Multidrug resistance-associated protein in acute myeloid leukemia: No impact on treatment outcome

Drug resistance remains a major problem in the treatment of patients with acute myeloid leukemia (AML). Expression of the MDR1 gene in leukemic cells was shown previously to be associated with worse clinical outcome of the patients. The multidrug resistance-associated protein (MRP) has been shown recently to be another protein causing the multidrug resistance phenotype in cell lines, but its impact on clinical outcome in patients with AML remains to be proven. To determine the clinical significance of MRP in patients with de novo AML, we have studied the MRP expression in leukemic cells and its association with both response to induction chemotherapy and survival of the patients. MRP gene expression was determined by immuno-cytochemistry (n = 80) by means of the monoclonal antibodies QCRL-1 and QCRL-3. MRP expression was low, intermediate, and high in 19, 55, and 26% of the patients, respectively. High MRP expression was independent of age and sex of the patients, WBC count, and percentage of blasts. However, high MRP expression was more frequent in the FAB M5 subtype as compared to the other subtypes. MRP expression had no impact on clinical outcome. The complete remission rates were 65, 68, and 63% for patients with low, intermediate, and high expression, respectively. Overall survival was also independent of MRP expression. In contrast, patients with P-glycoprotein-positive AML had lower complete remission rates and shorter durations of survival. These data indicate that MRP is expressed in patients with de novo AML but, in contrast to P-glycoprotein, does not predict for outcome of induction chemotherapy or survival.     

Functional multidrug resistance phenotype associated with combined overexpression of Pgp/MDR1 and MRP together with 1-beta-D-arabinofuranosylcytosine sensitivity may predict clinical response in acute myeloid leukemia

Overexpression of P-glycoprotein (Pgp) or MDR1 mRNA has been shown to be a negative prognostic factor for clinical outcome in acute myeloid leukemia (AML). However, resistance to chemotherapy also occurs in the absence of Pgp overexpression. Therefore, besides Pgp expression, we have assessed the expression of MRP, a novel drug transporter gene, along with the functional multidrug-resistant (MDR) phenotype of leukemic cells. These MDR parameters are correlated with clinical outcome in individual patients. We found functional changes in fresh leukemic cells from de novo or relapsed patients similar to those reported for tumor cell lines with the MDR phenotype. These changes were reduced drug accumulation as assessed with radiolabeled doxorubicin (factor 1.6), daunomycin (factor 1.13), and vincristine (factor 1.6) in patients who were refractory to the combination treatment of 1-beta-D-arabinofuranosylcytosine (ara-C) and daunomycin or mitoxantrone as opposed to patients who had complete responses. Also, the intracellular distribution of doxorubicin fluorescence (nuclear/cytoplasmic ratio), as assessed with laser scan microscopy, was reduced 1.4-fold in blasts from refractory patients. Based on historically known clinical response to single-agent daunomycin or ara-C in the group of responding de novo AML patients, we have set a threshold level such that a defined part of the samples that had the highest drug accumulation or nuclear to cytoplasmic ratios were above this threshold value. This allowed discrimination between patients responding to daunomycin from those who were refractory to this drug. By using this threshold level, in the refractory group clinical resistance corresponded with high sensitivity with a resistant phenotype. A similar threshold was set for the data of the in vitro ara-C sensitivity test. By combining both assays for all individual patients, clinical refractoriness as well as sensitivity could be predicted with high accuracy. There appeared to be no stringent relationship between the functional MDR phenotype with expression of either Pgp (fluorescence-activated cell sorting analysis) or MRP mRNA (RNase protection). However, by combining both parameters the functional MDR phenotype correlated with the overexpression of either one or both of the parameters in 94% of the samples studied. It is concluded that this combined overexpression in conjunction with functional changes for MDR drugs and ara-C reveal a correlation of MDR phenotype with clinical resistance to combination chemotherapy in AML patients and hereby may adequately predict clinical MDR in individual AML patients.     

Prognostic value of P-glycoprotein and leukocyte differentiation antigens in chronic myeloid leukemia

P-glycoprotein (Pgp) mediated multidrug resistance is often the cause of therapy failure in some tumors. Pgp expression was shown to have prognostic value in several hematological malignancies, especially in acute myeloblastic leukemia (AML) and acute lymphoblastic leukemia (ALL). In chronic myeloid leukemia (CML) Pgp is expressed by peripheral blood (PB) cells more often in the terminal disease stages (20-50% of patients have Pgp+ phenotype). Sequential studies show that Pgp+ cells often disappear from the PB during the course of therapy. Nevertheless Pgp expression has some prognostic value in blast crisis (BC) predicting shorter BC, while CD13 has the same predictive value in BC. 10% of patients formed a distinct group with large numbers of Pgp+CD34+ blasts in the PB and also had shorter BC. Cases with inactive Pgp were found in chronic and accelerated phases of CML but not in BC.     

In vitro effect of GF120918, a novel reversal agent of multidrug resistance, on acute leukemia and multiple myeloma cells

Resistance to chemotherapy in multiple myeloma (MM) and acute myeloid leukemia (AML) is frequently caused by multiple drug resistance (MDR), characterized by a decreased intracellular drug accumulation. MDR is associated with expression of P-glycoprotein (P-gp). GF120918, an acridine derivative, enhances doxorubicin cell kill in resistant cell lines. In this study, the effect of GF120918 on MDR cell lines and fresh human leukemia and myeloma cells was investigated. The reduced net intracellular rhodamine-123 (Rh-123) accumulation in the MDR cell lines RPMI 8226/Dox1, /Dox4, /Dox6 and /Dox40 as compared with wild-type 8226/S was reversed by GF120918 (0.5-1.0 microM), and complete inhibition of rhodamine efflux was achieved at 1-2 microM. This effect could be maintained in drug-free medium for at least 5 h. GF120918 reversal activity was significantly reduced with a maximum of 70% in cells incubated with up to 100% serum. GF120918 significantly augmented Rh-123 accumulation in vitro in CD34-positive acute leukemia (AML) blasts and CD38-positive myeloma (MM) plasma cells obtained from 11/27 de novo AML and 2/12 refractory MM patients. A significant correlation was observed between a high P-gp expression and GF120918 induced Rh-123 reversal (P=0.0001). Using a MRK16/IgG2a ratio > or = 1.1, samples could be identified with a high probability of GF120918 reversal of Rh-123 accumulation. In conclusion, GF120918 is a promising MDR reversal agent which is active at clinically achievable serum concentrations.     

Clinical significance of micromegakaryocytes in de novo AML

Bone marrow specimens obtained from 54 patients with de novo AML and 7 patients with AML evolving from MDS were retrospectively examined for the presence of micromegakaryocytes defined as cells of less than 30 microns in diameter with one or two nuclei. At least 25 megakaryocytes were counted in each patient. Micromegakaryocytes were found in 17 cases (31%), M1:1/11, M2:5/18, M3:0/4, M4:5/12, M5:1/4, M6:4/4, M7:1/1. The median age of the patients was higher in de novo AML with micromegakaryocytes (57 years) than in de novo AML without micromegakaryocytes (41 years) (p = 0.014). Chromosomal analysis revealed that deletion of 5 or 5q-, 7 or 7q- was recognized only in the group of de novo AML with micromegakaryocytes and that t(15;17), t(8:21) and inv (16) were not recognized in this group. Micromegakaryocytes were identified in each bone marrow specimen obtained from 9 of 10 patients with de novo AML with trilineage myelodysplasia. The complete remission rate was significantly lower in de novo AML with micromegakaryocytes (33%) than in de novo AML without micromegakaryocytes (86%) (p = 0.001). The duration of survival of the patients with de novo AML with micromegakaryocytes was shown to be shorter than that of the patients with de novo AML without micromegakaryocytes (p = 0.017). Micromegakaryocytes were recognized in all of 7 patients with AML evolving from MDS. The presence of micromegakaryocytes in bone marrow of the patients with AML indicates a subset of AML with poor prognosis that may be closely associated with myelodysplastic syndrome.     

In vivo properties of monocyte chemoattractant protein-1

BACKGROUND AND OBJECTIVE: In adult patients with acute myeloid leukemia (AML), central nervous system (CNS) involvement is a rare event and treatment has not yet been defined. Because there are no definitive data as to the most appropriate therapeutic approach to CNS leukemia in AML, we retrospectively analyzed a cohort of AML patients with meningeal leukemia in order to increase our knowledge on this particular matter. METHODS: Out of 410 patients with de novo AML observed at our Institute from 1986 to 1995, 9 (2.2%) showed CNS leukemia (CNSL) during the follow-up. CNSL was treated as follows: in a first group of 4 patients we combined systemic HD Ara-C 3 g/m2 (every 12 hours by 3-hour infusion, for 6 doses), cranial radiation therapy and intrathecal (IT) methotrexate (MTX); a second group of 4 patients was treated with HD Ara-C, IT MTX without cranial irradiation; HD Ara-C alone was administered in one patient. RESULTS: All patients of the first group and 2 patients of the second who achieved a complete remission (CR) had a median survival of 10 months (range 5-25+) after CNS involvement, while for the non-remitters it was 2 months (range 1-5). The only patient still living underwent allogeneic bone marrow transplantation. INTERPRETATION AND CONCLUSIONS: The combination treatment of HD Ara-C, IT MTX and cranial irradiation is well tolerated and seems to be an effective therapy for CNSL, presenting a high incidence of neurologic CR that correlates with a longer survival. As expected, the number of AML patients with CNSL was small, due to the fact that CNS in those patients is a rare complication. However, this study provides further information about the therapeutic possibilities in such restricted subsets of AML patients.     

The prognostic significance of chromosomal analysis and immunophenotyping in 117 patients with de novo acute myeloid leukemia

Chromosomal abnormalities is one of the most important prognostic factors in acute myeloid leukemia (AML). Other parameters which may influence the prognosis include age, French-American-British-type, clinical variables and possibly the expression of certain immunophenotypic surface makers. However, only rarely has the expression of these markers been analyzed in multivariate models including the information from cytogenetics and clinical variables. We conducted a retrospective study of 117 consecutive adult patients with de novo AML diagnosed and treated in our institution during a 6-year period. Following standard induction chemotherapy with daunomycin and cytosine arabinoside 75 patients (64%) achieved complete remission (CR). The overall 5 year survival rate was 23% and, for patients achieving CR, 30%. When all patients were analyzed age, chromosomal aberration and lack of CD33 expression were of independent prognostic value. The overall 5 year survival rate was 28% for patients aged 55 years or younger, 25% for patients aged 56-65 years and 4% for those > 65 years, P = 0.041. Patients with good-risk chromosomal abnormalities presented an overall 5 year survival of 36%, compared to 25% in patients with normal karyotype, 22% in patients with intermediate risk abnormalities and 5% in patients with poor-risk abnormalities, P = 0.004. Patients with CD33+ myeloblasts had an overall survival of 25% at 5 years compared to 0% in the CD33- patients, P = 0.021. Analysis of the expression of CD7, CD34 and terminal deoxynucleotidyl transferase on myeloblasts had no impact on overall survival in a multivariate analysis. Thus, this study confirmed the prognostic value of age and cytogenetic risk group and defined CD33 as a novel factor of independent prognostic importance in adult de novo AML.     

Acute myeloid leukemia-type chemotherapy for newly diagnosed patients without antecedent cytopenias having myelodysplastic syndrome as defined by French-American-British criteria: a Cancer and Leukemia Group B Study

PURPOSE: To determine the treatment outcome of standard acute myeloid leukemia (AML)-type chemotherapy in a subset of patients with newly diagnosed myelodysplastic syndromes (MDS) compared with that of patients with de novo AML as defined using French-American-British (FAB) criteria. In addition, to determine the pretreatment variables having prognostic significance for treatment outcome in patients with MDS. PATIENTS AND METHODS: Nine hundred seven newly diagnosed patients with no history of cytopenias having a local institutional de novo AML successfully karyotyped and treated on Cancer and Leukemia Group B (CALGB) protocols for AML from 1984 to 1992. Thirty-three of the 907 patients were reclassified as having MDS on central pathology review using FAB criteria and form the basis of this analysis. RESULTS: The treatment outcomes for patients with MDS and AML were similar; the complete remission (CR) rate was 79% and 68%, respectively (P = .37); median CR duration was 11 and 15 months, respectively (P = .28); and median survival was 13 and 16 months, respectively (P = .72). For the MDS patients, there were no prognostic variables for CR rate identified. For CR duration, only the Sanz classification had prognostic value. The prognostic factors for survival in a univariate analysis included age, WBC count, Sanz classification, and percent blood blasts. In a proportional hazards analysis of survival, age greater than 60 years and WBC less than 2.6 x 10(9)/L were adverse prognostic factors. CONCLUSION: In patients with no known history of cytopenias who are treated intensively at diagnosis, the FAB distinctions between MDS (refractory anemia with excess blasts and refractory anemia with excess blasts in transformation) and AML appear to have little therapeutic relevance.     

An artificial intelligence system for computer-assisted menu planning

BACKGROUND: The role of P-glycoprotein (Pgp) associated multidrug resistance for neuroblastoma patients is controversial. Therefore we asked whether at all the typical functional features of the multidrug resistance phenotype could be found in neuroblastoma cells and studied the prognostic relevance of Pgp expression. PATIENTS AND METHODS: Tumor touch preparations and tumor cell infiltrated bone marrow smears of 62 neuroblastoma patients were investigated. The expression of Pgp was determined by a highly sensitive immunosandwich technique. Drug resistance studies were performed by exposing cells to Pgp-dependent cytostatic drugs in tissue cultures. Intracellular drug accumulation was examined by rhodamine-123 fluorescence microscopy. RESULTS: Pgp expression was demonstrable for the SK-N-SH cell line, but not detectable in CHP-100 and ten other neuroblastoma cell lines by immunocytochemistry. In tissue cultures, SK-N-SH cells showed a relative resistance to vincristine and adriamycin (45.1 and 12.7-fold resp.) and reduced intracellular accumulation of rhodamine-123 which could be normalized by the Pgp blocker verapamil. Pgp expression was detected by immunocytochemistry in 14 out of 62 tumors (22.6%). No correlation was found to the stage of the disease (P = 0.33), histopathological grading (P = 0.82), N-myc oncoprotein expression (P = 0.76) or N-myc oncogene amplification (P = 0.20). Kaplan-Meier analysis of event free survival for stage 4 tumors revealed a weak trend of inferior survival for patients with Pgp positive tumors (log-rank analysis: P = 0.069). CONCLUSIONS: Though Pgp expression is detectable and functional in neuroblastoma cells, but its presence does not provide much information to the complex phenomenon of chemotherapy resistance in patients.     

Autologous bone marrow transplantation for patients with myelodysplastic syndrome (MDS) or acute myeloid leukemia following MDS. Chronic and Acute Leukemia Working Parties of the European Group for Blood and Marrow Transplantation

Intensive chemotherapy followed by autologous bone marrow transplantation (ABMT) may provide an alternative therapy for young patients with myelodysplastic syndrome (MDS) or acute myeloid leukemia following MDS (sAML) lacking a suitable donor. We report the results for 79 patients with MDS/sAML transplanted with autologous marrow in first complete remission (CR). Within the total group of 79, a cohort of 55 patients for whom the duration of first CR was known were compared with a matched control group of 110 patients with de novo AML. The 2-year survival, disease-free survival (DFS), and relapse rates for the 79 patients transplanted in first CR were 39%, 34%, and 64%, respectively. The relapse risk was greater than 55% for all stages and all disease categories. Patients younger than 40 years had a significantly (P = .04) better DFS (39%) than patients older than 40 years (25%). The DFS at 2 years was 28% for the cohort of 55 patients transplanted for MDS/sAML and 51% for those transplanted for de novo AML (P = .025). Relapse rates were 69% for patients with MDS/sAML and 40% for those with de novo AML (P = .007). ABMT for MDS or secondary leukemia results in a lower DFS when compared with similarly treated patients with de novo AML due to a higher relapse rate. The DFS of 28% for these patients suggests that autotransplantation may be a valuable therapy for this disease. The low treatment-related mortality rate of less than 10% supports the view that sufficient numbers of hematopoietic stem cells are present in patients with MDS to allow adequate repopulation after autologous stem-cell transplantation.     

Proliferative effects of several hematopoietic growth factors on acute myelogenous leukemia cells and correlation with treatment outcome

The response of human acute myelogenous leukemia (AML) cells to four different hematopoietic growth factors (granulocyte-macrophage colony-stimulating factor (GM-CSF), interleukin-1 beta (IL-1beta), interleukin-3 (IL-3), and stem cell factor (SCF)) and the relationship of the proliferative response of the AML cells to treatment outcome were studied. Proliferative responses were analyzed in 79 patients with de novo AML and 19 patients with AML arising from myelodysplastic syndrome (MDS). In de novo AML, a positive proliferative response (stimulation index >2) was seen in 65 to 75% of cases. AML cells arising from MDS had a much higher incidence of proliferative response to each growth factor (79 to 90%) and a much higher level of 3H-TdR incorporation. The relationship to treatment outcome was evaluated in 79 patients with de novo AML. The patients whose leukemic cells had a positive proliferative response to any growth factor, especially IL-3 and SCF, had a poorer outcome, ie a lower complete remission (CR) rate, shorter CR duration, and shorter survival. The outcome was particularly poor in patients whose leukemic cells had proliferative responses to all four or any of the growth factors, compared to patients whose leukemic cells had no response. This increased response may be a marker of poor prognosis in patients with AML.     

Inhibited apoptosis and drug resistance in acute myeloid leukaemia

Despite extensive investigation into mechanisms of drug resistance in acute myeloid leukaemia (AML), the aetiology of therapeutic resistance is unclear. We found that five leukaemia cell lines (K562, HL-60, CEM. CEM induced to overexpress bcl-2, and REH) displayed parallel sensitivity to four antileukaemia drugs with different mechanisms of action, with K562 generally being the least sensitive and REH being the most sensitive. The amount of spontaneous apoptosis in the cell lines after serum-free culture paralleled their drug sensitivity: K562 cells displayed the least apoptosis at 24h (2.50 +/- 0.24%) and REH the most (24.47 +/- 8.22%). The extent of spontaneous apoptosis of leukaemic blasts from 39 patients with newly diagnosed de novo AML also correlated with the success of the intensive, infusional cytarabine-based induction therapy. There was a median of 19.5% (range 3.6-64%) apoptotic AML cells after 24 h of serum-free culture in patients who entered a complete remission compared with 4.2% (1.8-7.0%) apoptotic AML cells in patients who did not achieve a complete remission (P = 0.0007). Thus, inhibited apoptosis was associated with both in vitro and in vivo pan-resistance to antileukaemic chemotherapy. The cause of inhibited apoptosis in AML is probably a function of interactions among multiple signals that influence apoptosis. Assessment of spontaneous apoptosis may serve as an important prognostic factor for AML.     

Adult acute leukemia

Untreated acute leukemia is a uniformly fatal disease with a median survival time shorter than 3 months. Current treatment strategies provide a significant increase in survival time for most patients, some of whom may be cured. The majority of patients with acute leukemia, however, ultimately die of the disease or complications of treatment. The effective treatment of acute leukemia requires (1) differentiation of acute myeloid leukemia (AML) from acute lymphoblastic leukemia (ALL) and recognition of clinically relevant subtypes; (2) identification of patients who are more likely or less likely than average to benefit from a conventional treatment; and (3) selection of therapy that provides a reasonable likelihood of response with acceptable risk of toxic effects. The diagnosis of acute leukemia is established in most cases by a bone marrow aspirate that demonstrates at least 30% blast cells. The traditional criteria to distinguish between AML and ALL rely on morphology and cytochemical reactions. Immunologic analysis of antigen expression and analysis for numerical or structural chromosomal abnormalities of leukemia cells are routinely feasible. Karyotypic analysis is of prognostic importance and should be performed on all diagnostic specimens of bone marrow aspirate. Immunophenotypic analysis may be useful to confirm the disease classification in selected cases. The importance of the routine immunophenotypic characterization of acute leukemia, however, is controversial. The subtypes that must be recognized because of the need for specific treatment include (a) acute promyelocytic leukemia (APL), which is the M3 subtype of AML, and (b) the L3 subtype or mature B-cell ALL. Induction therapy for acute leukemia is treatment intended to achieve induction of complete remission (CR). Complete remission is defined as the absence of morphologic evidence of leukemia after recovery of the peripheral blood cell counts. Failure to achieve CR may be attributed to death during chemotherapy-induced bone marrow hypoplasia or to drug resistance manifested either as failure to achieve hypoplasia or as persistent leukemia after recovery from hypoplasia. Postremission therapy is treatment administered in CR to prevent or delay relapse of the leukemia. However, the majority of patients have disease relapse. Intensification of therapy is a treatment strategy designed to overcome resistance to chemotherapy. Recent clinical trials of intensified induction or postremission therapy suggest improved outcome. However, the toxic effects of dose intensification can be substantial, limiting any potential benefit of this approach. Identification of prognostic factors may allow one to estimate the likelihood of an outcome, to determine an optimal treatment strategy. It is well established that age at the time of diagnosis, leukemia cell karyotype, and whether the leukemia is de novo or secondary are factors that influence treatment decisions. Patients with favorable prognostic factors should probably receive conventional therapy. Patients with unfavorable prognostic factors have shown little benefit from conventional therapy. In addition, factors that indicate poor outcome with conventional therapy are also predictive of poor outcome with intensified therapy. Consequently, these patients should be considered for investigational therapeutic strategies. The bias may be to counsel them to accept the potential increased morbidity of such treatment before there is definite evidence of the possibility of improved outcome. Induction chemotherapy for younger patients with AML (less than 55 years of age) in general consists of one or more courses of cytarabine (ara-C) and an anthracycline or an anthracycline derivative. Randomized trials have failed to confirm that treatment with either etoposide or high-dose ara-C induces disease remission. Patients with secondary AML, high levels of CD34 antigen expression, or an unfavorable karyotype, however, may benefit from ind     

High reactivity of monoclonal antibody (TO73) with human malignant tumor cell line

The biological characteristics of a new monoclonal antibody (TO73) reacting with a vincristine-resistant human leukemic cell line (KY-VCR) were evaluated. Immunological and electron-immunological studies showed that TO73 reacted with the surface glycoprotein of KY-VCR. TO73 was found to have no effect on cell growth and intracellular uptake of vincristine. In human neoplastic cell lines, TO73 was found to react with 11 of 27 (41%) cell lines. With regard to de novo primary tumor with one exception, TO73 did not react with any of the examined primary tumor cells. The patient with TO73-positive leukemia died of induction failure due to drug resistance. Complete remission was achieved in the other leukemic patients. These results indicate that TO73 antigen may be associated with immortalization of tumor cells and poor prognosis in some cases.     

Abnormalities in the long arm of chromosome 11 (11q) in patients with de novo and secondary acute myelogenous leukemias and myelodysplastic syndromes

Leukemias with abnormalities in chromosome 11q23 occur frequently after exposure to topoisomerase II-reactive drugs. We investigated the characteristics and outcome of patients with de novo or secondary acute myelogenous leukemia (AML) or myelodysplastic syndrome (MDS) with abnormalities in chromosome 11q. Sixty-one patients had 11q abnormalities. Alterations involved 11q23 in 38 patients and other 11q abnormalities in 23. Sixteen patients had secondary disease, 12 involving 11q23, and four with other 11q abnormalities; 26 patients with de novo disease had 11q23 abnormalities and 19 other 11q abnormalities. The most common 11q23 abnormality was t(9;11), significantly more common in secondary (9/12) than in de novo (6/26) leukemias (p = 0.003). There were no significant differences in clinical characteristics between de novo and secondary groups involving 11q23. Five of 12 patients (42%) with secondary and 20/26 (77%) with de novo disease achieved complete remission (p = 0.05). Median survival was 6 weeks in the secondary group and 71 weeks in the de novo group (p = 0.001). There were no long-term survivors in either group. Results are similar when other 11q abnormalities are included. Adults with AML or MDS with 11q abnormalities secondary to prior chemotherapy have a worse prognosis than patients presenting de novo. However, 11q abnormalities define a population with a poor prognosis even when presenting de novo.     

Trisomy 4 and de novo acute myelomonocytic leukemia in a Kuwaiti patient

Trisomy 4 is a rare but specific karyotypic abnormality associated with primary and secondary acute myeloblastic leukemia (AML). We report such an occurrence in a Kuwaiti patient with de novo acute myelomonocytic leukemia and its disappearance on achievement of complete remission.     

Analysis of treatment failure in patients with minimally differentiated acute myeloid leukemia (AML-M0)

Reports of treatment of patients with minimally differentiated acute myeloid leukemia (AML-M0) are limited, heterogeneous, and controversial. We verified the prognosis of this subtype by analyzing the results of 189 consecutive patients with de novo AML. Fifteen cases fitting the criteria of AML-M0 were identified. No clinical features distinguished them from other patients with AML. The median age was 61 years (range 27 to 70), with a leukocyte count ranging from 0.6 to 185 x 10(9)/L. In all cases the leukemic cells expressed CD34 and reacted with at least one of the antibodies to early myeloid antigens, ie, CD13, CD33, or myeloperoxidase. Immunophenotypic analysis also showed positivity for CD7 in seven samples and the multidrug-resistance P-glycoprotein (P-170) in six. Cytogenetic analysis was abnormal in 12 of the 13 patients in whom an adequate number of mitoses could be evaluated. No single abnormality prevailed, the most common findings being trisomy 8 (three cases) and aberrations of chromosome 7 (two cases). Antileukemic treatment differed according to age, but for remission induction, all patients received a combination of cytosine arabinoside and an anthracycline or mitoxantrone. The prognosis of patients with AML-M0 was remarkably poor as compared with the other French-American-British subtypes. Whereas the overall rate of complete remission (CR) was 58% with a median survival of 63 weeks, only 6 of the 15 patients with AML-M0 achieved a CR, and the median survival of this group was 16 weeks (range 3 to 39). The major determinant of treatment failure was unresponsiveness to chemotherapy, as only one patient died of infection during the hypoplastic phase. The CR duration of responders was short, ranging from 3 to 22 weeks, and no second remissions were observed. We conclude that conventional combination chemotherapy yields disappointing results in AML-M0. The reason for this may be the convergence of various unfavorable prognostic factors, such as (1) the high incidence of cytogenetic abnormalities; (2) the lack of differentiation features and the expression of immaturity markers such as CD34 and CD7; and (3) the frequent expression of P-170. Nonconventional therapeutic approaches should be developed to alter the prognosis of this form of leukemia.