Development of a Fast, Sensitive, and Cost-Effective Detection Method for T315I Mutation in Tyrosine Kinase Inhibitor Resistance for Chronic Myeloid leukemia Patients
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Abstract
The detection of the BCR-ABL fusion gene and the identification of tyrosine kinase
inhibitor (TKI) mutations are essential for the treatment of chronic myeloid leukemia
(CML). The constitutively active tyrosine kinase encoded by BCR-ABL fusion gene is
responsible for the uncontrolled growth of myeloid cells. The management of CML is
severely restricted by the development of TKI resistance brought on by mutations in the
ABL kinase domain. To enhance patient outcomes, early detection of resistance
mutations allows for beneficial changes, such as switching to different TKIs or
combination therapies. For this reason, our research aimed to develop a new technique
for the early and more sensitive detection of TKI mutations using RT-PCR instead of
Sanger Sequencing. As a proof of concept, we developed ARMS based RT-PCR to detect
the most common BCR-ABL mutation T315I. The sensitivity of our method is 0,1 mutant
copies in 70000 wild type copies which is far higher than Sanger sequencing. Twenty
patients that had persistently detected BCR-ABL fusion transcripts were tested by our
new method. Four of our patients (20%) were positive for T315I mutation. These patients
were tested for BCR-ABL mutations using Sanger sequencing and only one showed a
positive result. When we tested samples from this positive case retrospectively, our
method gave a positive result two years earlier than Sanger sequencing could detect. In
conclusion, our method is a very sensitive and specific method that can detect BCR-ABL
T315I mutation earlier than can Sanger sequencing, which can lead to better disease
treatment and management.
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Number of Pages 100
