Abstract
The response of acute promyelocytic leukemia (APL) peripheral blood and bone marrow cells to trans-retinoic acid (RA) was cytogenetically characterized during RA treatment using the techniques of premature chromosome condensation (PCC) and fluorescence in situ hybridization (FISH). Before treatment, the predominant immature bone marrow cells were found to have t(15;17), whereas the residual mature granulocytes were diploid and lacked evidence of the translocation. In response to RA treatment, an increase in the leukocyte count was noted. The majority of these cells exhibited a t(15;17). Subsequently (eg, between days 6 and 23), 32% to 91% of the maturing myeloid cells still exhibited t(15;17). The appearance of t(15;17) in gradually maturing elements suggests that RA contributed to a release of the maturation block of the leukemic elements. As responding patients obtained complete remission, diploid elements without evidence of the translocation prevailed in the blood and bone marrow. In 16 patients studied after 1 month in complete remission, all but 2 showed all diploid cells. The residual t(15;17) cells disappeared 18 days later in 1 patient, whereas the second patient exhibited clinical evidence of relapse 20 days later. These results suggest that response of patients with APL to RA is associated with maturation, subsequent loss of the mature leukemic elements, and preferential regeneration of normal diploid hematopoietic elements.