Evaluation of molecular response and expression of ABCF2, ALOX15B, PAWR, ncFOXO3A, ncMYLIP e ncSLC44A2 genes in patients with chronic myeloid leukemia treated with second generation tyrosine kinase inhibitors

Chronic myeloid leukemia (CML) is a chronic myeloproliferative neoplasm characterized by the presence of Philadelphia chromosome (Ph) and production of BCR-ABL fusion protein that has tyrosine kinase activity. Currently, the treatment of CML is accomplished with tyrosine kinase inhibitors (TKIs). Despite the high rates of responses obtained with imatinib, some patients are resistant or intolerant to treatment and need to switch to second generation TKIs (dasatinib or nilotinib). Monitoring responses during treatment allows the identification of patients who are in a "safe haven" (optimal response) and patients who may fail to treatment. Mechanisms of resistance to treatment are multifactorial and identification of these mechanisms may contribute to the development of new strategies for treatment of resistant cases. In a previous report of our group were identified several genes and long non-coding RNAs differentially expressed in CML patients responders and non-responders to dasatinib, including ABCF2, ALOX15B, PAWR, ncFOXO3A, ncMYLIP and ncSLC44A2 genes. The aim of this study was to evaluate molecular responses in CML patients treated with second generation TKIs (dasatinib or nilotinib) after failure or intolerance to one or two TKIs and to evaluate the expression of ABCF2, ALOX15B, PAWR, ncFOXO3A, ncMYLIP and ncSLC44A2 genes in patients responsive and resistant to dasatinib. The methodology used to evaluate BCR-ABL transcript leves and the gene expression was quantitative real time PCR. BCR-ABL kinase domain mutations analysis was performed in resistant cases by direct sequencing. Seventy-one patients treated with dasatinib/nilotinib after failure or intolerance with imatinib were evaluated according to molecular responses. Sixty-seven percent, 43% and 37% of chronic phase (CP), accelerated phase (AP) and blast crisis (BC) CML patients achieved major molecular response (MMR), respectively, during treatment. Patients with early molecular responses (BCR-ABL1<10% at 3 months and <1% at 6 months) had superior PFS and EFS than patients that not achieved these landmarks. The evaluation at 3 and 6 months allows better identication of patients with worse prognosis. We analyzed molecular responses in 25 patients treated with dasatinib/nilotinib after failure or intolerance with two TKIs. MMR was achieved in 24% of cases (all in CP, one in AP). Five-year OS and PFS rates for CP-CML patients were 94% and 94%, respectively. Few patients achieved responses and these responses are not durable. Although, dasatinib/nilotinib had been options for patients not elegible for bone morrow transplantation, its necessary the development of a treatment more effective to these patients. To evaluate the expression of ABCF2, ALOX15B, PAWR, ncFOXO3A, ncMYLIP e ncSLC44A2 genes was used samples of 9 patients newly diagnosed (without treatment), 39 patients treated with dasatinib (25 responsives with CCyR and 14 resistant) and 13 healthy donors. There¿s no difference of ncSLC44A2 gene expression between the groups analized. ALOX15B and ncMYLIP genes were down-regulated in CML patients newly diagnosed in comparison with CML patients treated with dasatinib and control group. ncFOXO3A gene presented decreased expression in CML patients at diagnosis in comparison with patients treated with dasatinib. ABCF2 and PAWR genes were down-regulated in CMl patients newly diagnosed and in CML patients treated with dasatinib in comparison with control group. Moreover, PAWR gene was down-regulated in CML patient¿s resistants to dasatinib in comparison with responsives. ABCF2, ALOX15B, PAWR, ncMYLIP and ncFOXO3A were found with altered expression between the groups evaluated and may be associated with mechanisms related to the development and resistance of CML, which should be elucidated in prospective studies (AU)