Heat shock protein 70 gene polymorphisms’ influence on the electrophysiology of long QT syndrome

Abstract

Purpose: Long QT Syndrome (LQTS) is a rare cardiac disorder caused due to mutations in genes encoding ion channels responsible for generation of electrical impulses. The Heat Shock Protein (HSP)-70 gene, expressed under conditions of stress, plays a cardioprotective role when overexpressed and helps in the proper folding of the nascent proteins synthesized by the cellular machinery. We aimed to identify the role played by HSP-70 gene polymorphisms in the pathogenesis of LQTS. Methods: Study included 49 LQTS patients, 71 family members and 219 healthy individuals recruited from an ethnically matched population. Genotyping of the Single Nucleotide Polymorphisms (SNPs) rs1043618 (HSP-70-1, +190G/C), rs1061581 (HSP-70-2, +1267A/G) and rs2227956 (HSP-70-hom, +2437T/C) was performed by PCR-RFLP analysis and the results were analyzed statistically at 95% confidence interval and p ≤ 0. 05. Results: The “C” allele of HSP-70-1 (+190G/C) and “G” allele of HSP-70-2 (+1267A/G) showed strong association with LQTS phenotype. The haplotype group C-G-T consisting of two risk alleles was significantly associated with the disease condition. Multifactor dimensionality reduction analysis further substantiated that the three-allele model influences the outcome of the phenotype highlighting the effect of modifiers in the etiology of LQTS. Conclusions: As HSP-70 influences the channel assembly and maturation/trafficking of the ion channel proteins, the alleles C of the HSP-70-1 and G of the HSP-70-2 loci and the haplotype group C-G-T could be considered a diagnostic biomarker in the identification of the LQTS phenotype with a potential to affect the progression and modification of the disease phenotype.