Мета роботи. Здійснити синтез нових неконденсованих піридин-тіазол/тіазолідинонів та провести дослідження їх протитрипаносомної активності in vitro.Матеріали і методи. Вихідні реагенти синтезовані за відомими методиками із комерційно доступних реактивів. 1Н та 13С ЯМР спектри знімали на приладах Varian Gemini 400 MHz та Varian Mercury-400 100 MHz, відповідно. Хромато-мас-спектри одержано на спектрометрі Agilent 1100 Series LCMS. Температуру плавлення визначали на приладі BÛCHI B-545.Результати й обговорення. На основі реакцій [2+3]-циклоконденсації одержано серії похідних тіазолу, тіазоліну та 5-заміщених 4-тіазолідинонів із піридиновим фрагментом у молекулах. Як S,N-бінуклеофіли використано тіосемікарбазони 3- та 4-піридинкарбальдегідів, а як еквіваленти діелектрофільного синтону [C2]2+ α-галогенокарбонові кислоти, етил-2-хлорацетоацетат, метил-2-бромо-3-(3-метилфеніл)пропіонат та малеїніміди. Скринінг антитрипаносомної активності in vitro на штамах Trypanosoma brucei gambiense дозволив ідентифікувати високоактивне неконденсоване похідне фуран-піридин-тіазоліну, що володіє трипаноцидним ефектом в мікромолярній концентрації (IC50 = 3.32 мкМ), а також перспективні для оптимізації ефекту 5-етил-2-(піридинілметиленгідразин)тіазол-4-они.Висновки. Вперше одержано нові неконденсовані піридин-тіазоли/тіазолідинони як перспективні агенти для фармакокорекції сонної хвороби.
Immunophenotyping of leukemia cells was studied in this work; minimal residual disease was monitored among children with acute lymphoblastic leukemia under conditions of relapse and complete remission after the application of ALLIC-BFM 2009 cytostatic therapy. The study showed that after application of ALLIC-BFM 2009 therapy, 88% of children had complete remission, and 12% had relapses. Among patients with relapses, the number of blast cells in the bone marrow was at a high level (more than 6%). Monitoring of patients during therapy established an increase in the minimal residual disease level of more than 1% after treatment in patients with recurrent disease. Immunophenotyping of blast cells among patients with relapse showed the expression of linear independent antigens HLA (93%), Auti-TdT (91%), CD10 (78%), CD38 (91%) and CD34 (57%) and B-linear antigens: CD19, CD22, CD58, CD79a, the highest expression was found for the CD19 antigen. A low level of expression of CD45 (28%) was recorded with relapses of acute lymphoblastic leukemia and high (89%) level was with complete remission of the disease. We did not detect expression of antigens characteristic of T-cell acute lymphoblastic leukemia in bone marrow of patients with acute lymphoblastic leukemia, both with relapses and with remission. At the same time, the expression of myeloid antigens (CD33 and CD13) was noted among acute lymphoblastic leukemia patients. Among patients, the incidence of acute lymphoblastic leukemia was the most pronounced in children aged from 3 to 6 years – 37 patients (35.2%) and aged from 6 to 9 years – 26 (24.8%) patients. The highest accidence was found among patients with chromosomal translocation TEL / AML – 22 (21%) patients with a median age 5 years. In second place, the frequency of mutations is the translocation of E2A / PBX1. BCR / ABL translocation was less common. It was noted in 1.9% of patients, but the expression of this gene indicated a bad course of the disease, as patients after cytostatic therapy under the ALLIC BFM 2009 program had a recurrence. Recurrence was also observed in patients with TEL/AML chromosomal translocation. Determination of minimal residual disease showed its increased level in patients with chromosomal aberrations BCR / ABL and TEL/AML throughout the treatment phase. In addition, patients in these groups were diagnosed with initial leukocytosis followed by leukopenia after a course of chemotherapy. Patients of all groups showed a decrease in hemoglobin. The biggest changes in clinical and laboratory parameters were found between patients with chromosomal translocations BCR/ABL and TEL/AML, as evidenced by the development of relapses in patients of these groups. The low level of association between karyotype disorders, with the formation of AF4/MLL and E2A/PBX1, and clinical and laboratory parameters in patients with acute lymphoblastic leukemia may indicate that the isolated clonal disorders are independent prognostic factors for the course of the disease
The correlation analysis between the number of blast cells in bone marrow and peripheral blood was performed, and the dependence of blast percentage on the presence of molecular genetic translocations (AF4/MLL, BCR/ABL1, TEL/AML, E2A/PBX1) in patients with acute lymphoblastic leukemia (ALL) under the conditions of ALLIC-BFM 2009 cytostatic therapy was researched. The purpose of the study was to establish a relationship between the number of blast cells in bone marrow and peripheral blood depending on the presence of molecular genetic translocations for early detection of induction treatment by ALLIC BFM 2009. Materials and methods. The survey group consisted of 105 children aged 12 months to 16 years (median age was 6 years). Among those surveyed were 62 boys (59.0%) and 43 girls (41.0%). All patients were diagnosed with acute lymphoblastic leukemia. Results and discussion. Correlation analysis revealed a high degree of correlation between the number of blast cells in the bone marrow and peripheral blood, as the correlation coefficient (r) is 0.87. It is shown that the increase in the number of blast cells depends on the presence of chromosomal translocations. The highest number of blasts was observed in patients with BCR/ABL1 and E2A/PBX1 translocations, in whom the content of blasts in bone marrow was 97 and 96%, respectively, and in peripheral blood - 67 and 73%, respectively. It was found that treatment under the ALLIC BFM 2009 program leads to a decrease in the number of blast cells in the bone marrow and blood with minimal values on the 33rd day of treatment. It has been shown that the highest levels of blast cells during chemotherapy are observed in patients with chromosomal translocations BCR/ABL1 and E2A/PBX1. In patients with AF4/MLL translocation, the efficacy of therapy was the highest because no blast cells in the bone marrow were visualized on day 33 of treatment. The study of the primary response of patients with acute lymphoblastic leukemia to induction treatment according to the ALLIC BFM 2009 program revealed the dependence of the level of blast cells of bone marrow and blood on the type of chromosomal aberration. Patients with BCR/ABL1 and E2A/PBX1 have the highest resistance to chemotherapy with molecular genetic translocations, and patients with AF4/MLL and TEL/AML have the lowest resistance, as evidenced by the presence and absence of blast cells in the peripheral blood, respectively. Conclusion. Establishing the relationship between cytogenetic and molecular genetic features of the tumour clone will help determine the degree of malignancy of the process, as well as the risk group for the course of the disease. Determining the dependence of acute leukemia on molecular genetic translocations will make it possible to further modify the treatment program
The aim of this study was to evaluate the prognostic value of the relationship between genetic abnormalities and clinical and laboratory parameters of peripheral blood and bone marrow in children with acute lymphoblastic leukemia (ALL). Material and methods. 105 children diagnosed with ALL were examined (average age 6 years). To detect chromosomal translocations AF4/MLL t(4; 11) (q23; p23), BCR/ABL t (9; 22) (q34; q11), E2A/PBX1 t (1; 19) (q23; p13) and TEL/AML t(12; 21) (q13; q22) the method of polymerase chain reaction with reverse transcription (RT-PCR) was applicated. PCR was performed with specific primers for the appropriate chromosomal aberrations. Detection of PCR products was performed by electrophoresis in 2% agarose gel. Determination of minimal residual disease (MRD) was performed by multiparameter flow cytofluorimetry using monoclonal antibodies. Results. Among patients, the incidence of ALL is most pronounced in children aged 3 to 6 years - 37 people (35.2%) and aged 6 to 9 years - 26 people (24.8%). The highest accidence was found among patients with chromosomal translocation TEL/AML - 22 (21%) of patients with a median age of 5 years. In the second place, the frequency of mutations is the translocation of E2A / PBX1. BCR / ABL translocation was less common - 1.9% of patients, but the expression of this gene indicates a bad course of the disease, as patients after cytostatic therapy under the ALLIC BFM 2009 program had a recurrence. Recurrence has also been observed in patients with TEL/AML chromosomal translocation. Determination of MRD showed its increased level in patients with chromosomal aberrations BCR / ABL and TEL/AML throughout the treatment phase. In addition, patients in these groups were diagnosed with initial leukocytosis followed by leukopenia after a course of chemotherapy. Patients of all groups showed a decrease in hemoglobin. Conclusion. The most significant changes in clinical and laboratory parameters were found among patients with chromosomal translocations BCR/ABL and TEL/AML, as evidenced by the development of relapses in patients of these groups. The low level of association between karyotype disorders, with the formation of AF4/MLL and E2A/PBX1, and clinical and laboratory parameters in patients with GLL may indicate that the isolated clonal disorders are independent prognostic factors for the course of the disease.
The aim of this study was to evaluate the prognostic value of the relationship between genetic abnormalities and clinical and laboratory parameters of peripheral blood and bone marrow in children with acute lymphoblastic leukemia (ALL).Material and methods. 105 children diagnosed with ALL were examined (average age 6 years). To detect chromosomal translocations AF4/MLL t(4; 11) (q23; p23), BCR/ABL t (9; 22) (q34; q11), E2A/PBX1 t (1; 19) (q23; p13) and TEL/AML t(12; 21) (q13; q22) the method of polymerase chain reaction with reverse transcription (RT-PCR) was applicated. PCR was performed with specific primers for the appropriate chromosomal aberrations. Detection of PCR products was performed by electrophoresis in 2% agarose gel. Determination of minimal residual disease (MRD) was performed by multiparameter flow cytofluorimetry using monoclonal antibodies.Results. Among patients, the incidence of ALL is most pronounced in children aged 3 to 6 years - 37 people (35.2%) and aged 6 to 9 years - 26 people (24.8%). The highest accidence was found among patients with chromosomal translocation TEL / AML - 22 (21%) of patients with a median age 5 years. In second place, the frequency of mutations is the translocation of E2A / PBX1. BCR / ABL translocation was less common - 1.9% of patients, but the expression of this gene indicates a bad course of the disease, as patients after cytostatic therapy under the ALLIC BFM 2009 program had a recurrence. Recurrence has also been observed in patients with TEL/AML chromosomal translocation.Determination of MRD showed its increased level in patients with chromosomal aberrations BCR / ABL and TEL/AML throughout the treatment phase. In addition, patients in these groups were diagnosed with initial leukocytosis followed by leukopenia after a course of chemotherapy. Patients of all groups showed a decrease in hemoglobin.Conclusion. The biggest changes in clinical and laboratory parameters were found between patients with chromosomal translocations BCR/ABL and TEL/AML, as evidenced by the development of relapses in patients of these groups. The low level of association between karyotype disorders, with the formation of AF4/MLL and E2A/PBX1, and clinical and laboratory parameters in patients with GLL may indicate that the isolated clonal disorders are independent prognostic factors for the course of the disease.
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