Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.1 (asparaginase)
 2,695 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Therapy of acute myelogenous leukemia (AML) with sequential high-dose ara-C and asparaginase (HiDAC----ASNase) on a day 1 and 8 schedule was designed to exploit potential recruitment of residual leukemia cells following initial cytoreduction from day 1 treatment. DNA flow cytometry was used to evaluate the proliferative index (%S + G2M) of bone marrow leukemia cells from pretreatment and day 8 marrow samples. The proliferative index on day 1, day 8, and incremental change (day 8 minus day 1) were analyzed for their correlation with bone marrow aplasia on day 15 and with the attainment of subsequent complete remission. Pretreatment (day 1) and the change in proliferative index did not correlate (p greater than 0.10) with day 15 marrow aplasia or with clinical outcome. However, the magnitude of the day 8 proliferative index did relate to the attainment of bone marrow aplasia on day 15 (p = 0.05) and the attainment of complete remission (p = 0.002). Recruitment of residual leukemia cells into the proliferative phases of the cell cycle may contribute to the unique efficacy of the day 1 and 8 schedule of HIDAC----ASNase. Additionally, the cytokinetics of residual leukemia after initial chemotherapy may be predictive of outcome and could be useful as a marker for the design of optimal therapeutic regimens.
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PMID:Correlation of the proliferative index of residual leukemia with outcome in patients treated with sequential high dose ara-C and asparaginase. 238 77

The in vivo effects of several chemotherapeutic agents on the mitotic cycle of leukemic blasts in the bone marrow were evaluated by serial measurements of cells in mitosis and in deoxyribonucleic acid (DNA) synthesis as indicated by ability to incorporate tritiated thymidine or tritiated deoxyuridine. 28 studies were done in 23 children and 1 adult. The changes in the marrow after a single injection of L-asparaginase, hydrocortisone, cyclophosphamide, cytosine arabinoside, methotrexate, and an exchange transfusion (62% of the total blood volume) were evaluated. L-asparaginase and hydrocortisone were found to arrest the entry of cells into the S period. Cyclophosphamide appeared to inhibit DNA synthesis, arrest cells in mitosis, and inhibit the entry of cells into the S period. Cytosine arabinoside, and methotrexate inhibited DNA synthesis. During the period of time the cells were inhibited in the S phase by these two drugs, cells continued to enter the S period. Thus partial synchronization was achieved after these two drugs. An exchange transfusion had no consistent effect on the mitotic cycle, but partial synchronization in the S period was seen in one patient. To take advantage of the ability of cystosine arabinoside, to synchronize leukemic cells in the S phase, a second cycle-dependent drug was given at the time the leukemic blasts were synchronized. The second cycle-dependent drugs evaluated were vincristine, methotrexate, and cytosine arabinoside given by intravenous drip over a 12 hr period. Recruitment was found after cytosine arabinoside alone, and after prior synchronization with cytosine arabinoside and then the administration of either of these drugs. The results of these studies indicate that a greater therapeutic advantage can be achieved by a second cycle-dependent drug after synchronization than after the second drug alone.
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PMID:Synchronization and recruitment in acute leukemia. 528 86