Acute promyelocytic leukemia (APL) is typically associated with the t(15;17) that generates the PML-RARA fusion protein. Animal models have shown that although the fusion protein is necessary, it is insufficient for the development of APL, implying that additional mechanisms are responsible for full-blown leukemia. The mutation of specific genes has been implicated in leukemogenesis; however, alterations in gene copy number have not been well investigated. Here, we applied the genomewide array-comparative genomic hybridization technique to 30 APL clinical samples and 2 APL cell lines. It was found that (1) approximately half the clinical samples (14 of 30 APL cases) had no detectable chromosomal imbalances; and (2) the remaining 16 cases, including the cell lines, exhibited recurrent chromosomal imbalances, such as loss of 1p36, 2p11, 16p, and 17p, and gain of 8p, 8q, and 13q. These results suggest that chromosomal imbalances are largely absent in APL, although some nonrandom chromosomal imbalances could be linked to the development of APL in a limited number of cases.