Abstract
Bone marrow blast cell antigen expression from 86 patients with de novo acute myeloid leukemias (AML) was studied and correlated with FAB classification and clinical outcome. Among a panel of 14 monoclonal antibodies routinely used for the diagnosis of acute leukemias we studied the expression of six antibodies (CD13, CD15, VIM2, CD33, CD14, CD34) of the granulomonocytic lineage and found that some of them were useful for diagnosis and/or prognosis. For FAB subclassification of AML, the CD13 or VIM2 antigen expression was of no benefit. Monocytic leukemias (M4+M5PD+M5WD) more frequently expressed CD34 antigen (28/31) than granulocytic (M1+M2+M3) subtypes (33/53) (P<0·01). Finally, the most striking differences were found with CD14 antigen expression: CD14 antigen was more frequently expressed in M4+M5 leukemias (21/31) than in M1+M2+M3 subtypes (12/33) (P<0·01). The mean percentage of CD14 positive blast cells was accordingly higher in monocytic leukemias than in granulocytic leukemias and the difference was highly significant (P 0·0001). The CD15 antigen was more frequently expressed in differentiated leukemias (M2+M3+M4+M5WD) (35/44) than in poorly differentiated forms (M1+M5PD) (17/37) (P<0·001). The statistical difference was higher when the mean percentage of CD15 positive blast cells were compared (P<0·0003). Moreover these latter percentages were different in M1 and M2 subtypes (P<0·003). The blast cell expression of CD13, CD14, CD15 or CD33 was not predictive of the length of CR or survival. Moreover, our results support previously published findings suggesting a longer overall survival duration for patients whose leukemic cells do not express the CD34 antigen (P<0·01). We also confirm that patients with the more differentiated subtypes of AML (CD13‐, CD34+) tend to survive longer than patients with the less differentiated subtypes of AML (CD13–, CD34+) (P<0·001).