Mutation analysis and characterisation of gene in haemophilia- B population of India.

BACKGROUND

Hemophilia B (HB) is an X-linked bleeding disorder resulting from coagulation factor IX defects. Over 3,000 pathogenic, HB-associated mutations in the gene have been identified. We aimed to investigate the role of variants in 150 HB patients using sequencing technology.

METHODS

gene sequences were amplified from peripheral blood-derived DNA and sequenced on an Applied Biosystems (ABI) 3500 Sanger sequencing platform. Functional and structural predictions of mutant FIX were analyzed.

RESULTS

Among 150 HB patients, 102 (68%), 30 (20%), and 18 (12%) suffered from severe, moderate, and mild HB, respectively. Genetic analysis identified 16 mutations, including 3 novel mutations. Nine mutations (7 missense and 2 stop-gain) were found to be pathogenic. Only 3 mutations (c.127C＞T, c.470G＞A, and c.1070G＞A) were associated with different severities. While 2 mutations were associated with mild HB cases (c.304C＞T and c.580A＞G), 2 (c.195G＞A and c.1385A＞G) and 3 mutations (c.223C＞T, c.1187G＞A, and c.1232G＞A) resulted in moderate and severe disease, respectively. Additionally, 1 mutation each was associated with mild-moderate (c.*1110A＞G) and mild-severe HB disease (c.197A＞T), 4 mutations were associated with moderate-severe HB cases (c.314A＞G, c.198A＞T, c.676C＞T, and c.1094C＞A). FIX concentrations were lower in the mutated group (5.5±2.5% vs. 8.0±2.5%). Novel p.E66D and p.S365 mutations were predicted to be pathogenic based on changes in FIX structure and function.

CONCLUSION

Novel single nucleotide polymorphisms (SNPs) largely contributed to the pathogenesis of HB. Our study strongly suggests that population-based genetic screening will be particularly helpful to identify risk prediction and carrier detection tools for Indian HB patients.