Molecular pathology and computational profiling of Janus kinase 2 (JAK2) mutation in acute lymphoblastic leukemia: insights from a Pakistani cohort

Abstract

Abstract Background JAK2 mutation plays a clinically significant role in the pathogenesis of acute lymphoblastic leukemia (ALL) by enhancing its oncogenicity. The study aimed to characterize the molecular pathology and computational profile of the JAK2 mutation in an ALL cohort of Pakistani origin. Methods Ninety-three patients were enrolled in the current study. The disease diagnosis was confirmed via flow cytometry and karyotyping of bone marrow aspirate/blood. For the identification of causative gene variations and assessment of their potential impact, the JAK2 gene underwent direct sequencing and predictive computational and in silico structural analysis, respectively. Results JAK2 mutations were detected in 10 (11%) patients. All mutations were missense with 1 being frameshift. Most mutations showed a similar pattern to the wild type but p.N673H+p.V674L+p.C675W (AAD699), p.V674F (AAD704), and p.V674L (AAD705) exhibited statistically significant stability loss. The triple mutation displayed reduced stability both globally and locally. Conclusion The pattern of gene defects in JAK2 in the studied cohort showed a disruption in proper folding behavior, evident from increased gyration values, resulting in the hypothesis that these mutations may cause structural alterations in the JAK2 protein that lead to disease progression.