Megakaryocyte cultures in the chronic phase and in the blast crisis of chronic myeloid leukaemia: studies on the differentiation of the megakaryocyte progenitors and on the maturation of megakaryocytes in vitro

Megakaryocyte (MK) colony formation has been studied in the chronic phase and in the blast crisis of chronic myeloid leukaemia (CML). Blood cells were grown in plasma clot for 13 d. MKs were subsequently identified by immunofluorescent techniques using two monoclonal antiplatelet antibodies (AN51 and J15). The maturation process was studied by ultrastructural methods. A marked increase in the number of circulating CFU‐MK was observed in all the 10 cases studied prior to chemotherapy (70‐fold increase per ml of blood). No significant modification in the regulation of MK colony formation as compared to that of normal subjects was observed. The predominant abnormality in maturation in culture was the occurrence of many hypoploid MKs (microMKs). However, the cytoplasmic maturation of the MKs was identical to that of normal subjects with occasional platelet shedding. Since microMKs predominated in some patients, scoring of MK colonies in CML necessitated immunofluorescent labelling to permit identification of MKs. During the blast crisis, MK colony formation occurred in four out of five patients with an extremely high plating efficiency in the case of promegakaryoblastic transformation. In contrast, MK colonies could not be grown from blood samples of patients with acute leukaemia, including two cases of promegakaryoblastic leukaemia. Maturation of MKs in blast crisis was identical to that of the chronic phase. Furthermore, after short periods of culture in liquid medium, circulating promegakaryoblasts from spontaneously to become large MKs exhibiting demarcation membranes and α‐granules, while those from two cases of megakaryoblastic leukaemias did not mature. In consequence, the blast crisis of CML exhibits a different culture pattern from acute leukaemia. These results suggest, therefore, that the acute transformation of CML cannot be simply explained by clonal changes and that environmental and regulatory factors could be also involved.