Therapy of refractory/relapsed acute myeloid leukemia and blast crisis of chronic myeloid leukemia with the combination of cytosine arabinoside,tetrahydrouridine, and carboplatin

Summary Eight patients, of whom four had acute myeloid leukemia (AML) and four had chronic myeloid leukemia (CML) blast crisis, were treated with a combination of cytosine arabinoside (ARA-C: 1,600 mg/m² in three patients, 1,200 mg/m² in five patients), tetrahydrouridine (THU: 2,800 mg/m² in two patients, 2,646 mg/m² in one patient, 2,100 mg/m² in five patients), and carboplatin (900 mg/m² in four patients, 720 mg/m² in one patient, 450 mg/m² in three patients). As a result of this treatment, five of the eight patients became aplastic. Two of the four patients with CML blast crisis reverted to the chronic phase and two of the four patients with acute nonlymphocytic leukemia (ANLL) attained a remission (one partial remission and one complete remission). The major toxicities included myelosuppression, unacceptable hepatotoxicity, and diarrhea. Pharmacokinetics studies revealed that the addition of carboplatin did not significantly change the disposition of ARA-C. ARA-C levels were not significantly changed in comparison with those obtained in a prior study of ARA-C with THU (ARA-C plasma levels at 3 h, 2630±1170 ng/ml).Supported by the Don Monti Memorial Research Foundation     

Interaction between retinoic acid and cytosine arabinoside affecting the blast cells of acute myeloblastic leukemia

Retinoic acid (RA) is a potent morphogen that has been shown to increase differentiation in some leukemic cell populations. RA has been used in treatment of some patients with acute myeloblastic leukemia (AML) and myelodysplastic syndromes. In previous experiments we had observed that RA may decrease the self-renewal of blast cells in established cell lines, and in our clinic RA has been tested as maintenance treatment in association with chemotherapeutic drugs. Accordingly, we asked if exposure of AML blast cells to RA affected their subsequent response to ara-C. We found that brief exposure to RA regularly increased the ara-C sensitivity of cells from two established AML cell lines. A similar, though less marked, effect was seen when the blast cells from one patient were tested directly; in a second instance, highly ara-C resistant blasts did not become sensitive when exposed to RA. Experiments using high specific activity tritiated thymidine did not disclose any changes in the proportion of AML cells in the DNA synthesis phase of the cycle at times when their responses to ara-C were changing. We interpret our findings as support for continuing efforts to integrate RA in the management of AML patients and suggest that the mechanism of ara-C sensitization may not depend on changes in the cell cycle.     

Combination of granulocyte colony-stimulating factor and low-dose cytosine arabinoside further enhances myeloid differentiation in leukemia cells in vitro

We examined the differentiation-inducing effect on freshly isolated myeloid leukemia cells in liquid suspension culture by combined treatment with granulocyte colony-stimulating factor (G-CSF) plus low-dose cytosine arabinoside (Ara-C; 5-10 ng/ml) in 25 patients with acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS) in leukemic transformation. Culture with G-CSF alone showed leukemic cell growth stimulation in 15 out of the 25 cases (60%) and induction of cell differentiation in 19 out of the 25 cases (76%), respectively. In 23 cases (92%), either growth stimulation and/or differentiation induction of leukemia cells was observed in response to G-CSF. This suggests that most myeloid leukemia cells are able to respond to G-CSF stimulation. In addition, treatment of cells with low-dose Ara-C alone resulted in the enhancement of myeloid specific antigens expression in 16 cases (64%). Treatment of leukemia cells with higher concentrations of Ara-C (over 50 ng/ml) alone resulted in cytocidal effects but not in the induction of differentiation. Furthermore, 15 cases (60%) showed pronounced myeloid differentiation of leukemia cells after combined exposure to G-CSF plus low-dose Ara-C as compared with cells treated with either G-CSF or Ara-C alone. The enhanced effect of differentiation induction by combining G-CSF plus low-dose Ara-C was also observed in a murine myeloid leukemia cell line WEHI-3B in vitro. These data suggest that treatment with G-CSF plus low-dose Ara-C is capable of inducing differentiation of leukemic cells in vitro, and also appears to be useful for the differentiation-based therapy of patients with AML and MDS.     

Simultaneous administration of granulocyte-macrophage colony-stimulating factor and cytosine arabinoside for the treatment of relapsed acute myeloid leukemia

The treatment of patients with relapsed or refractory acute myeloid leukemia (AML) with high dose cytosine arabinoside (ara-C) results in short-lived complete response rates of 30-50%. We have previously shown that entry of myeloid leukemic cells into S phase can be accelerated in vitro through the use of recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF), resulting in enhancement of ara-C-mediated cytotoxicity. In order to evaluate the in vivo biological and clinical effects of this strategy in patients with high risk AML, we treated three patients with either refractory or relapsed disease with a continuous infusion of rhGM-CSF (0.45 micrograms/kg/h aglycoprotein) for 18 h, followed by the institution of high dose ara-C and continuation of rhGM-CSF throughout the 4 day duration of ara-C treatment. Prior to therapy, no patient had detectable levels of circulating rhGM-CSF, and there was no evidence of GM-CSF receptor occupancy in leukemic myeloblasts. After 18 h of rhGM-CSF therapy, all patients had biologically active levels of circulating rhGM-CSF (7.9-12.0 ng/ml), and two patients showed a significant degree of leukemic GM-CSF receptor occupancy without evidence of GM-CSF receptor down-regulation. A significant rise in the S phase fraction of leukemic myeloblasts was observed at 18 h of rhGM-CSF treatment in all three patients (29-56% increment). The toxicity of combined rhGM-CSF/ara-C therapy included pericarditis and cerebellar degeneration in one patient, fever and mild renal dysfunction in two patients, and mild hepatic dysfunction in all three patients. Each patient showed a transient rise in the absolute neutrophil and blast count during rhGM-CSF/ara-C administration, followed by profound, but clinically tolerable, myelosuppression. No patient developed clinical evidence of leukostasis. There was one death related to pericardial tamponade, one death related to refractory disease, and one clinical and cytogenetic remission. These results suggest that exogenously administered rhGM-CSF is capable of rapidly mobilizing leukemic cells into S phase in vivo and theoretically should be useful in overcoming kinetic resistance to ara-C. Clinical trials of this regimen in patients with high risk AML who are not already pharmacologically resistant to ara-C are warranted.     

High-dose cytosine arabinoside: treatment and cellular pharmacology of chronic myelogenous leukemia blast crisis

Twenty-one patients with chronic myelogenous leukemia (CML) in blastic transformation underwent 22 remission induction attempts with high-dose cytosine arabinoside (ara-C), administered as a two-hour infusion of 3 g/m2 for six to 12 doses. Ara-C doses were administered every 12 hours in 15 patients and every six to ten hours in six patients. Median patient age was 35 years (range, 20 to 62). The median duration of benign phase was 25 months (range, 0 to 167). Morphology of blast crisis blast cells was myeloid in 15 patients and lymphoid in six. Five patients achieved complete remission (CR), three had partial remission (PR), and one had hematologic improvement, for an overall response rate of 41%. Median remission duration was 2.5 months (range, 0.5 to 6 months). Survival duration was 6 months for responding patients and 1.5 months for those with resistant disease. The response rate was similar for patients with myeloid and lymphoid blast crisis (31% v 50%, respectively). The response rate was significantly higher for patients whose benign phase was less than 1 year (75% v 21%, P = .05) and who had prolonged marrow aplasia after ara-C (86% v 27%, P = .05). Myelosuppression was the major dose-limiting toxicity, and cerebellar toxicity occurred in two patients. Intracellular ara-C 5'-triphosphate (ara-CTP) levels were similar in blood and bone marrow leukemic cells and were slightly greater in the cells of responding patients compared to those with resistant disease. We conclude that high-dose ara-C is an effective regimen for CML blast crisis, resulting in a substantial response rate but modest remission duration. Its combination with other agents may further improve the prognosis of patients with this resistant disease.     

Participation of granulocyte colony-stimulating factor in the growth regulation of leukemia cells from Philadelphia chromosome-positive acute leukemia and blast crisis of chronic myeloid leukemia.

Granulocyte colony-stimulating factor (G-CSF) has been shown to support the growth of multipotential hematopoietic stem cells in addition to the cells of neutrophilic lineage. Philadelphia chromosome (Ph1)-positive leukemia has its origin in the hematopoietic stem cell. In the present study, we demonstrated that the proliferation of leukemic cells from chronic myeloid leukemia in blast crisis (CML-BC) and Ph1-positive acute lymphoblastic leukemia (ALL) cases is frequently stimulated with G-CSF in vitro. We next studied a total of 12 leukemic cell lines established from CML-BC (n= 6) and Ph1-positive acute leukemia (n= 6): four 'myeloid', five 'biphenotypic', and three 'lymphoid' types. All cell lines expressed G-CSF receptor (G-CSFR) in flow cytometric analysis, but their proliferative response to G-CSF in 3H-thymidine incorporation assay varied. The 'biphenotypic' cell lines expressed G-CSFR at higher levels and showed the most pronounced response to G-CSF. The 'lymphoid' cell lines showed intermediate G-CSFR expression with the modest response to G-CSF. Unexpectedly, 'myeloid' cell lines showed lower G-CSFR expression and lower G-CSF response compared with 'biphenotypic' cell lines. In three of four 'myeloid' cell lines, proliferation was partially inhibited by an addition of anti-G-CSF neutralizing monoclonal antibody into culture medium. Further, the % inhibition of 3H-thymidine uptake of cell lines positively correlated with the amount of their intracellular G-CSF measured by enzyme immunoassay, suggesting an autocrine growth mechanism via the G-CSF/G-CSFR interaction. These results suggest that G-CSF play an important role in the growth regulation of leukemia cells from Ph1-positive acute leukemia and CML-BC.     

Extramedullary blast crisis in chronic myeloid leukemia

Among 235 patients with CML we reviewed 91 patients with BC diagnosed between 1980 and 1995; 15 of the 91 (16%) developed extramedullary disease (EMD). The sites involved were the lymph nodes (13/15), CNS (1/15) and suborbital mass (1/15). The appearance of EMD was associated with chronic phase (CP) features in the bone marrow in 3/15 cases, with accelerated phase (AP) in 3/15 and with BC in 9/15. 11/15 (73%) cases of EMD were classified as myeloid (My-EMD) and 4/15 as lymphoid-type (Ly-EMD): three B-phenotype and one T-phenotype. All Ly-EMD cases were treated with vincristine, daunorubicin and prednisone and obtained complete remission (CR). Cases of My-EMD were treated with daunorubicin and cytosine arabinoside, of which only 1/11 achieved CR. We suggest that in EMD also, the type, lymphoid or myeloid, of BC has a bearing on treatment response and prognosis: Ly-EMD is more responsive to treatment and has longer survival than My-EMD.     

Burkitt-like blast crisis in chronic myeloid leukemia

A case of Burkitt-like blast crisis in a patient with chronic myelocytic leukaemia (CML) is presented. To our knowledge, this is the first such case recorded to date. The patient had a useful response to combination chemotherapy.     

Clonally unrelated BCR-ABL-negative acute myeloblastic leukemia masquerading as blast crisis after busulphan and interferon therapy for BCR-ABL-positive chronic myeloid leukemia.

We report a patient with Philadelphia (Ph)-positive, BCR-ABL rearrangement positive, chronic myeloid leukemia (CML) with a prolonged chronic phase of 24 years who was first prescribed alpha-2 interferon 22 years after initial diagnosis. This therapy was tolerated poorly on account of thrombocytopenia, but an eventual major cytogenetic response was followed soon afterwards by transformation to terminal acute myeloid leukemia (AML). Cytogenetic studies indicated that the transformed myeloblasts were karyotypically normal and Ph negative. Although polymerase chain reaction (PCR) analysis of total leukemic mRNA remained BCR-ABL positive, other molecular studies, including Southern blotting and fluorescent in situ hybridization (FISH) analyses, showed that myeloblasts were BCR-ABL rearrangement negative. PCR-based clonality studies using an X-chromosome-linked restriction fragment polymorphism within the phosphoglycerate kinase gene (PGK1) further showed that the Ph-negative blast cells had a different clonal origin from the Ph-positive clone of chronic phase. We suggest that cases of underlying Ph-negative leukemic transformation in Ph-positive CML warrant further study and should be considered for trial of intensive remission induction therapy as appropriate for acute leukemia.     

Attempted prevention of blast crisis in chronic myeloid leukemia by the use of pulsed doses of cytosine arabinoside and cis-chloronitrosurea during the course of busulfan-maintained remission

We performed this chemotherapeutic trial to try to delay the onset of the blast crisis of chronic myeloid leukemia (CML) by pulsing doses of drugs most likely to be effective against emerging "blast" cells characteristic of acute phase disease. A randomized trial in patients with CML comparing busulfan maintenance to busulfan maintenance plus pulsed doses of cytarabine and lomustine did not yield any differences in either time to blast crisis or death.     

Treatment of acute myeloid leukemia with amsacrine and high-dose cytosine arabinoside: a phase II trial

Ten patients with acute myeloid leukaemia on failure or relapse were treated by Amsacrine and high-dose (12 g/m2) Cytosine Arabinosyl (phase II trial). Four patients achieved complete remission, over six months in one instance. Hematologic toxicity was important but extra-hematologic toxicity was mild. These two drugs could be used as induction or reinforcement treatment in acute myeloid leukaemia.     

Cell growth in chronic myeloid leukemia at blast crisis

During the stage of blast crisis, the increase in the population of peripheral blasts in one examined untreated CML patient, obeyed an exponential equation of growth that requires a maintained equal proportion of proliferating to quiescent blasts. A model of cell growth at CML blast crisis is presented, which interprets the required constancy of equal-size blast subcompartments in terms of regulation of the G0----G1 flow, the latter involving activation of one cell out of three interacting quiescent blasts in contact. This model is discussed in the light of evidence that G0 blast activation involves membrane-bound interacting sites interfering with growth-promoting pathways. The model-predicted proliferative index (f) value of 0.5 +/- 0.16 is found to be nearly identical to a reported estimate of the 3H-thymidine-labeling index of CML blasts at the crisis stage of the disease. It is also close to corresponding indexes of CML blood and marrow progenitor cells and to labeling indexes of AML and ALL large blasts.     

Nodal T cell blast crisis in chronic myeloid leukemia

We report the case of a 54 year old male with an original diagnosis of chronic myeloid leukemia (CML) who developed a nodal T cell blast crisis (BC) while he was in a complete hematological remission (CR). We describe the clinical presentation and the histological, immunophenotypic and molecular characterization of the lymph node blast cells. Our case, together with other rare similar reports in the literature, argue that a T cell nodal blast crisis of CML resembles the presentation of a T-cell non-Hodgkin's lymphoma.     

Granulocyte colony-stimulating factor, granulocyte-macrophage colony-stimulating factor and macrophage colony-stimulating factor in the treatment of acute myeloid leukemia and acute lymphoblastic leukemia

The role of G-CSF, GM-CSF and M-CSF in the treatment of AML and ALL was reviewed. These CSFs significantly accelerate the neutrophil recovery after intensive chemotherapy, and reduce febrile neutropenia and documented infections. There is no clear evidence that CSFs accelerate early regrowth of AML cells at the doses and schedules presently used clinically except one study. Patients who have received CSFs tend to have a higher CR rate, which does not seem to be translated into definite survival benefit. There has been no prospective randomized study showing any beneficial priming effect of CSFs on AML cells with better clinical outcomes.     

Differentiation-inducing effect of recombinant human tumor necrosis factor alpha and gamma-interferon in vitro on blast cells from patients with acute myeloid leukemia and myeloid blast crisis of chronic myeloid leukemia

Tumor necrosis factor alpha (TNF-alpha) and gamma-interferon (IFN-gamma) have been shown to suppress clonogenic growth in cultures containing blast cells obtained from patients with acute myeloid leukemia. We report that recombinant human TNF-alpha and IFN-gamma are also able to induce functional and morphological maturation in fresh myeloid leukemic cells in vitro. Assessing suspension cultures containing cells from patients with acute myeloid leukemia (11 patients) or myeloid blast crisis of chronic myeloid leukemia (5 patients), it was found that recombinant human TNF-alpha and IFN-gamma significantly enhanced the number of cells reducing nitroblue tetrazolium, as compared to control cultures containing no cytokine (P less than 0.001 and P less than 0.001, respectively). Cells from responders showed alterations characteristic of monocyte/macrophage differentiation, adherence to plastic surfaces, development of positive staining for alpha-naphthyl acetate esterase, typical morphology, and expression of cell surface antigens detected by the monoclonal antibodies Mo-1, Mo-2, and My-4. Both cytokines decreased the number of viable cells, the number of blast cells, and the number of cluster-forming units in suspension culture, suggesting inhibitory actions on the growth capacity of leukemic cells. Compared to the maximum effects of either factor alone, the combination of recombinant human TNF-alpha and IFN-gamma significantly increased the extent of growth inhibition and cell adherence but did not result in further increases in nitroblue tetrazolium reduction. The presence of Auer rods in IFN-gamma or TNF-alpha differentiation-induced macrophages with cells from a patient with M5 acute myeloid leukemia demonstrates that these cytokines can induce differentiation of a leukemic clone in primary cells from patients with leukemia.     

慢性髓系白血病急变期中免疫分型研究

 目的 探讨慢性髓系白血病急变期（CML-BC）的免疫表型特征及应用价值。方法 采用一组单克隆抗体和三色流式细胞术对36例成年人CML-BC骨髓标本进行免疫表型分析。结果 36例CML-BC患者中急性非淋巴细胞白血病变30例（83.33 %）,其中40 %（12／30）伴淋系表达;急性淋巴细胞白血病变急淋变3例（8.33 %）,其中66.67 %（2／3）伴髓系表达;急性混合型白血病变2例;急性未分化型白血病变1例。CML-BC以CD33阳性率最高91.67 %,其次是CD+13 86.11 %,CD+34 61.11 %,CD+7 33.33 %,CD+10 19.44 %,CD+19 16.67 %,CD+2 2.78 %,CD+20 5.56 %及CD+14 5.56 %。CD7与CD34共阳性27.78 %。结论 CML-BC免疫表型复杂,多系表达常见。免疫分型可协助判断CML的急变类型。     

Isolated central nervous system blast crisis in chronic myeloid leukemia

Chronic myeloid leukemia is a myeloproliferative disorder characterized by the presence of the Philadelphia chromosome, t(9:22). Extramedullary blast crisis is a rare event. Imatinib mesylate has become the treatment of choice, especially for patients for whom allogenic stem cell transplantation is not an option. Imatinib produces complete cytogenetic responses in excess of 80%. However, the penetration of the drug and its metabolites into the CNS (Central Nervous System) is poor. Hence for patients who are on prolonged imatinib therapy and continue to have complete cytogenetic responses, the central nervous system may become a sanctuary site. We report a patient who had a complete hematologic and cytogenetic response and presented with headache and vomiting. The MRI showed meningeal enhancement and the CSF (Cerebro Spinal Fluid) examination was positive for blasts. He was started on cranial radiotherapy and triple intrathecal chemotherapy. He showed good symptomatic improvement and cleared the blasts in the CSF. At the end of radiation, he was in complete hematological remission but had 50% marrow metaphases positive for Philadelphia chromosome. As he did not have a matched sibling donor, the dose of imatinib was increased to 600 mg daily. He continues to be in complete hematologic remission at the time of this report.