Formed from a reciprocal translocation t(9:22)(q34;q11) of genetic material between the long arms of human chromosomes 9 and 22, the constitutively active breakpoint cluster region (BCR) Abelson 1 (ABL) tyrosine kinase BCR-ABL is known to be causative of chronic myelogenous leukemia (CML). In 98% of CML patients harboring the t(9:22)(q34;q11) translocation, known as the Philadelphia chromosome, the chimeric BCR-ABL oncogene is created through cleavage of the BCR gene within its major breakpoint region (M-BCR) and breakage of the ABL gene within a 100-kbp region downstream of exon 2a. Clinical detection of the fused BCR-ABL oncogene currently relies on direct visualization by fluorescence in situ hybridization (FISH), a relatively tedious assay that typically offers a detection limit of ca. 2%. Here, we describe a novel assay that uses droplet digital PCR (ddPCR) technology to reliably measure M-BCR status and the presence of BCR-ABL. When applied to cell-line models of CML, the assay accurately quantifies BCR-ABL frequency to a detection limit of 0.25%. It therefore offers improved specificity relative to FISH, and may allow identification of variant translocation patterns, including derivative chromosome 9 deletions.
Keywords: BCR-ABL; Cancer diagnostics; Chronic myeloid leukemia; Digital PCR; Molecular diagnostics; Philadelphia chromosome.