Purpose: T-lymphoid/Myeloid Mixed phenotype acute leukemia (T/M-MPAL) is ambiguous leukemia which overlaps with early T-cell precursor lymphoblastic leukemia (ETP-ALL). We have revisited the immunophenotyping profile of T/M-MPAL and ETP-ALL to identify differences and/or similarities, as these entities represent a therapeutic challenge in clinical practice. Patients and methods: A total of 26 ETP-ALL and 10 T/M-MPAL cases were identified among 857 cases of childhood leukemia (T-ALL, n=266 and AML, n=591) before any treatment decisions. The variables analyzed were age strata, sex, clinical features, immunophenotyping, and molecular aberrations. Immunophenotyping was performed in all samples using a panel of cytoplasm and membrane antibodies to identify the lineage and blast differentiation. The mutational status of STIL-TAL1, TLX3, RUNX1, NOTCH1, FBXW7, FLT3, IL7R, RAS, KTM2A , and CDKN2A/B was tested using RT-PCR, FISH, and PCR sequencing methods. The outcomes were assessed in terms of overall survival (OS). Results: The immunophenotypes were similar in ETP-ALL and T/M-MPAL, regarding the cellular expression of CD34, CD117, CD13/CD33, and CD11b, although CD2 and HLA-DR were more frequent in T/M-MPAL ( p <0.01). aMPO positivity and myelomonocyte differentiation were definitive in separating both entities. NOTCH1, FLT3-ITD , and N/KRAS mutations as well as TLX3 and KMT2A rearrangements were found in both ETP-ALL and T/M-MPAL. Thirty-one patients received ALL protocol whereas five had AML therapy. The overall 5-year survival rate (pOS) was 56.4% for patients treated using ALL protocols. No differences were observed between T/M-MPAL (pOS of 57%) and ETP-ALL (pOS of 56%) patients. The prognostic value of NOTCH1 mut was associated with significantly better OS (pOS 90%) than NOTCH1 wt (pOS 37%) ( p =0.017). Conclusion: This research can potentially contribute to NOTCH1 as targeted therapy and prognostic assessment of T-cell mixed phenotype leukemia.
Background. Previous studies have suggested a variation in the incidence of acute promyelocytic leukemia (APL) among geographic regions with relatively higher percentages within the Latin American population. We aimed to describe the population burden of pediatric APL (p-APL) in Brazil assessing the incidence rates according to a hospital-based and population-based cancer (PBCR) registries. We also explored mutations in genes of the RAS pathway and the association of polymorphisms in genes of glutathione S-transferases (GSTs) with outcome. Our goal was to provide insights into the distribution of clinical-demographic data and the molecular epidemiology characteristics associated with APL outcome. Methods. One hundred and sixty-four p-APL cases (<19 years old) were identified from a dataset of a hospital-based registry based at a leukemia diagnostic central reference laboratory (2002-2018) and from 15 PBCR (2002-2009). Diagnostic criteria included morphological, immunophenotypic, and cytogenetic-molecular features. The PML-RARafusion gene was detected by FISH and/or RT-PCR. Additionally, mutations in FLT3 [D835 and internal tandem duplications (ITD)], KRAS, NRAS, and PTPN11 mutations were analyzed. We also evaluated the risk association of pharmacogenetically important GST deletion polymorphisms (GSTT1 and GSTM1) by multiplex-PCR, in a case-case analysis to test the effect of genetic susceptibility on overall survival (OS). Patients were treated with the inclusion of all-trans retinoic acid in chemotherapy with anthracyclines and cytarabine. Kaplan-Meier survival analysis was used to calculate the 5-year probabilities of OS (pOS), and estimated survival values were compared using the log-rank test. Cox proportional-hazard regression model estimated the hazard ratio (HR) and 95% confidence intervals (CI). All p-values were two-sided using significance level of 0.05. Results. From the hospital-based registry, APL patients represented 17.6% of the cohort (164 out of 933 acute myeloid leukemia cases), while in the PBCR, they represented 4.4% (35 out of 805 acute myeloid leukemia cases registered). The age-adjusted incidence rate was 0.32 per million persons during 2000-2009 based on PBCR. According to the hospital-based registry, we found similar distribution of patients among age ranges >2-10 and >10-21 years old (43.3% and 51.8%, respectively) and sex. RAS mutations were observed in 51.7% of APLs, including FLT3 (43.0%), NRAS (6.5%), and KRAS (2.2%). Variants in PTPN11 were silent amino acid substitutions (rs61736914; 4.9%). We observed a statistically significant association between FLT3 mutations and high white blood cell count at diagnosis (>10x109/L; 72.6%), low platelet count (<40×109/L; 83.0%), and the PML-RARa breakpoint cluster region 3 (90.5%). Death in the first ten days after diagnosis (early death) affected 17.5% (24/137) patients and these cases were excluded from the survival analysis. The mean of overall survival was 45.1 months (95% CI 40.1-50.1 months; pOS 66.9±5.8%). Univariate analysis did not show an association between variables and OS rates, except for APL patients carrying the GSTT1 polymorphism. GSTT1 null genotype conferred adverse prognosis compared to wild-type genotype (pOS 48.2±13.4% and 79.0±6.3%, p=0.024; hazard ratio 2.6, 95% CI 1.1-6.2, p=0.030; Figure 1). Conclusions. APL represented 17.6% of acute myeloid leukemia in our cohort of Latino patients, which is a higher proportion compared to Northern European countries and the United States (5-10%). GSTT1 polymorphism modulated outcome, suggesting that lower enzyme activity may impact response to therapy. Decreasing early death and inclusion of GSTT1 polymorphism in therapeutic protocols for chemotherapy dose modulation may allow patients to reach the same overall survival observed in the United States (>70%). Disclosures No relevant conflicts of interest to declare.
Experimental and epidemiological data have shown that acute myeloid leukemia in early-age (i-AML) originates prenatally. The risk association between transplacental exposure to benzene metabolites and i-AML might be influenced by genetic susceptibility. In this study, we investigated the relationship between genetic polymorphisms in CYP2E1, EPHX1, MPO, NQO1, GSTM1 and GSTT1 genes, and i-AML risk. The study included 101 i-AMLs and 416 healthy controls. Genomic DNA from study subjects was purified from bone marrow or peripheral blood aspirates and genotyped for genetic polymorphisms by real-time PCR allelic discrimination, Sanger sequencing and multiplex PCR. Crude and adjusted odds ratios (OR, OR, respectively) with 95% confidence intervals (95% CI) were assessed using unconditional logistic regression to estimate the magnitude of risk associations. EPHX1 rs1051740 T>C was associated with i-AML risk under the co-dominant (OR 3.04, P = 0.003) and recessive (OR 2.99, P = 0.002) models. In stratified analysis, EPHX1 rs1051740 was associated with increased risk for i-AML with KMT2A rearrangement (OR 3.06, P = 0.045), i-AML with megakaryocytic differentiation (OR 5.10, P = 0.008), and i-AML with type I mutation (OR 2.02, P = 0.037). EPHX1 rs1051740-rs2234922 C-G haplotype was also associated with increased risk for i-AML (OR 2.55, P = 0.043), and for i-AML with KMT2A rearrangement (OR 3.23, P = 0.034). Since EPHX1 enzyme is essential in cellular defense against epoxides, the diminished enzymatic activity conferred by the variant allele C could explain the risk associations found for i-AML. In conclusion, EPHX1 rs1051740 plays an important role in i-AML's genetic susceptibility by modulating the carcinogenic effects of epoxide exposures in the bone marrow.
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