Background Despite the advances in the cure rate for acute myeloid leukemia (AML), a considerable number of patients die from the disease due to the occurrence of multidrug resistance (MDR). Overexpression of the transporter proteins, such as P‐glycoprotein (Pgp) and multidrug resistance‐associated protein (MRP), confers resistance to the treatment of these leukemias. Methods To analyze the expression of the Pgp and MRP1 in patients with AML and determine their correlation between expression and demographic, clinical, and laboratorial variables, bone marrow and peripheral blood samples from 346 patients with a diagnosis of AML were assessed for the expression of Pgp and MRP1 by flow cytometry. Results The expression of Pgp and MRP1 was found in 111 (32.1%) and 133 (38.4%) patients, respectively, with greater prevalence in older patients and lower in children, while also observing a high incidence in patients with refractory, recurrence, and secondary disease in comparison with the cases of de novo AML. Regarding the laboratory findings, we observed an association between the expression of Pgp and MRP1 and CD34, CD7, and also M7, M5a, and M2‐AML of French‐American‐British classification. Conclusions The results showed that the detection of MDR phenotype by flow cytometry can be a molecular marker for prognosis of patients with AML.
Due to the high prevalence of hemochromatosis, its genetic diagnosis has become a challenge, especially in the high-risk group.
BackgroundCytogenetic studies in Brazilian population about childhood acute lymphoblastic leukemia (ALL), the most common childhood malignancy, are scarce. Moreover, Brazilian race is very heterogeneous and is made by the confluence of people of several different origins, from the original Native Brazilians, with the influx of Portuguese colonizers, Black African slaves, and recent European, Arab and Japanese immigration. The purpose of this prospective, multicentric study was to assess the sociodemographic, clinic and cytogenetic characteristics of the children treated for ALL in the Northeast region of Brazil.ResultsThis study includes thirty patients between 4 months and 17 years old treated for ALL from January 1st, 2009 to November 30th, 2010. Cytogenetic analysis showed that in nineteen out of thirty patients (64%) presented some chromosome abnormalities, in which 53% corresponds to numerical abnormalities, 21% structural and numerical abnormalities, and 26% only structural changes. Moreover, seven patients presented complexes karyotype not yet described in the literature. Taken together these results show the importance of the cytogenetic analysis in ALL pediatric patients and illustrates that the studied population presented unexpected complexes karyotypes which were correlated to poor outcome.ConclusionThe results demonstrate the importance of banding cytogenetics for ALL diagnosis despite the use of most modern techniques such as FISH and aCGH, and provide reliable insight into the ALL in Brazil.
The authors conducted a flow cytometry immunophenotyping study in patients with acute lymphoblastic leukemia (ALL) from Natal, Rio Grande do Norte, Brazil. The patients (n = 126) were newly diagnosed using a panel of monoclonal antibodies: CD1a, CD2, CD3, CD4, CD7, CD8, CD10, CD13, CD33, CD14, CD19, CD22, CD79a, CD117, CD34, anti-IgM, anti-TdT, anti-HLA-Dr, and anti-human kappa and lambda light chains. Additional data, such as patients' age and gender, clinical and laboratory findings such as presence of tumor masses, lymphadenopathy, hepatomegaly, splenomegaly, leukemic infiltration in the central nervous system (CNS) were also investigated. Results showed that 56.7% of the cases were B-lineage ALL and 55% were T-cell ALL. Also, we found that males were more affected by the disease, regardless of immunological classification. The correlation between age and immunological subtypes showed that the B-lineage ALL occurred more frequently in patients aged under 15 while the T-cell ALL subtype was more frequent in adults. Immunophenotypic profiles and morphological subtypes showed a direct correlation between L3 subtype and B-lineage ALL, while L1 and L2 subtypes correlated more often with B-cell lineage and T-cell ALL, respectively. Correlation analysis between immunophenotypic and clinical profiles showed that T-cell ALL was more associated with a higher incidence of lymphadenopathy, hepatomegaly, splenomegaly and CNS leukemic infiltration, also showing a greater blast cell count in peripheral blood than the other subgroups. The presented data suggest that immunophenotyping is an important method in the diagnosis, monitoring and prognostic assessment in determining the pathological mechanisms of evolution of ALL.
Background: The detection of Intracellular (IC) antigens by flow cytometry (FC) such as myeloperoxidase (MPO), cCD13, cCD79a, cCD22, cCD3 and Terminal deoxynucleotidyl Transferase (TdT) has become the useful tool in the differential diagnosis between acute myeloid leukemias (AML) and acute lymphoid leukemias (ALL). Through detection of myeloid antigens (MPO and cCD13), B cells precursors (cCD79a and cCD22) and precocity T-cells (cCD3) it has been possible to confirm the diagnosis of these acute leukemias. The detection of intracellular cell markers by FC usually requires previous permeabilization of fresh cell suspensions. TdT, also known as DNA nucleotidylexotransferase (DNTT) or terminal transferase, is a specialized DNA polymerase expressed in immature, pre-B, pre-T lymphoid cells, and acute lymphoblastic leukemia/lymphoma cells. TdT adds N-nucleotides to the V, D, and J exons of the TCR and BCR genes during antibody gene recombination, enabling the phenomenon of junctional diversity. In humans, terminal transferase is encoded by the DNTT gene. This antigen is expressed mostly in the nucleus cells from primary lymphoid organs, like the thymus and bone marrow. The TdT detection has also been shown to be useful in confirming the acute forms of B and T-lineage lymphoproliferative diseases by FC. The aim of this study was to demonstrate the importance of this cell markers' detection by FC in the differential diagnostic of acute leukemias. Methods: Bone marrow and/or peripheral blood leukemic cells from 50 cases of acute leukemia: 16 ALL and 36 AML. The cells were fixed and permeabilized in briefly exposed to Becton & Dickinson Lyse Solution at concentration of 10%, and subsequently labeled with monoclonal antibodies anti-MPO, TdT, CD3, CD13, CD22 and CD79a. Results: The MPO expression was observed in 35/36(97,22%) and cCD13 in all cases of AML and in none ALL patients. Three cases of MPO-positive ALL (FAB-L2) could be reclassified as M0-AML. These cases were CD34+;HLADR+;CD33-;CD13-;CD7+ and cCD13+. The intensity of TdT expression was observed in 15/16 (93.8%) of ALL and 5/36 (13.9%) of AML. The cCD22 and cCD79a were positive in 15/16 (93.8%) and all of pre-B ALL respectively and cCD3 was expressed in one case of Pre-T ALL that initial phenotype was CD34+/HLADR+/TdT+/CD7+ and sCD3-). Conclusions: These results indicate that monoclonal antibodies anti-MPO, cCD13, cCD79a, cCD22, cCD3 and TdT were excellent cell markers for the diagnosis and classification of acute leukemias and can be reliably detected by FC. This rapid and specific technique should be a valuable addition to routine immunophenotyping of acute leukemia. Disclosures No relevant conflicts of interest to declare.
BACKGROUND: Today immunophenotyping by flow cytometry is an useful adjunct to cytomorphologyc analysis to correct diagnostic of leukemias. It provides objective and quantitative data allowing for a high level of sensitivity detection and better characterization of acute and chronic leukemias. The purpose of this study was to demonstrate the contribution of the immunophenotyping by monoclonal antibodies (Mo.Ab.) in leukemic cells from patients with acute and chronic leukemias. METHODS: Analyzed 76 patients with leukemias before the treatment. The diagnostic of leukemias was based on the morphological and immunophenotyping analysis of leukemic cells from peripheral blood and bone morrow. The cytomorphologycal analysis was based on French - American - Britsh criteria (FAB classification) in blood and bone marrow films stain by leishmann and the immunophenotyping by flow cytometry with a panel of Mo.Ab. specific to acute leukemias as: CD1a, CD2, CD3, CD4, CD5, CD8, CD7, CD10, CD13, CD19, CD20, CD103, CD22, CD33, CD34, CD117, CD38, HLADR, TdT, anti-mieloperoxidase, anti-IgM and anti-kappa and lambda light chain. Further clinical and laboratory information as age, sex, presence of tumoral mass, lymphadenopathy, hepatosplenomegaly, hemoglobin determination, total and specific white cell count and cytomorphological analysis of blood film and bone morrow smear. RESULTS: Thirty four patients presented acute myeloid leukemia (AML), twenty acute lymphoblastic leukemia (ALL), nineteen B-cell chronic lymphocytic leukemia (B-CLL), two T-cell chronic lymphocytic leukemia and one case was hairy cell leukemia (HCL). Males were more frequently found in all types of leukemias. ALL were more observed in children (age < 15 years old) and in AML however were more frequently in adults patients. The chronic leukemias were presented in patients with 50 years old or more in all cases. The correlation between the immunophenotyping and clinical pathological profile of these leukemias demonstrated that ALL were more associated to lymphadenopathy, AML to hepatosplenomegaly, and CLL to lymphadenopathy and high count of white cells in peripheral blood. The thrombocytopenia and anemia were found in more cases of acute leukemia. CONCLUSION: This date suggest that today the immunophenotyping by flow cytometry is an important methodology to diagnostic and classification of leukemias. Disclosures No relevant conflicts of interest to declare.
Background: The Philadelphia chromosome is a cytogenetic change resulting from a reciprocal translocation of genetic material between ABL genes from chromosome 9 and BCR from chromosome 22 or t(9; 22) (q34; 11), forming the chimeric gene BCR- ABL, being associated with chronic myeloid leukemia (CML), acute lymphoid leukemia (ALL) and acute myeloid leukemia (AML). The p190 variant is usually associated with acute forms of leukemia, including AML and ALL, whereas the p210 variant is associated with the chronic phases of CML. Due to the high sensitivity and specificity, nucleic acid amplification techniques by real-time PCR have replaced the conventional cytogenetic techniques for the identification of the Philadelphia chromosome and its p190 and p210 variants. Molecular analysis has been indicated in the initial diagnostic phase and also for the therapeutic monitoring defining the percentage of neoplastic cells present in the patients during the different phases of the treatment (Minimum Residual Disease or MRD).The aim of this study was the transcript BCR-ABL identification in patients with suspected of CML and evaluation of the gene frequency in these patients. Methods: The presence of BCR-ABL gene was investigated in blood samples from 42 patients with suspected CML. The RNA extraction was performed by phenol/chloroform method. The cDNA was submitted to PCR, using specific primers for and BCR-ABL genes by Real time PCR. Results: From all studied patients, 16 (38.10%) were negative, and 26 (59.09%) positive for one of rearrangements: p210 b3a2 and b2a2 in 18 cases (40.91%) and p190 a1a2 in 2 cases (4,76%) and double positive p120/190 in 6 cases (14,28%). We observed that the most common rearrangement was the p210 b3a2, and the molecular results were compatible with clinical and hematologic suspicion. Conclusions: The Real-timePCR, because of its specificity and sensitivity, can be considered the most used technique in routine diagnosis and investigation of MRD of CML patients. Disclosures No relevant conflicts of interest to declare.
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