Hematology (Dec 2023)

A review on characterization of BCR – ABL transcript variants for molecular monitoring of chronic myeloid leukemia phenotypes

  • Benyam Zenebe,
  • Helen Nigussie,
  • Gurja Belay,
  • Nigussie Seboka

DOI
https://doi.org/10.1080/16078454.2023.2284038
Journal volume & issue
Vol. 28, no. 1

Abstract

Read online

ABSTRACTChronic myeloid leukemia (CML) is a clonal myeloproliferative growth of human pluripotent stem cells which is estimated to occur at a rate of 1/100000 populations every year worldwide. A characteristic feature of this disease is the presence of the Philadelphia chromosome genotype, which results from the reciprocal translocation between human chromosomes 9 and 22. Two types of major genotypes are involved, which consequently result in two major types of expressed fusion mRNA transcripts: b3a2 and b2a2, i.e. major breakpoint segments (happening after exon 13 & after exon 14) of the BCR gene on chromosome 22 fuze with the ABL1 gene breakpoint (happening after exon 2) on chromosome 9, forming two genotypes coding for two transcripts: b3a2 (e14a2) and b2a2 (e13a2). The protein ‘p210 BCR–ABL1’, a protein which characteristically exhibits a high tyrosine kinase activity which is followed by the activation of various cellular processes that lead to increased cellular proliferation and cancer, is coded by both major BCR – ABL1 mRNA transcripts. Recent developments in the treatment of CML through molecular monitoring of the disease have managed to reduce patient morbidity and mortality. Advanced molecular techniques are aimed at detecting BCR–ABL1 transcript levels to monitor treatment response. Transcript typing is necessary to detect minimal residual disease and to achieve molecular response by helping to provide selective therapy based on the type of transcript identified, as transcript type is correlated with the disease course.The purpose of this review is to discuss: the role of the BCR–ABL1 fusion gene in the pathogenesis of CML; the role of BCR–ABL1 transcript characterization in the molecular monitoring of CML therapy; the association of BCR – ABL1 transcript types with different CML phenotypes, molecular responses, and treatment responses; and the laboratory techniques employed to detect and characterize BCR – ABL1 transcripts.

Keywords