More recently, alternative splicing of specific genes are investigated for their therapeutic potential. In particular, we reported the existence of BCR-ABL alternative splicing isoforms, in about 80% of Philadelphia-positive patients, which lead to the expression of aberrant proteins. These fusion proteins are characterized by an orphan initial and correct Bcr portion attached to a 112 amino acid sequence, arising from the impairment in the reading frame (reading of ABL exon 4 and 5). We demonstrated that these Abl-out-of-frame (OOF) isoforms could have an immunological role with therapeutic implications. The aim of this study was to characterize a new monoclonal antibody (MAb) specific for Abl-OOF protein portion, for diagnostic use, to detect this biomarker in Philadelphia chromosome-positive chronic myelogenous leukemia (CML) patients and to generate novel approaches in the immunotherapy. 5F11G11 MAb recognizes the OOF protein portion of the native full-length Bcr/Abl-OOF protein expressed in cells transiently transfected, as demonstrated by immunoprecipitation and immunofluorescence. In addition, we demonstrate the MAb's ability to recognize the alternative hybrid Bcr/Abl fusion protein expressed in leukemic cells from CML patients, to support the possible use of 5F11G11 MAb as a diagnostic tool to select patients with Philadelphia chromosome-positive CML that could be eligible for an immunotherapeutic approach with this new antigen.
Keywords: BCR/ABL transcripts; chronic myelogenous leukemia; monoclonal antibody; tumor-associated antigen.