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Measurement of Genomic Instability in Preleukemic P190^BCR/ABL Transgenic Mice Using Inter-Simple Sequence Repeat Polymerase Chain Reaction¹

Departments of Medicine and the Divisions of Hematology and Molecular Oncology Group, McGill University, Montreal, Quebec, Canada

BCR/ABL associated leukemias are characterized by a high degree of chromosomal and genomic instability. The genomic instability is usually associated with disease progression, as in chronic myelogenous leukemia or a poor prognosis as observed in hallmark Philadelphia chromosome-positive acute lymphoblastic leukemia. It is unclear whether the phenotype of genomic instability is a primary consequence of Bcr/Abl expression or if it is secondarily acquired in the multistep process of tumor evolution. To address this issue, we measured the frequency of insertions and deletions in P190^BCR/ABL transgenic mice. These mice ubiquitously express Bcr/Abl for an average of 3 months before developing B-cell type lymphoma/leukemia. Genome scanning for insertions and deletions in samples of DNA extracted from kidney and spleen tissues taken from preleukemic animals was performed using the inter-simple sequence repeat PCR. We observed an increased frequency of insertions and deletions in the tissues of preleukemic animals, which could be partially reversed with the c-Abl specific inhibitor STI571. These results suggest that the expression of Bcr/Abl can directly induce a mutator phenotype that antedates overt neoplastic transformation, and that STI571 appears to be capable of reversing this effect.

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