido descritas como substâncias citotóxicas e indutoras de apoptose. Assim, o principal objetivo do presente estudo foi investigar o potencial antitumoral da LAAO isolada da serpente Calloselasma rhodostoma (CR-LAAO) nas células Bcr-Abl positivas. Avaliou-se a citotoxicidade da CR-LAAO nas linhagens HL-60 (linhagem Bcr-Abl negativa), HL-60.Bcr-Abl, K562 e KCL22 (linhagens Bcr-Abl positivas) e nas células mononucleares (MNC) de sangue periférico de indivíduos saudáveis, na presença ou ausência da catalase. Para investigar os mecanismos da ação citotóxica da CR-LAAO, realizou-se os ensaios de indução de apoptose por meio da quantificação das percentagens de núcleos hipodiplóides e anexina V-FITC, nas linhagens celulares e nas células MNC de indivíduos saudáveis e pacientes com LMC. Avaliou-se também os níveis de expressão das caspases 3, 8 e 9, o potencial de membrana mitocondrial, danos no DNA e o efeito apoptótico da toxina combinada com os inibidores de tirosina-quinase nas linhagens Bcr-Abl positivas. Além disso, investigamos se a CR-LAAO foi capaz de modular a expressão dos apoptomiRs miR-15a, miR-16, miR-145, miR-26a, hsa-let-7d, miR-142-3p, miR-29c, miR-146a, miR-21, miR-130a e miR-130b, assim como das proteínas pro- e anti-apoptóticas Bak, Bax, Bid, Bim, A1, Bcl-2, c-Flip, Ciap-2 e Mcl-1 nas linhagens Bcr-Abl positivas. Nossos resultados mostraram que o efeito citotóxico da CR-LAAO foi mais potente nas linhagens Bcr-Abl positivas em relação às células MNC de indivíduos saudáveis, e está associado ao peróxido de hidrogênio produzido durante a reação enzimática da CR-LAAO. Demonstrou-se também que a CR-LAAO induziu apoptose nas linhagens Bcr-Abl postivas testadas e nas células MNC de pacientes com LMC na fase crônica da doença. Em todas as linhagens celulares detectou-se danos no DNA, perda do potencial de membrana e ativação das caspases 3, 8 e 9. A percentagem de apoptose aumentou quando as células HL-60.Bcr-Abl foram tratadas com a CR-LAAO combinada com os inibidores de tirosina-quinase. A CR-LAAO modulou a expressão dos apoptomiRs miR-15a, miR-16, miR-145, miR-26a, hsa-let-7d, miR-142-3p, miR-29c, miR-21, miR-130a e miR-130b e de possíveis proteínas alvos nas linhagens Bcr-Abl positivas. Sendo assim, os resultados obtidos sugerem que a CR-LAAO apresenta uma ação antitumoral capaz de destruir as células leucêmicas / Chronic myeloid leukemia (CML) is a clonal myeloproliferative disease characterized by the presence of Philadelphia chromosome and BCR-ABL1 oncogene. This oncogene encodes the Bcr-Abl tyrosine kinase (TK) which presents a constitutive activity. The Bcr-Abl is responsible for leukemic cells resistance to apoptosis. The CML patients are currently treated with tyrosine kinase inhibitors (TKI) - imatinib mesylate, dasatinib and nilotinib. Although TKI are efficient for CML treatment, patients in advanced phases and even in chronic phase of the disease present resistance to therapy. Thus, potential new drugs must be investigated to improve the CML treatment. The L-amino acid oxidases (LAAOs) have been described as cytotoxic and apoptosis-inducing substances. Here, we investigated the LAAO from Calloselasma rhodostoma (CR-LAAO) antitumoral potential against Bcr-Abl positive cells. We evaluated the CR-LAAO cytotoxic effect against HL-60 (Bcr-Abl negative cell line), HL-60.Bcr-Abl, K562, KCL22 (Bcr-Abl positive cell lines) and the peripheral blood mononuclear cells (PBMC) from healthy subjects, in the presence or absence of catalase. To investigate the mechanisms underlying the CR-LAAO cytotoxic action, we performed the apoptosis induction assays through the hypodiploid nuclei and annexin-V quantification in the cell lines and PBMC from healthy subjects and CML patients. We also evaluated the levels of caspases 3, 8 and 9 expression, the mitochondrial membrane potential, DNA damage and the apoptotic effect of CR-LAAO combined with TKI on Bcr-Abl positive cells. In addition we investigated if CR-LAAO was capable of modulating the apoptomiRs miR-15a, miR-16, miR-29c, hsa-let-7d, miR-145, miR-146a, miR-21, miR-130a, miR-130b, miR-142-3p and miR-26a, the pro- and anti-apoptotic proteins (Bak, Bax, Bid, Bim, A1, Bcl-2, c-Flip, Ciap-2 and Mcl-1 expression in HL-60, HL-60.Bcr-Abl, K562 and KCL22 cells. Our results showed that the CR-LAAO cytotoxic effect was more potent in Bcr-Abl positive cell lines than in PBMC from healthy subjects and it is linked to hydrogen peroxide produced during the enzymatic action of CR-LAAO. It was also demonstrated that CR-LAAO was capable of inducing apoptosis in Bcr-Abl positive cell lines and CML patient\'s cells in chronic phase of the disease. In all tested cell lines, the loss of mitochondrial membrane potential, DNA damage and caspases 3, 8 and 9 activation were detected. The apoptosis percentage was improved when HL-60.Bcr-Abl cells were treated with CR-LAAO combined with TKI. The CR-LAAO modulated the apoptomiRs miR-15a, miR-16, miR-145, miR-26a, hsa-let-7d, miR-142-3p, miR-29c, miR-21, miR-130a and miR-130b expression as well the predict target proteins levels on Bcr-Abl positive cells. Thus, our results suggest that CR-LAAO presents an antitumoral action capable of destroying the CML cells.

apoptomiRs

apoptomiRs

apoptose

apoptosis

Calloselasma rhodostoma

Calloselasma rhodostoma

Chronic myeloid leukemia

inibidor de tirosina-quinase

L-amino acid oxidase

L-aminoácido oxidase

Leucemia mielóide crônica

tyrosine-kinase inhibitor

Investigação do efeito da inibição farmacológico de IGF1R-IRS1/2 no fenótipo de células leucêmicas BCR-ABL1+ / Investigation of the effects of IGF1R-IRS1/2 pharmacological inhibition on the phenotype of BCR-ABL1+ leukemic cells

Renata Scopim Ribeiro

19 September 2017

Leucemia mieloide crônica (LMC) é uma neoplasia hematológica maligna associada à atividade tirosinoquinase da oncoproteína BCR-ABL1. A maioria dos casos de LMC é tratada com sucesso com inibidores tirosinoquinase de BCR-ABL1, mas uma porcentagem significativa de pacientes desenvolve resistência ao fármaco. Estudos recentes indicam que a célula-tronco leucêmica é resistente ao tratamento com imatinibe. A identificação de outras proteínas que cooperam com as vias de sinalização BCR-ABL1 podem indicar novos alvos terapêuticos. Os substratos do receptor de insulina (IRS) têm emergido como proteínas importantes na fisiopatologia de neoplasias sólidas e hematológicas. Um inibidor farmacológico de IGF1R-IRS1/2, NT157, foi desenvolvido e mostrou resultados promissores em estudos pré-clínicos com tumores sólidos. A associação constitutiva de IRS1 com BCRABL1 e o efeito antineoplásico resultante do silenciamento espefício de IRS1 em células K562 BCR-ABL1+ suportam a hipótese deste trabalho. O objetivo do presente estudo foi investigar o efeito da inibição farmacológica de IGF1R-IRS1/2 no fenótipo de células hematopoéticas leucêmicas BCR-ABL1+ utilizando células primárias, células K562 e modelos murinos. IRS1, mas não IRS2, apresentou-se menos expresso em amostras de medula óssea de pacientes com diagnóstico de LMC quando comparadas às amostras de células hematopoéticas normais (p<0,0001). NT157 reduziu a formação de colônias de células primárias de pacientes com LMC, mas não de células hematopoéticas de indivíduos saudáveis. Em células K562, o tratamento com o inibidor farmacológico de IGF1R-IRS1/2, NT157, reduziu a viabilidade e proliferação celular e induziu apoptose (p<0,05), inibiu a fosforilação de IGF1R, STAT3, STAT5, 4EBP1, P70S6K e ERK1/2, aumentou a expressão dos genes supressores de tumor CDKN1A, FOS e JUN e reduziu a expressão dos oncogenes MYC e BCL2 (p<0,05); a inibição específica de IRS1 através de lentivírus, mas não de IRS2, reduziu a viabilidade celular (p<0,05). Em células murinas Ba/F3 BCR-ABL1 e BCRABL1T315I, o inibidor farmacológico de IGF1R-IRS1/2, NT157, induziu apoptose e reduziu ativação de ERK1/2 in vitro. Na dose de 50mg/kg/dia, NT157 intraperitoneal e/ou imatinibe por gavagem falharam em reduzir o crescimento tumoral in vivo em modelo de tumor alográfico induzido por células Ba/F3 BCR-ABL1 e BCR-ABL1T315I. Em modelo animal de leucemia induzido por transplante de células hematopoéticas transduzidas com BCR-ABL1: (i) o tratamento com NT157 100mg/kg intraperitoneal, 3 vezes por semana, combinado com imatinibe 100mg/kg/dia por gavagem, reduziu significativamente o peso do baço, e preveniu a perda de peso comparado com veículo (p<0,05); apenas a monoterapia com imatinibe prolongou a sobrevida dos animais, (ii) o tratamento com NT157 70mg/kg intraperitoneal, 3 vezes por semana, e/ou imatinibe 70mg/kg/dia por gavagem não teve impacto no peso do baço e na variação do peso corporal; o tratamento com imatinibe em monoterapia ou combinado com NT157 prolongou a sobrevida dos animais (p<0,05). Em conclusão, o inibidor farmacológico de IGF1R-IRS1/2 representa uma droga potencialmente eficaz no tratamento da LMC, especialmente em casos de resistência com mutação BCR-ABL1 T315I. A avaliação da eficácia do inibidor farmacológico NT157 em modelos animais de LMC exige ajustes nos modelos murinos utilizados no presente estudo, melhor entendimento da farmacodinâmica e farmacocinética do composto e ajustes no esquema terapêutico utilizado. / Chronic myeloid leukemia (CML) is a hematological malignancy associated with the tyrosine kinase activity of the BCR-ABL1 oncoprotein. Most cases of CML are successfully treated with BCR-ABL1 tyrosine kinase inhibitors, but a significant percentage of patients develop resistance. Recent studies indicate that leukemic stem cell is resistant to imatinib treatment. The identification of other proteins that cooperate with the BCR-ABL1 signaling pathway may indicate novel therapeutic targets. Insulin receptor substrates (IRS) have emerged as important proteins in the pathophysiology of solid and hematological neoplasms. A pharmacological inhibitor of IGF1R-IRS1/2, NT157, has been developed and shown promising results in preclinical studies with solid tumors. The constitutive association of IRS1 with BCR-ABL1, and the antineoplastic effects resulting from IRS1-specific silencing in K562 BCR-ABL1+ cells, support the hypothesis of this work. The aim of the present study was to investigate the effect of pharmacological inhibition of IGF1R-IRS1/2 on the phenotype of BCR-ABL1+ leukemia cells, using primary cells, K562 cell line and murine models. IRS1, but not IRS2, was downregulated in bone marrow samples from CML patients compared to bone marrow cells from healthy donors (p<0.0001). NT157 reduced colony formation of primary cells from CML patients but not from healthy donors. In K562 cells, treatment with the pharmacological inhibitor IGF1R-IRS1/2, NT157, reduced cell viability and proliferation, induced apoptosis (p<0.05), inhibited the phosphorylation of IGF1R, STAT3, STAT5, 4EBP1, P70S6K and ERK1/2, increased expression of tumor suppressor genes CDKN1A, FOS and JUN, and reduced expression of oncogenes MYC and BCL2 (p<0.05); IRS1 silencing mediated by lentivirus, but not IRS2, reduced cell viability (p<0.05). In murine Ba/F3 BCRABL1 and Ba/F3 BCR-ABL1T315I cells, the pharmacological inhibitor of IGF1R-IRS1/2, NT157, induced apoptosis and reduced ERK1/2 activation in vitro. At 50mg/kg/day, NT157 intraperitoneally and/or imatinib orally, failed to reduce tumor burden in vivo in an allographic tumor model induced by Ba/F3 BCR-ABL1 and Ba/F3 BCR-ABL1T315I cells . In an animal leukemia model induced by transplantation of BCR-ABL1-transduced hematopoietic cells : (i) treatment with NT157 100mg/kg intraperitoneally, 3 times per week, combined with imatinib 100mg/kg/day per gavage, significantly reduced spleen weight, and prevented weight loss compared to vehicle (p<0.05); only imatinib monotherapy prolonged survival (p<0.05), (ii) treatment with NT157 70 mg/kg intraperitoneally, 3 times per week, and/or imatinib 70 mg/kg/day per gavage had no impact on spleen weight and body weight; treatment with imatinib alone or combined with NT157 prolonged survival (p<0.05). In conclusion, the pharmacological inhibitor of IGF1R-IRS1/2 represents a potential effective drug in CML therapy, especially in cases of resistant BCR-ABL1 T315I mutation. The evaluation of the NT157 pharmacological efficacy in CML animal models requires adjustments in the murine models used in the present study, better understanding of the pharmacodynamics and pharmacokinetics of the compound and adjustments in the therapeutic scheme used.

BCR-ABL1

IRS1

Leucemia Mieloide Crônica

NT157

Substratos do receptor de insulina

T315I

BCR-ABL1

Chronic Myeloid Leukemia

Insulin receptor substrates

IRS1

NT157

T315I

Aspectos moleculares da transformação celular induzida por Bcr-Abl. / Molecular aspects of Bcr-Abl-induced cell transformation.

Silva, Ana Elisa Barreiros Bueno da

11 April 2008

As leucemias cromossomo Ph-positivas estão intimamente associadas à expressão da tirosina-quinase Bcr-Abl. Esta oncoproteína promove independência de fatores de crescimento, alterações na adesão e inibição da apoptose por mecanismos ainda não totalmente elucidados. O objetivo desse estudo foi avaliar a contribuição da atividade quinase de Bcr-Abl para seu potencial anti-apoptótico e identificar alterações moleculares envolvidas na transformação celular induzida por essa proteína. Nossos resultados sugerem que a resistência à apoptose não depende da manutenção constante da atividade tirosina-quinase de Bcr-Abl, tampouco da presença de proteínas fosforiladas em tirosina. A comparação do proteoma de células HL-60.vetor e HL-60.Bcr-Abl revelou que a presença de Bcr-Abl causa alterações profundas no padrão de expressão protéica. As proteínas afetadas estão associadas a diversos processos celulares, como adesão, transdução de sinais, proliferação e morte celular. Esses achados devem contribuir para a identificação de novos marcadores de prognóstico e alvos terapêuticos. / Ph chromosome-positive leukemias are closely associated with the expression of Bcr-Abl tyrosine kinase. This oncoprotein promotes growth factor independence, alters cell adhesion and confers resistance to apoptosis by mechanisms that are not fully understood. The aim of this study was to evaluate the contribution of Bcr-Abl kinase activity for its antiapoptotic potential and identify molecular alterations involved in Bcr-Abl-induced cell malignant transformation. Our results suggest that Bcr-Abl is not required to be constantly active to maintain the resistance to apoptosis and pY-containing proteins may not be responsible for the antiapoptotic effect of Bcr-Abl. The comparison between the proteome of HL-60.vector and HL-60.Bcr-Abl cells revealed that the presence of Bcr-Abl alters the expression of a great variety of proteins. The affected molecules are associated with several cellular processes, including cell adhesion, signal transduction, proliferation and cell death. Our findings might help the identification of new prognostic markers and therapeutic targets.

Apoptose

Apoptosis

Bcr-Abl

Bcr-Abl

Cell transformation

Chronic myeloid leukemia

Leucemia mielóide crônica

Proteoma

Proteome

Tirosina-quinase

Transformação celular

Tyrosine kinase

Expressão de galectina-1 e -3 na leucemia mielóide crônica e sua contribuição para a progressão da doença. / Expression of galectin-1 and -3 in chronic myeloid leukemia and its contribution to disease progression.

Castro, Monica Alexandra Yon

09 June 2009

A galectina-1 (LGALS1) participa em diferentes etapas da neoplasia, mas sua função na leucemia mielóide crônica (LMC) é desconhecida. Neste trabalho, a expressão etópica de BCR-ABL selvagem, mas não de BCR-ABL quinase deficiente, em linhagens celulares hematopoéticas, resultou em aumento de LGALS1. O efeito foi revertido com a inibição da tirosina quinase pelo mesilato de imatinibe. Este resultado indicou que a galectina-1 é modulada pela atividade tirosina-quinase de BCR-ABL. Em pacientes com LMC, a maior expressão de LGALS1 foi correlacionada a altos níveis de BCR-ABL, progressão da doença e a um tempo de sobrevida menor. Adicionalmente, as células K562 com LGALS1 inibida por RNA de interferência exibiram crescimento mais lento do que as células K562 com LGALS1 intacta, em camundongos nude. Portanto, o pior prognóstico de pacientes com altos níveis de galectina-1 sugere um efeito cooperativo de galectina-1 na tumorigênese de BCR-ABL reforçando o conceito de que a galectina-1 é um forte candidato para intervenção terapêutica na LMC. / Galectin-1 (LGALS1) participates in different steps of neoplasia but its role in chronic myeloid leukemia (CML) is unknown. In this work, ectopic expression of wild-type but not kinase-deficient BCR-ABL in different hematopoietic cells resulted in LGALS1 upregulation. Tyrosine-kinase inhibition by imatinib mesylate reversed this effect. This result indicate that galectin-1 is modulated by tyrosine kinase activity. In CML patients, the elevated expression of LGALS1 was correlated with high BCR-ABL levels, disease progression and shorter survival time. Additionally, in nude mice, LGALS1-deficient K562 cells obtained by RNA interference were less efficient in tumor formation than control K562 cells. Therefore, the worst prognosis in patients bearing high LGALS1 levels suggests a cooperative role for galectin-1 in BCR-ABL-positive leukemia and support the concept that galectin-1 is a strong candidate for CML therapeutic intervention.

BCR-ABL

BCR-ABL

Chronic myeloid leukemia

Galectin-1

Galectin-3

Galectina-1

Galectina-3

Immunology

Imunologia

Leucemia mielóide crônica

Tirosina quinase

Tumorigênese

Tumorigenesis

Tyrosine kinase

Efeito do veneno bruto e da L-aminoácido oxidase de Bothrops pirajai em células BCR-ABL positivas / Effect of Bothrops pirajai crude venom and L-amino acid oxidase in BCR-ABL positive cells.

Burin, Sandra Mara

01 July 2011

A leucemia mielóide crônica (LMC) é uma doença mieloproliferativa caracterizada citogeneticamente pela presença do cromossomo Philadelfia (Ph) e molecularmente pelo neogene bcr-abl1 que codifica a oncoproteína BCR-ABL com alta atividade de tirosina-quinase. A célula leucêmica BCR-ABL+ apresenta baixa adesão ao estroma medular, resistência à apoptose e potencial mitogênico exacerbado. A LMC possui curso evolutivo trifásico (fase crônica, acelerada e blástica) e seu tratamento pode ser realizado por meio de diferentes modalidades terapêuticas, destacando-se o mesilato de imatinibe (MI) que inibe a TK BCR-ABL induzindo altas taxas de remissão citogenética dos pacientes na fase crônica da doença. Apesar do MI ser eficiente, os pacientes na fase acelerada e blástica da doença são comumente refratários a essa terapia e na fase crônica há casos de resistência ao MI descritos. Nesse contexto, potenciais novos fármacos são investigados para melhorar a eficiência da terapia da LMC. Nesse estudo, investigamos o efeito do veneno bruto (VB) e da enzima L-amino-ácido-oxidase (LAAO) da Bothrops pirajai em desencadear apoptose em células BCR-ABL+. A apoptose das células HL-60 e HL-60.BCR-ABL foi quantificada pela detecção da percentagem de células com núcleos hipodiplóides pela da citometria de fluxo e confirmada pela observação da ativação das caspases 3, 8 e 9 por western-blot. Os resultados obtidos indicam que a LAAO é capaz de induzir apoptose em células HL-60 e HL-60.BCR-ABL por ativação das vias extrínseca e intrínseca. Além disso, foi verificado que a LAAO diminui a fosforilação de BCR-ABL em células HL-60.BCR-ABL e quando associada ao MI potencializou a inibição da atividade quinase de BCR-ABL. Os dados da presente investigação indicaram ainda que a LAAO é capaz de modular a expressão de bad, bak, bax, bid, bimel, fas,fasl, a1, bcl-2, bcl-xl, bcl-w e c-flip, genes reguladores da apoptose celular. Apesar do pouco conhecimento acerca do mecanismo de ação dessa toxina, os dados obtidos sugerem que a LAAO possui o potencial de estimular a apoptose nas linhagens HL-60 e HL-60.BCR-ABL e aumentar o efeito do inibidor da atividade quinase, MI, dados relevantes para estudos futuros associados a descrição de novos fármacos contra leucemia mielóide crônica. / Chronic myeloid leukemia (CML) is a myeloproliferative disorder cytogenetically characterized by the presence of Philadelphia chromosome (Ph) and molecularly by bcr-abl1 neogene that encodes the BCR-ABL oncoprotein with high tyrosine kinase (TK) activity. The leukemic cell BCR-ABL+ presents poor adhesion to bone marrow stroma, resistance to apoptosis and exacerbated mitogenic potential. The CML has a three-phase course (chronic, accelerated and blastic phase) and its treatment can be performed by different therapeutic modalities, especially the imatinib mesylate (IM) that inhibits the TK BCR-ABL inducing high rates of cytogenetic remission in chronic phase. Although MI is effective, patients in accelerated and blastic phases of the disease are often refractory to this therapy and there are also cases of resistance to MI described in chronic phase. In this context, potential new drugs are investigated to improve the efficiency of the therapy of CML. In this study, we investigated the effect of crude venom (CV) and of the enzyme L-amino acid oxidase (LAAO) from Bothrops pirajai in triggering apoptosis in BCR-ABL+. The apoptosis of HL-60 cells and HL-60. BCR-ABL was quantified by detecting the percentage of cells with hypodiploid nuclei by flow cytometry and confirmed by observation of the activation of caspases 3, 8 and 9 by Western blot. The results indicate that LAAO is able to induce apoptosis in HL-60 cells and HL-60. BCR-ABL by activation of the extrinsic and intrinsic pathways. Furthermore, it was found that LAAO decreases phosphorylation of BCR-ABL in HL-60 cells. BCR-ABL when associated with MI potencialized the inhibition of kinase activity of BCR-ABL. The data from this study also indicated that the LAAO is able to modulate the expression of bad, bak, bax, bid, bimel, fas, FasL, A1, bcl-2, bcl-xl, bcl-w and c-flip, regulatory genes of apoptosis. Even though there is little knowledge about the mechanism of action of this toxin, the data obtained suggests that LAAO has the potential to stimulate apoptosis in HL-60 lines and HL-60. BCR-ABL and increase the effect of the inhibitor of protein kinase activity, MI, relevant data for future studies associated with the description of new drugs against chronic myeloid leukemia.

Apoptose

apoptosis

BCR-ABL

BCR-ABL

chronic myeloid leukemia

Leucemia Mielóide Crônica

Caracterização das propriedades antitumorais da fosfoetanolamina sintética e da formulação lipossomal DODAC/fosfoetanolamina em células de leucemia humana K-562 / Characterization of the antitumor properties of synthetic phosphoethanolamine and the liposomal formulation DODAC/phosphoethanolamine in human K-562 leukemia cells

Thais de Oliveira Conceição

06 October 2017

Fosfoetanolamina sintética (Pho-s) é um monoéster análogo à fosfoetanolamina da membrana celular fosforilada artificialmente, com propriedades antiinflamatórias e apoptóticas para vários tipos de células tumorais humanas e murinas. Neste projeto foram avaliados os efeitos antitumorais in vitro da Pho-s e da formulação lipossomal DODAC/Pho-s na linhagem tumoral de leucemia mielóide crônica humana (K-562), em comparação ao modelo resistente a múltiplas drogas K-562 Lucena (MDR+). Os efeitos de citotoxicidade da Pho-s na linhagem tumoral K-562 e K-562 Lucena (MDR+) foram avaliados pela viabilidade celular utilizando o teste da Sulforodamina B, e os valores da IC50% obtidos foram de 43.1 mM e 145.9 mM, respectivamente após 24 horas de tratamento. O tratamento com o carreador DODAC vazio nas células K-562 e K-562 Lucena (MDR+) a IC50% foi de 0,0003mM e 0,008mM respectivamente, e com o tratamento com a formulação lipossomal DODAC/Pho-s a IC50% obtida respectivamente de, 0,56 mM e 0,31 mM. A viabilidade celular foi determinada a exclusão pelo azul de tripan 0,2%, em sistema automatizado Vi-Cell e foram significativas as diminuições da viabilidade celular em comparação ao grupo controle não tratado nas diversas concentrações e em diferentes períodos de tempo de tratamento. As alterações nas distribuições nas populações celulares nas fases do ciclo celular determinadas por citometria de fluxo mostraram aumento do DNA fragmentado (Sub/G1) em 12 e 24 horas de tratamento. Atividade apoptótica das células tumorais pela expressão da Anexina V/PI, no estágio de apoptose inicial, apoptose tardia e necrose foram quantificadas em citometria de fluxo, o tratamento com Pho-s, quando comparado ao grupo controle K-562 (40 e 80 mM) e K-562 Lucena (MDR+) (146 e 292 mM) ocorreu aumento significativo do número de células apoptóticas e em menor percentual o número de células necróticas. O tratamento com a Pho-s em célula leucêmica K-562 e K-562 Lucena (MDR+) tratadas, respectivamente com 40 e 80 mM e 146 e 292 mM mostraram que independente da expressão do fenótipo de resistência há uma redução significativa no potencial elétrico mitocondrial, analisado pelo o ensaio da rodamina-123. Os marcadores de controle e progressão do ciclo celular e da apoptose, mostraram efeitos moduladores da Pho-s dependentes da p53 na expressão da moléculas pró-apoptóticas. Esse conjunto de informações demonstrou os efeitos apoptóticos da Pho-s e da formulação lipossomal nas células tumorais independentemente do perfil molecular de resistência (MDR+), o que possibilita dizer que esse composto possui significativo potencial terapêutico nesse grupo de leucemias / Synthetic phosphoethanolamine (Pho-s) is a monoester analogous to the phosphoethanolamine which composes the membrane of an artificially phosphorylated cell, with anti-inflammatory and apoptotic properties for various types of human and murine tumor cells. In this project, we evaluated in vitro antitumor effects of Pho-s and the DODAC/Pho-s liposomal formulation in the human chronic myeloid leukemia (K-562) tumor line in comparison with the K-562 Lucena (MDR+). The effects of cytotoxicity of Pho-s on K-562 and K-562 Lucena (MDR +) tumor cells lines were evaluated by cell viability using the Sulforhodamine B test, and the IC50% values obtained were 43.1 mM and 145.9 mM after 24 hours of treatment, respectively. Treatment with the empty DODAC carrier on the K-562 and K-562 Lucena (MDR+) at IC50% cells was 0.0003 mM and 0.008 mM, and the treatment with the DODAC/Pho-s liposomal formulation obtained results of 0.56 mM and 0.31 mM, respectively. Cell viability was determined by 0.2% trypan blue exclusion in automated Vi-Cell system and the decreases in cell viability were significant in comparison to the untreated control group at various concentrations and different treatment time periods. Alterations in the distributions of cell populations in the cell cycle phases determined by flow cytometry showed increment of fragmented DNA (Sub/G1) in 12 and 24 hours of treatment. Apoptotic activity of tumor cells by the expression of Annexin V/PI, in the early apoptosis, late apoptosis phase and necrosis stage were quantified in flow cytometry, the treatment with Pho-s, when compared to the control group K-562 (40 and 80 mM) and K-562 Lucena (MDR +) (146 and 292 mM) demonstrated that there was a significant increase in the number of apoptotic cells and, in a lower percentage, the number of necrotic cells. Treatments with Pho-s in leukemic cell K-56 with 40 and 80 mM and in K-562 Lucena (MDR+) with 146 and 292 mM showed that independent of the expression of the resistance phenotype there is a significant reduction in the electrical potential of the mitochondrial membrane, analyzed with the rhodamine-123 assay. Control and progression markers of cell cycle and apoptosis showed p53-dependent modulating effects on the expression of pro-apoptotic molecules. This set of information demonstrated the apoptotic effects of Pho-s and liposomal formulation on tumor cells independently of the molecular resistance profile (MDR+), which makes it possible to say that this compound has significant therapeutic potential in this group of leukemias

Apoptose

Células de resistência a multidrogas

Ciclo celular

Formulação lipossomal

Fosfoetanolamina sintética

Leucemia mielóide crônica

Apoptosis

Cell cycle

Chronic myeloid leukemia

Liposomal formulation

Multidrug resistance cells

Synthetic phosphoethanolamine

Identification et caractérisation de polymorphismes génétiques impliqués dans la réponse à l’imatinib dans la leucémie myéloïde chronique / Identification and characterisation of genetic polymorphisms associated to imatinib sensitivity in chronic myeloid leukemia

Lichou, Florence

17 May 2019

La leucémie myéloïde chronique (LMC) est un syndrome myéloprolifératif rare traité par des inhibiteurs de tyrosine kinase, tel que l’imatinib. Malgré son efficacité, la résistance au traitement est un problème récurrent. Des variants génétiques responsables d’une altération de la mort cellulaire programmée (apoptose) pourraient notamment expliquer l’hétérogénéité de la réponse au traitement entre les patients. Dans un premier temps, l’objectif était de rechercher des variants candidats. Pour cela un panel de 45 gènes impliqués dans l’apoptose a été étudié par séquençage nouvelle génération chez 24 patients atteints de LMC, 12 répondeurs et 12 résistants au traitement par imatinib. A l’aide d’outils informatiques, 473 polymorphismes ont été détectés. Le nombre de patients étudiés étant limité, de nouvelles méthodes statistiques ont dû être développées pour analyser les résultats obtenus. Tout d’abord, les fréquences de survenue des variants chez les patients résistants et répondeurs ont été comparées aux fréquences observées dans la population générale et visualisées par une approche de statistiques descriptives. Cette stratégie a permis de réduire la liste à 95 polymorphismes pouvant être impliqués dans la résistance au traitement. Par la suite, les gènes ont été classés selon leur enrichissement en allèles variants. Au final, trois gènes candidats ont été choisis et séquencés chez 103 patients. Cette méthodologie, automatisée grâce à un algorithme informatique, a permis de mettre en évidence, un variant non synonyme dans le gène BCL RAMBO, retrouvé plus fréquemment chez les patients résistants de manière significative. Dans un second temps, l’objectif était de caractériser le rôle de ce variant dans la réponse à l’imatinib à l’aide de lignées cellulaires modifiées par la technologie CRISPR-Cas9. Des cellules n’exprimant plus la protéine ont été obtenues et ont permis de mettre en évidence le rôle majeur de la protéine BCL RAMBO dans l’inhibition de l’apoptose. Des lignées cellulaires portant le variant candidat ont également été créées à l’aide d’une nouvelle technique utilisant CRISPR-Cas9 : l’exon entier contenant le nucléotide d’intérêt a été remplacé par un exon modifié. La modification d’un acide aminé induite par le variant a été associé à une perte de la sensibilité au traitement par imatinib dans ces lignées, comme suggéré après séquençage des patients. Ces données indiquent que BCL-RAMBO, facteur anti-apoptotique dans une lignée modèle de LMC, pourrait devenir une nouvelle cible thérapeutique afin de surmonter la résistance à l’imatinib / Chronic myeloid leukemia (CML) is a rare myeloproliferative syndrome treated by tyrosine kinase inhibitors, such as imatinib. Despite its efficacy, resistance to treatment is a persistent clinical issue. Notably, genetic variants causing alterations in apoptosis may explain heterogeneity of imatinib sensitivity between patients. First, the goal was to look for candidate variants. For that purpose, a panel of 45 apoptotic genes was assessed by next-generation sequencing on 24 CML patients, 12 sensitive and 12 resistant to imatinib treatment. Using informatics tools, 473 polymorphisms were detected. As the number of sequenced samples was limited, novel statistical methods had to be developed to interpret the results. The variant frequency in resistant and sensitive patients was compared to variant frequency in the general population and visualized using descriptive statistics. This strategy allowed to obtain a restricted list of 95 polymorphisms that might be involved in resistance to the treatment. Then, genes were ranked according to variant allele enrichment. At the end, three candidate genes were chosen and sequenced for 103 CML patients. This methodology, automated using a computer algorithm, permitted to highlight a nonsynonymous variant in the BCL RAMBO gene, significantly found more often in resistant patients. Second, the objective was to characterize the role of this variant in response to imatinib using model cell lines modified by CRISPR-Cas9 technology. BCL-RAMBO knock-out cells were obtained and allowed to demonstrate the major role of BCL-RAMBO protein in apoptosis inhibition. Additionally, cell lines carrying the variant were created using a new CRISPR-Cas9 mediated technique: the whole exon carrying the nucleotide of interest was replaced with a variant exon. The amino acid change induced by the identified polymorphism was associated with a loss of sensitivity to imatinib treatment in these cell lines as suggested after patient sequencing. These data indicate that BCL-RAMBO, anti apoptotic factor in a CML cell line, could become a novel therapeutic target to overcome drug inefficacy for a subset of resistant patients.

Leucémie myéloïde chronique

Résistance au traitement

Polymorphismes génétiques

Apoptose

Séquençage nouvelle génération

Bcl-Rambo

Chronic myeloid leukemia

Treatment resistance

Genetic polymorphisms

Apoptosis

Next-Generation sequencing

Bcl-Rambo

Role of the Bone Morphogenetic Proteins pathway in tyrosine kinase inhibitors resistance in Chronic Myeloid Leukemia / Rôle de la voie des Bone Morphogenetic Proteins dans la résistance des cellules souches de la Leucémie Myéloïde Chronique aux Inhibiteurs de Tyrosine Kinase

Grockowiak, Élodie

30 November 2017

La leucémie Myéloïde Chronique est un néoplasme myéloprolifératif causé par l'expression de la kinase oncogène BCR-ABL. Les Inhibiteurs de Tyrosine Kinase (ITK) spécifiques de BCR-ABL ont révolutionné la prise en charge de la maladie. Les ITK ne sont cependant pas curatifs ; en effet, certaines cellules souches leucémiques (CSL) sont résistantes aux ITK, et persistent dans la moelle osseuse des patients même en rémission prolongée. Ces CSL sont probablement responsables de la rechute chez 60% de ces patients après arrêt des ITK. 30% des patients développent une résistance aux ITK via des mécanismes inconnus. Dans un contexte sain, les Bone Morphogenetic Proteins (BMP) régulent différentes propriétés des cellules souches hématopoïétiques. Nous avons mis en évidence que les patients atteints de LMC présentent une altération de la voie BMP avant leurs mises sous traitement, avec une hausse de l'expression du récepteur dans les cellules leucémiques immatures, amplifiée par de forts taux de BMP2/4 produits par le microenvironnement des CSL, la niche. Ici, nous démontrons que ces altérations sont maintenues chez les patients sous traitement, et sont activement impliquées dans la résistance aux ITK. Les patients résistants présentent une surexpression de BMPR1b dans les CSL et un maintien de forts taux de BMP produits à la fois par les cellules leucémiques mais aussi par les cellules stromales. Les BMP permettent la survie des CSL via l'expression du récepteur BMPR1b et induisent l'expression de TWIST-1, un facteur de transcription précédemment identifié par l'équipe comme induisant la résistance / Chronic Myeloid Leukemia (CML) is a myeloproliferative neoplasm caused by the expression of the oncogenic protein kinase, BCR-ABL. The Tyrosine Kinase Inhibitors (TKI) specifics of BCR-ABL kinase dramatically changed the outcome of CML, turning a life-threatening disease into a chronic illness. However, TKI are not yet curative since most CML patients still retain progenitors and leukemic stem cells (LSC) in bone marrow permanently. Thus, approximately 60% of patients that achieve Complete Molecular Remission =2 years relapse following TKI withdraw. Moreover, some patients develop true resistance to TKI, with ~30% due to unknown mechanisms. In chronic phase CML (CP-CML), LSC survive, sustain interactions with their niche where resistance mechanisms can occur, responsible for disease persistence and relapse following treatment cessation. In normal bone marrow, Bone Morphogenetic Proteins (BMP) pathway regulate the fate and proliferation of normal hematopoietic stem cells, as well as interactions with their niche. The deregulations of this pathway drive early steps of CML development. In newly diagnosed CP-CML patients, high concentration of BMP2/4 in the leukemic niche allows LSC maintenance and sustains a permanent pool of leukemic progenitors expressing elevated levels of BMPR1b receptor. Here, we report that alterations of the BMP pathway persist in TKI-CML resistant patients. As compared to patients in Complete Cytogenetic Remission (CCyR), cells isolated from TKI-resistant patients display a high level of BMPR1b expression in immature cells and high levels of BMP2/4 in bone marrow, provided by the niche and by the leukemic immature cells themselves. BMP allow leukemic stem cells resistance to treatments through binding to BMPR1b. Interestingly, BMP2/4-treated cells overexpressed TWIST-1, a transcription factor that we previously identified as a predictive factor of CML resistance

Cellule souche cancéreuse

Niche

Résistance

Thérapie ciblée

Leucémie myéloide chronique

BMP

Cancer stem cells

Niche

Resistance

Targeted therapies

Chronic myeloid leukemia

BMP

571.6

Approche des mécanismes de résistance des cellules souches leucémiques de leucémie myéloïde chronique aux inhibiteurs de tyrosine kinase

Bourgne, Céline

28 September 2012

Les Inhibiteurs de l'activité Tyrosine Kinase (ITK) de BCR-ABL (Imatinib (IMA), Nilotinib (NIL) et Dasatinib (DAS)) ont révolutionné le traitement de la Leucémie Myéloïde Chronique (LMC), mais la cinétique et l'intensité des réponses thérapeutiques restent variables. Par ailleurs, plusieurs travaux démontrent qu'il persiste chez la majorité des patients des cellules souches leucémiques (CSL) CD34+ résistantes aux ITK et capables de reconstituer la maladie. Partant du principe que la thérapie ciblée (les ITK) devait atteindre le compartiment cellulaire et du constat qu'aucune méthode ne permettait d'évaluer la quantité d'ITK dans les cellules malignes vivantes, nous avons développé un procédé en cytométrie en flux pour quantifier ces molécules dans les cellules de la LMC. Nous avons ainsi démontré que la mort cellulaire des lignées K562 et KCL22 à 24h est étroitement corrélée à la quantité d'IMA accumulée dès la 1ère heure. L'application du procédé aux cellules primaires a montré un taux intracellulaire d'ITK dépendant des caractéristiques des cellules et variable d'un sujet à l'autre (Article 1). Pour l'instant, en raison de l'hétérogénéité de notre cohorte, nous n'avons pas pu mettre en évidence de corrélation entre l'accumulation des ITK et la réponse thérapeutique de la LMC. Notre procédé nous a permis de suivre l'accumulation in vivo du DAS dans les blastes circulants d'un patient LMC en phase d'acutisation, en parallèle de la réactivation de pSyk348 - que nous avons identifié comme marqueur de progression - au moment de l'échappement au DAS (Article 2). Un avantage majeur du procédé est la possibilité d'analyser les différentes sous-populations, dont les cellules CD34+ de LMC. Ces dernières ont un taux d'ITK intracellulaire plus faible que les cellules matures, voire absent chez certains patients. Pour l'instant une corrélation significative avec les tests clonogéniques effectués en parallèle est retrouvée seulement avec le DAS. Enfin, nos résultats préliminaires suggèrent des différences entre les cellules CD34+ du sang et de la moelle. En conclusion, ce procédé permet d'évaluer la quantité d'ITK dans des sous-populations cellulaires précises et viables. Nous envisageons de poursuivre ce projet par l'évaluation de l'intérêt d'un dosage précoce du taux d'ITC intracellulaire in vivo (après la 4ème prise) d'une part et d'autre part par l'étude de l'influence du microenvironnement sur la résistance des CSL de LMC aux ITK et sur certaines dérégulations propres à ce compartiment cellulaire. / The Tyrosine Kinase Inhibitors (TKI) of BCR-ABL (Imatinib (IMA), Nilotinib (NIL) and dasatinib (DAS)) have revolutionized the treatment of Chronic Myeloid Leukemia (CML). However therapeutic responses remain variable. Moreover, several studies showed that most patients have persistent CD34+ leukemic stem cells (LSCs) resistant to TKI and the origin of disease relapse. Given that the targeted therapy (TKI) should reach malignant cells and that no method was able to assess the amount of TKI in viable target cells, we have developed a process by flow cytometry for TKI quantification in target cells. By using K562 and KCL22 cell lines we showed that cell death at 24hrs was closely related to IMA uptake after one hour of incubation. We then applied our method to primary cells and showed an intracellular level of IMA, NIL and DAS dependent on cell characteristics and heterogeneous from one subject to another (Article 1). Probably because of the heterogeneity of our series, we did not find any correlation between the accumulation of TKI and therapeutic response of CML. Moreover, we used our process to observe a decrease in DAS accumulation in vivo in circulating blasts of a CML patient with acute transformation, in spite of significant DAS uptake, we observed a recurrence of Syk phosphorylation in Y348 that we identified as a potential marker of acutisation, at the same time of disease resistance (Article 2). A major advantage of our process is the possibility to analyze the different cell subsets, including CD34+ CML cells. These cells had a lower (even absent in cells from some patients) level of intracellular TKI compared to mature cells. The clonogenic assays performed in parallel showed a significant correlation with DAS only. Finally, our preliminary results suggest differences between CD34+ cells from blood and those from bone marrow. In conclusion, our process allows evaluating the amount of TKI in viable cell subpopulations. This project will be continued with i) the study of the potential interest of the early evaluation of in vivo intracellular level of TKI (after the fourth dose) and ii) the influence of the microenvironment on CSL resistance to TKI and epigenetics deregulations.

Leucémie myéloïde chronique

Inhibiteurs de tyrosine kinase

Cellules souches leucémiques

Sensibilité/résistance

Cytométrie en flux

Chronic myeloid leukemia

Tyrosine kinase inhibitors

Leukemic stem cells

Sensitivity/resistance

Flow cytometry