Raquel Bengió

Partial and total monosomal karyotypes in myelodysplastic syndromes: comparative prognostic relevance among 421 patients.

Myelodysplastic syndromes (MDS) include a group of heterogeneous hematological disorders with a variable risk of leukemic evolution and short survival. Around 40–50% of patients show abnormal karyotypes that are mostly characterized by monosomies or deletions. Cytogenetic findings are an independent prognostic factor and the International prognostic scoring system (IPSS) differentiates three cytogenetic categories, despite the Intermediate one being heterogeneous. The aim of this study, including 421 Argentinean patients with primary MDS, is to characterize the cytogenetic profile, to test its prognostic value and to compare partial and monosomal karyotypes against other cytogenetic findings. An abnormal karyotype (median survival: 26 months) was observed in 176 patients. The presence of complex karyotypes, number of alterations, and the IPSS cytogenetic groups showed significant differences for predicting outcome. Behavior of patients with isolated deletions (median survival: 49 months) did not differ from those with normal karyotype (56 months, P = 0.654) or Good prognostic findings (43 months, P = 0.371). However, a worse prognosis was observed when another alteration was added (31 months, P = 0.043). Karyotypes with autosomal monosomies (median survival: 16 months) had a prognostic impact similar to other Poor cytogenetic findings (17 months, P = 0.626). In our population classified according to French‐American‐British (FAB) or World Health Organization (WHO), this new categorization of cytogenetic abnormalities, recognizing three different risk groups, showed an independent prognostic impact and a better discriminating power than the IPSS categories. It can be concluded that all isolate deletions (excluding 7q‐) are good prognostic findings and all monosomies (excluding Y chromosome loss) are bad indicators. Am. J. Hematol., 2011.

Clinical outcome of chronic myeloid leukemia imatinib-resistant patients: do BCR–ABL kinase domain mutations affect patient survival? First multicenter Argentinean study

In imatinib-treated patients with chronic myeloid leukemia (CML), BCR–ABL mutations are the most common mechanism of resistance. Here we report the first multicenter Argentinean study investigating mutations in those patients with CML who fail or lose response to imatinib, with or without previous interferon treatment. Point mutations were detected in 36 of 154 patients by direct sequencing. In our series, the single most common mutations were G250E, E255K/V, and M351T. The presence of mutations correlated significantly with accelerated phase, lack of molecular response, and lower cytogenetic and hematological responses. While overall survival did not differ between patients with or without mutations, the probability of progression was higher in patients with mutations. Cases with non-P-loop mutations showed a significantly better overall survival from diagnosis. Multivariate analysis showed that the most significant variables related to the development of mutations were accelerated phase, duration of imatinib treatment, and time delay to starting imatinib. Our results demonstrated that mutation frequency increased with the progression of disease, and suggest that imatinib treatment should be started early.

Specific assessment of BCR–ABL transcript overexpression and imatinib resistance in chronic myeloid leukemia patients

Imatinib mesylate has proven to be the most effective treatment in chronic myeloid leukemia. Nevertheless, imatinib resistance has raised concern and prompted interest in additional strategies to achieve disease eradication. Resistance to imatinib is mainly associated with three mechanisms: acquired mutations in the kinase domain of BCR–ABL protein, genetic amplification, and transcript overexpression of BCR–ABL rearrangement. Therefore an accurate assessment of resistance mechanism is particularly important to improve strategies to overcome resistance. In order to determine overexpression of BCR–ABL, we propose a method that correlates quantitative real time PCR and fluorescence in situ hybridization data from the same peripheral blood sample. The ratio between both methodologies permits to calculate the expression index (EI) for each patient. EI estimates the rate of BCR–ABL transcription per rearrangement. The median EI value, including all cases (n = 123), was 0.288; those cases (n = 13) included in percentile 90 showed an increment of EI above 1 Log (>2.88) with respect to the median value and were considered as cases with overexpression. We also evaluated the EIs using receiver operating characteristics curve; choosing an EI cutoff of 1.836 we obtained a sensitivity of 95% and a specificity of 61%. Using this EI cutoff value, more patients (n = 17) were included in the overexpression group. Patients within this group were resistant to imatinib and also showed a worse overall survival if compared with the remaining.

BCR-ABL Mutations in Chronic Myeloid Leukemia Treated With Tyrosine Kinase Inhibitors and Impact on Survival

This is the largest Latin American study of BCR-ABL mutations in chronic myeloid leukemia (CML) patients, resistant to imatinib (IM). In 195/467 (41%) patients, mutations were detected. The most frequent mutation was T315I (n = 31, 16%). Progression-free (PFS) and overall survival (OS) at 5 years were lower in patients with BCR-ABL mutations (43% vs. 65%, p = 0.07 and 47% vs. 72%, p = 0.03, respectively) and in those with the T315I mutation (p = 0.003 and p = 0.03). OS and PFS were superior in subgroup who switched to second generation inhibitors (SGIs) after IM failure (OS: 50% vs. 39% p = 0.01; PFS: 48% vs. 30% p = 0.02). BCR-ABL mutations conferred a significant poor prognosis in CML patients.

BAX/BCL-XL gene expression ratio inversely correlates with disease progression in chronic myeloid leukemia.

BCR-ABL fusion gene is implicated in the pathogenesis of chronic myeloid leukemia (CML), encoding the oncoprotein p210(BCR-ABL) with anti-apoptotic activity. The inability to undergo apoptosis is an important mechanism of drug resistance and neoplastic evolution in CML. The gene transcript expression of mitochondrial apoptotic related genes BAX and BCL-XL was evaluated by quantitative Real Time PCR (qPCR) in vitro in K562 cells and in vivo in peripheral blood of 66 CML patients in different stages of the disease: 13 cases at diagnosis, 34 in chronic phase (CP), 10 in accelerated phase (AP) and 9 in blast crisis (BC). Our results in K562 cells showed that all treatments with different tyrosine kinase inhibitors (TKIs) induced a decreased expression of the antiapoptotic oncogene BCL-XL, whereas the proapoptotic gene BAX remains constant with minor modifications. A significantly lower BAX/BCL-XL expression ratio (mean±SEM) than a group of healthy individuals (4.8±0.59) were observed in CML patients at diagnosis (1.28 ± 0.16), in AP (1.14±0.20), in BC (1.16±0.30) and in 18% of cases of patients in CP (2.71±0.40). Most CP cases (82%) showed a significantly increased ratio (10.03±1.30), indicating that the treatment with TKIs efficiently inhibited the expression of BCL-XL by blocking BCR-ABL oncoprotein. The BAX/BCL-XL ratio showed a significant inverse correlation (Spearman P<0.0001) with BCR-ABL/ABL relative expression indicating that low BAX/BCL-XL was associated with disease progression. Accordingly, the follow up of a cohort of eight cases during 6months from diagnosis showed that while the BAX/BCL-XL ratio rapidly increased after treatment in seven cases with good evolution, it decreased in the single case that showed rapid evolution and short survival. Our data suggest that BAX/BCL-XL expression ratio may be a sensitive monitor of disease progression and an early predictor of TKI therapy responsiveness in CML patients.

Complex Karyotype with PH1 Chromosome in Myelodysplasia: Cytogenetic and Molecular Studies

We report here a patient with Ph1-positive myelodysplasia with a complex karyotype. The patient presented with severe refractory anemia and ineffective erythropoiesis. In addition to t(9;22), chromosomes no. 1, 11, 12 and X also showed structural aberrations. Serial chromosome analyses revealed an increase of the Ph1-positive cell line along with the evolution of the disease (50% to 100%). Southern blot analysis showed a breakpoint cluster region (bcr) rearrangement as described for chronic myeloid leukemia (CML). The disease evolved into an acute leukemia after 4 years without any clinical evidences of CML.

Polymorphisms in TNF and IFNG are associated with clinical characteristics of aplastic anemia in Argentinean population

Abstract The impaired hematopoiesis in acquired aplastic anemia (AA) results from immune-mediated mechanisms. We characterized polymorphisms implicated in controlling type-1 cytokine production in 69 patients with AA. Our data suggest that the studied polymorphisms are not associated with susceptibility in the overall AA population. However, the presence of the higher expressing TNF − 308A allele was associated with younger age (p = 0.0297) and more profound neutropenia (p = 0.0312), and over-represented in patients with very severe AA (p = 0.0168). The higher producing IFNG 12 CA-repeat allele showed strong linkage disequilibrium with the + 874T allele, and was associated with a lower hemoglobin level (p = 0.0351). Also, the presence of at least one higher expressing variant was more frequent among patients responding to immunosuppressive treatment (p = 0.0519). Our findings suggest that the presence of higher expressing variants of tumor necrosis factor-α (TNF-α) and interferon-γ (IFN-γ) in AA patient genotypes could be related to clinical parameters, disease severity and therapy outcomes.

Expression of LYN and PTEN genes in chronic myeloid leukemia and their importance in therapeutic strategy

Tyrosine kinase inhibitors (TKIs), imatinib, nilotinib and dasatinib, are the current treatment of chronic myeloid leukemia (CML). BCR-ABL1 point mutations are the principal cause of resistance to treatment; however other mechanisms could be involved in failure to TKI therapy. LYN is a src kinase protein that regulates survival and responsiveness of tumor cells by a BCR-ABL1 independent mechanism. PTEN tumor suppressor gene is downregulated by BCR-ABL1 in CML stem cells and its deletion is associated with acceleration of disease. In this study we evaluated the expression of LYN, PTEN and the ratio of both genes in 40 healthy donors (HD) and in 139 CML patients; 88 of them resistant to TKI in different phases of disease and 51 in chronic phase classified as optimal responders (OR) to TKI [40 treated with imatinib or nilotinib (OR-IN) and 11 treated with dasatinib (OR-D) therapy]. When we analyzed the gene expression values of LYN, an increase was observed only in advanced stages of the disease, however, when we analyzed the ratio between LYN and PTEN genes, the group of resistant patients in chronic phase in imatinib or nilotinib treatment (CP-IN) also showed a significant increase. Resistant patients treated with dasatinib, a src kinase inhibitor, presented a similar ratio to the observed in HD. In addition, the LYN/PTEN ratio and the LYN expression showed a direct significant correlation with BCR-ABL1 transcript levels in unmutated resistant patients treated with non-src kinase inhibitors. We were able to identify 8/35 (23%) of cases in CP-IN and 4/12 (33%) in accelerated phase and blast phase (AP/BC-IN), in which resistance could be associated with an increase in the ratio of the LYN/PTEN. Our data suggest that the LYN/PTEN expression ratio may be a sensitive monitor of disease progression in unmutated CML patients under imatinib or nilotinib treatment. This ratio could detect cases when resistance is related to altered LYN expression, suggesting that the treatment change to a src kinase inhibitor would be most suitable to overcome resistance.

The presence of -308A TNFα is associated with anemia and thrombocytopenia in patients with myelodysplastic syndromes

Myelodysplastic syndromes (MDS) constitute a heterogeneous group of clonal hematological diseases characterized by refractory cytopenia(s). MDS patients show increased levels of tumor necrosis factor alpha (TNFα) which is a multifunctional proinflammatory cytokine. The aim of this work is to examine the presence of -308A/G TNFα variants and to analyze whether it is associated with clinical parameters in a cohort of 101 Argentinean de novo MDS patients. The A/A+A/G genotype at TNFα -308 was overrepresented 2-fold in our population (p=0.0499, odds ratio-OR: 2.107) and these differences were more evident in RA-FAB subtype (p=0.0424, OR: 2.502). The presence of the high expressing -308A allele was associated with lower hemoglobin level (8.3 vs 9.9g/dL; p=0.0206), reduced platelet counts (89,000 vs 130,000/μL; p=0.0381) and younger age (59 vs 68years; p=0.0122) at diagnosis. Also, these patients showed 3.8-fold higher risk of transfusion requirement (76% vs 46%, p=0.0105) during the follow up. In conclusion, the presence of an inherited -308A TNFα, which increases its transcription level, was associated with the MDS phenotype in our cohort of Argentine MDS patients. Also, an overexpression of TNFα may promote an underlying proinflammatory state that cooperates with intrinsic defects within MDS progenitors to increase the severity of certain phenotypic features of the disease.

Molecular Monitoring of Imatinib in Chronic Myeloid Leukemia Patients in Complete Cytogenetic Remission: Does Achievement of a Stable Major Molecular Response at any Time Point Identify a Privileged Group of Patients? A Multicenter Experience in Argentina and Uruguay

BACKGROUND Monitoring minimal residual disease (MRD) by real-time quantitative polymerase chain reaction (RT-PCR) in chronic myeloid leukemia (CML) patients is mandatory in the era of tyrosine kinase inhibitors. Achieving a major molecular response (MMR) at 12 and 18 months predicts a better progression and event-free survival. PATIENTS AND METHODS The objective of this prospective, multicentric study was to evaluate MRD by standardized RT-PCR in 178 patients with chronic-phase CML who were treated with imatinib at different institutions in Argentina and Uruguay and to determine if achievement of a stable MMR (BCR-ABL transcript levels < 0.1%) identifies a low-risk cytogenetic relapse group. The median age of the patients was 50 years, and 55% of them had received imatinib as first-line therapy. BCR-ABL transcript levels were measured after achievement of complete cytogenetic remission (CCyR) and at 6-month intervals. RESULTS MMR was detected in 44% patients at the start of the study. This value increased to 79% at month 36 of evaluation. Complete molecular response (CMR) also increased from 24% to 52% of patients. Not achieving a stable MMR determined a higher risk of cytogenetic relapse (9% of MMR patients not achieving an MMR vs. 1% of patients who achieved MMR). Patients with sustained MMR had a significantly better cytogenetic relapse-free survival at 48 months (97% vs. 87%; P = .008) but showed no differences in overall survival. Patients who did not remain in CCyR changed treatment. CONCLUSIONS A stable MMR is a strong predictor for a durable CCyR. Standardized molecular monitoring could replace cytogenetic analysis once CCyR is obtained. These results emphasize the validity and feasibility of molecular monitoring in all standardized medical centers of the world.