The treatment of patients with multiple myeloma usually includes many drugs including thalidomide, lenalidomide and bortezomib. Lovastatin and other inhibitors of HMG-CoA reductase demonstrated to exhibit antineoplasmatic and proapoptotic properties in numerous in vitro studies involving myeloma cell lines. We treated 91 patients with relapsed or refractory multiple myeloma with thalidomide, dexamethasone and lovastatin (TDL group, 49 patients) or thalidomide and dexamethasone (TD group, 42 patients). A clinical response defined of at least 50% reduction of monoclonal band has been observed in 32% of TD patients and 44% of TDL patients. Prolongation of overall survival and progression-free survival in the TDL group as compared with the TD group has been documented. The TDL regimen was safe and well tolerated. The incidence of side effects was comparable in both groups. Plasma cells have been cultured in vitro with thalidomide and lovastatin to assess the impact of both drugs on the apoptosis rate of plasma cells. In vitro experiments revealed that the combination of thalidomide and lovastatin induced higher apoptosis rate than apoptosis induced by each drug alone. Our results suggest that the addition of lovastatin to the TD regimen may improve the response rate in patients with relapsed or refractory myeloma.
The purpose of our study was to determine the efficacy of 2-chlorodeoxyadenosine (2-CdA) administered in 2-hour intravenous infusions in previously treated patients with low grade non-Hodgkin's lymphoma (LGNHL). We treated 94 LGNHL patients with 2-CdA at a dosage of 0.12 mg/kg/24h in 2-hour intravenous infusion for 5 consecutive days. The treatment consisted of from 1 to 7 courses (median 3), repeated usually at monthly intervals. All patients were refractory to or relapsed after standard chemotherapy. Of these 94 patients 78 (83%) had clinical stage IV of the disease. Complete response (CR) was obtained in 12 (12.8%) and partial response (PR) in 36 (38.3%) giving an overall response rate of 51.1%. In 12 (12.8%) grade 4 thrombocytopenia with haemorrhagic diathesis was noted, grade 4 neutropenia was observed in 12 (12.8%) and infections complicated the course of treatment in 38 (40.4%) patients. 2-CdA treatment was the cause of death of 3 patients. The results of our study show that 2-CdA given in 2-hour infusions is an effective agent in advanced, heavily pretreated patients with LGNHL.
The BIRC5 gene encodes a survivin protein belonging to class III of inhibitors of apoptosis, IAP. This protein serves a dual role. First, it regulates cell death, and second, it is an important regulator of mitosis progression, although its physiological regulatory function has not been fully understood. Many studies have shown and confirmed that survivin is practically absent in mature tissues in nature, while its overexpression has been reported in many cancerous tissues. There is little information about the significance of BIRC5 expression in normal adult human stem cells. This paper presents the study and analysis of survivin expression at the transcription level using qPCR method, in hematopoietic stem cells from peripheral blood mobilized with a granulocyte growth factor, adherent cells derived from the umbilical cord, and normal bone marrow stem cells. The expression of this gene was also examined in the blood of normal healthy individuals. The results of the analysis have shown that the more mature the cells are, the lower the expression of the BIRC5 gene is. The lowest expression has been found in peripheral blood cells, while the highest in normal bone marrow cells. The more the CD34+ and CD105 cells in the tested material are, the higher the BIRC5 expression is. Stem cells from cell culture show higher BIRC5 expression. The study confirms the involvement of BIRC5 from the IAP family in many physiological processes apart from apoptosis inhibition. The possible effect of BIRC5 on cell proliferation; involvement in cell cycle, cell differentiation, survival, and maintenance of stem cells; and the possible effect of IAP on the antineoplastic properties of mesenchymal stem cells have been demonstrated. Our research suggests that BIRC5 may be responsible for the condition of stem cell pluripotency and its high expression may also be responsible for the dedifferentiation of tumor cells.
This is a retrospective, multicenter study to evaluate biological features and outcome of elderly patients diagnosed with acute lymphoblastic leukemia (ALL) during the last 10 years in ten hematological centers in Poland. Eighty-seven patients aged 60 years or older were studied. To our knowledge, this is one of the largest group of elderly patients with ALL evaluated. We have not observed differences in immunological subtypes and Ph chromosome incidence as compared with younger adult ALL presented in the literature. Induction chemotherapy was administered in 75 patients. We observed complete remission (CR) in 34 (45%, 95% CI: 33-56%) patients. Induction death occurred in 11 (15%) patients. Thirty patients (40%) showed primary resistance to chemotherapy. Median overall survival (OS) of all patients was 150 days. Median disease-free survival (DFS) of responding patients was 180 days. We observed four long-term survivors (DFS longer than 3 years) in our group of patients. Factors influencing OS were CR achievement, female gender, and WBC below 30 x 10(9)/l. Male gender was the only prognostic factor negatively affecting probability to achieve CR. We have not observed any differences in either biology or outcome between patients aged 60-69 years and those aged more than 70 years. ALL of the elderly is a rare disease with poor prognosis. Further clinical trials evaluating the disease features, outcome, and new therapeutic approaches are warranted.
IntroductIon L-asparaginase is an enzyme of the hydrolase class that catalyzes the degradation of L-asparagine-an amino acid (amide of 2-aminosuccinic acid), to aspartic acid and ammonia. This enzyme is present in numerous bacteria, plants and animals. However, it has not been found in humans. The presence of L-asparagine is essential for a normal course of the cell cycle. In most human cells the deficit of the endogenous asparagine may be compensated by alternative synthesis from aspartic and glutamine acid involving the asparagine synthase. This enzyme is absent in certain neoplasmatic cells, particularly in lymphoblasts, thus the depletion of L-asparagine from the plasma leads to DNA, RNA and protein synthesis inhibition and in consequence to blast cell apoptosis. L-asparaginase demonstrates relative substrate specificity and
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