Abstract

Dengue has emerged as a global health problem, as evidenced by a series of epidemics throughout the tropical, subtropical and temperate regions of the world.¹1. Chaaithanya IK, Bhattacharya D, Muruganandam N, et al. Dengue: a newly emerging viral infection in Andaman and Nicobar Islands. India Epidemiol Infect. 2012;140:1920–4. Dengue virus (DENV), member of the flavivirus genus of the Flaviviridae family, is an enveloped and mosquito borne virus that contains a single-stranded, positive sense RNA genome. DENV infection can lead to dengue fever (DF), dengue hemorrhagic fever (DHF), and dengue shock syndrome (DSS). The WHO has reported that DENV infection causes an estimated 50–100 million cases of DF and several hundred thousand cases of DHF/DSS annually around the world.²2. Gubler DJ. Epidemic dengue/dengue hemorrhagic fever as a public health, social and economic problem in the 21st century. Trends Microbiol. 2002;10:100–3. The pathophysiology of dengue virus (DENV) infection is multifactorial involving complex interactions among viral and host factors such as human leukocyte antigens and cytokines.³3. Clyde K, Kyle JL, Harris E. Recent advances in deciphering viral and host determinants of dengue virus replication and pathogenesis. J Virol. 2006;80:11418–31.

The 2'-5'-oligoadenylate synthetase (2'-5'-OAS) endoribonuclease L (RNase L) pathway is an important component of the antiviral intracellular innate immune response in mammalian cells.⁴4. Anderson BR, Muramatsu H, Jha BK, Silverman RH, Weissman D, Kariko K. Nucleoside modifications in RNA limit activation of 20–50-oligoadenylate synthetase and increase resistance to cleavage by RNase L. Nucleic Acids Res. 2011:1–10. OAS gene expression is induced by type I interferons and type II interferons. Viral double-stranded RNA or single-stranded RNA can activate 2-5-OAS to polymerize short 2'-5'-linked oligoadenylate. 2'-5'-Linked oligoadenylate binds to latent RNase L, which causes its dimerization and activation. The activated RNase L cleaves both cellular RNA and viral RNA molecules, resulting in degradation of protein synthesis and inhibition of virus replication.⁵5. Barkhash AV, Perelygin AA, Babenko VN, et al. Variability in the 2'-5'-oligoadenylate synthetase gene cluster is associated with human predisposition to tick-borne encephalitis virus-induced disease. J Infect Dis. 2010;202:1813–8. In the present study, the possible association of six SNPs distributed across the three human OAS genes with predisposition to severe dengue virus infection-induced disease was investigated.

Blood samples were obtained from dengue patients, who gave informed consent for participation in the research, which was approved by the Ethical Committee of the Institute of Regional Medical Research Centre, Port Blair. A total of 30 samples were obtained from patients with dengue virus infection and compared with random control samples from 40 individuals living in the Andaman Islands with no information about dengue virus infection.

DNA was extracted by using the QIAmp DNA Blood Maxi Kit (Qiagen) and stored at −20°C before use. Polymerase chain reaction and restriction fragment length polymorphism analysis was performed to genotype OAS1 SNP rs1131454, OAS2 SNPs rs1293762, rs15895, and rs1732778 and the OAS3 SNPs rs2285932 and rs2072136 in dengue samples and control samples as previously described.⁵5. Barkhash AV, Perelygin AA, Babenko VN, et al. Variability in the 2'-5'-oligoadenylate synthetase gene cluster is associated with human predisposition to tick-borne encephalitis virus-induced disease. J Infect Dis. 2010;202:1813–8. The restriction products were visualized on either 2% agarose gels. Individual SNP allele and genotype frequencies and haplotype frequencies were compared between patients with dengue infection and control groups using Chi-square and Fisher exact test using (EpiInfo 7 software – www.cdc.gov/epiinfo/). Differences between groups were considered significant at p < 0.05. Permutation tests using the EM algorithm were applied to analyze pair-wise linkage disequilibrium between SNPs.

A total of six SNPs located in different regions of the OAS1 (1SNPs), OAS2 (3SNPs) and OAS3 (SNPs2) genes were selected. OAS SNPs were genotyped in 30 DNA samples from dengue patients and 40 DNA samples from control group. Statistically significant differences in the genotype between the dengue cases and healthy controls were observed. Characteristics of these SNPs in multiple OAS1, OAS2, and OAS3 gene transcripts are indicated in Table 1.

An increased frequency of OAS2 gene rs1293762 SNP G/T heterozygotes was observed among dengue patients when compared with control group. The difference was statistically significant (p = 0.012, OR = 3.954, 95% CI: 1.294–12.254). The frequency of OAS2 gene r1293762 SNP G/G homozygotes was significantly decreased among dengue patients compared to control group (p = 0.005, OR = 0.124, 95% CI: 0.068–0.659). Likewise, the frequency of OAS2 gene rs1732778 SNP G/G homozygotes and A/A homozygotes was significantly decreased among dengue patients compared to control group (p = 0.000017, OR = 0.000, 95% CI: 0.000–0.159 and p = 0.0000012, OR = 42.000, 95% CI: 7.745-396.49, respectively). No significant association with dengue infection was observed for OAS1 gene rs1131454 SNP homozygotes AA (p = 0.315), GG (p = 0.687) and heterozygote AG (p = 0.151); OAS3 gene rs2285932 SNP homozygotes CC (p = 0.692), TT (p = 0.198) and CT (p = 0.703) and rs2072136 SNP homozygotes GG (p = 0.913), AA (p = 0.502) and GA (p = 0.805) SNPs.

The severity of DENV infection is determined by complex factors including magnitude of DENV replication, expression of cytokines, activation and proliferation of immune cells, host genetic factors, etc.⁶6. Simmons CP, Chau TN, Thuy TT, et al. Maternal antibody and viral factors in the pathogenesis of dengue virus in infants. J Infect Dis. 2007;196:416–24.,⁷7. Coffey LL, Mertens E, Brehin AC, et al. Human genetic determinants of dengue virus susceptibility. Microbes Infect. 2009;11:143–56. As patients with DHF/DSS tend to have higher viremia titers than patients with dengue fever, DENV levels appear to be associated with the severity of dengue diseases.⁸8. Vaughn DW, Green S, Kalayanarooj S, et al. Dengue viremia titer, antibody response pattern, and virus serotype correlate with disease severity. J Infect Dis. 2000;18:2–9.,⁹9. Libraty DH, Young PR, Pickering D, et al. High circulating levels of the dengue virus nonstructural protein NS1 early in dengue illness correlate with the development of dengue hemorrhagic fever. J Infect Dis. 2002;186:1165–8. Oligoadenylate synthetase is well known as an IFN induced antiviral pathway, which plays a critical role in innate immunity, controlling the outcome of virus production. The OAS3 protein preferentially catalyzes the synthesis of dimeric 2'-5'-linked Oligoadenylate that binds to RNase L with lower affinity and induces less activation than the trimeric and longer oligomers synthesized by the OAS1 and OAS2 proteins.¹⁰10. Hovanessian AG, Justesen J. The human 2'-5'-Oligoadenylate synthetase family: unique interferon-inducible enzymes catalyzing 2'-5' instead of 3'-5' phosphodiester bond formation. Biochimie. 2007;89:779–88. OAS3 has been reported to have antiviral activity against the alphavirus chikungunya.¹¹11. Brehin AC, Casademont I, Frenkiel MP, Julier C, Sakuntabhai A, Despres P. The large form of human 2'-5'-Oligoadenylate Synthetase (OAS3) exerts antiviral effect against Chikungunya virus. Virology. 2009;384:216–22.

The anti-DEN activities of these three OAS isoforms correlated with their ability to trigger RNase L activation in DENV infected cells. However, OAS1 p42/p46 and OAS3 p100 are likely to contribute to host defense against DENV infection and play a role in determining the outcomes of DEN disease.¹²12. Lin RJ, Yu HP, Chang BL, Tang WC, Liao CL, Lin YL. Distinct antiviral roles for human 2'-5'-oligoadenylate synthetase family members against dengue virus infection. J Immunol. 2009;183:8035–43.

2'-5'-OAS controls DENV replication and provides insights into the antiviral capacity of various members of the OAS family against DENV replication. The antiviral effects of human OAS1 p42, OAS1 p46, and OAS3 p100 correlate with their abilities to trigger RNase L activation in DENV-2 infected cells.¹²12. Lin RJ, Yu HP, Chang BL, Tang WC, Liao CL, Lin YL. Distinct antiviral roles for human 2'-5'-oligoadenylate synthetase family members against dengue virus infection. J Immunol. 2009;183:8035–43. It would be interesting to determine whether these three OAS isoforms also contribute to host defense against other flaviviruses and whether they are candidate human genetic factors for determining human susceptibility and severity of DENV-related diseases.

Associations between two SNPs located within the OAS2 gene and the outcome of dengue virus infection were detected in the present study. However, in the present cohort there was no evidence of a significant association between DENV infection and OAS1 SNP rs1131454, OAS3 SNPs rs2285932 and rs2072136. Of these OAS genes SNPs were deviated from Hardy–Weinberg equilibrium (HWE), but were not significantly associated with dengue virus infection. Another study¹³13. Bigham AW, Buckingham KJ, Husain S, et al. Host genetic risk factors for West Nile virus infection and disease progression. PLoS ONE. 2011;6:e24745. suggested that Hardy–Weinberg equilibrium was not significantly associated with West Nile virus infection or disease progression from 360 SNPs distributed across 86 genes.

An association was noticed between the OAS1 gene rs2660 SNP located in the 3-untranslated region of p46 and the outcome of infection with another member of the Flaviviridae family namely hepatitis C virus.¹⁴14. Knapp S, Yee LJ, Frodsham AJ, et al. Polymorphisms in interferon induced genes and the outcome of hepatitis C virus infection: roles of MxA, OAS-1 and PKR. Genes Immun. 2003;4:411–9. In the present study no association was found between any of the OAS1 gene SNP and OAS3 SNPs tested and human susceptibility to dengue virus. A recent study showed that OAS1-OAS3-OAS2 haplotypes were associated with differential susceptibility to clinical outcomes of dengue infection.¹⁵15. Alagarasu K, Honap T, Damle IM, Mulay AP, Shah PS, Cecilia D. Polymorphisms in the oligoadenylate synthetase gene cluster and its association with clinical outcomes of dengue virus infection. Infect Genet Evol. 2013;14:390–5. In the present study data obtained from the analysis of OAS gene SNPs suggest that variation in this component of the innate immune response could contribute to the outcome of dengue virus infection. Nonetheless, data from additional cohorts are needed to further validate these results; identification of genetic variants that control the innate immune response will provide an increased understanding the mechanisms of viral pathogenesis.

Acknowledgement

The authors are thankful to the Indian Council of Medical Research for providing financial grants for the study.

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