IL-18 and CD14 variants in chronic HBV predisposition: a case-control study with in silico analyses focused on transcription and splicing.
Mohammad SarhadiElham PahlavaniNiloufar Hosseini RazaviFatemeh GhadyaniZahra AbdollahiSomayeh SarhadiMahboobeh Sabeti Akbar-AbadHossein ShahriariMahdi MajidpourPublished in: Nucleosides, nucleotides & nucleic acids (2024)
Hepatitis B virus (HBV), a vaccine-avoidable infection, is a health concern worldwide, leading to liver disorders such as acute self-constraint and chronic hepatitis, liver failure, hepatic cirrhosis, and even hepatocellular carcinoma if untreated. 'Immunogeneticprofiling', genetic variations of the pro- and anti-inflammatory cytokines responsible for regulating the immune responses, cause person-to-person differences and impact the clinical manifestation of the disease. The current experimental-bioinformatics research was conducted to examine whether promoteric IL-18 -rs187238 C > G and -rs1946518 T > G and intronic CD14 -rs2569190 A > G variations are associated with chronic HBV. A total of 400 individuals (200 in each case and control group) participated in the study and were genotyped using the polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) technique. The data was also assessed bioinformatics-wise for conservation, genomic transcription and splicing, and protein interactions. Findings proposed that unlike the IL-18 -rs1946518 T > G and CD14 -rs2569190 A > G, the IL-18 -rs187238 C > G is a protector against chronic HBV (odds ratio [OR] = 0.62, 95% confidence intervals [CI]: 0.46-0.83, and p = 0.002). The TG/CC/AA, TG/CC/AG, TT/CC/AG , and GG/CC/AA combined genotypes significantly increased chronic HBV risk ( p < 0.05), while the IL-18 G/T and G/G haplotypes lessened it ( p < 0.05). Moreover, IL-18 -rs1946518 T > G is in the protected genomic regions across mammalian species. In contrast to the IL-18 -rs1946518 T > G, IL-18 -rs187238 C > G is likely to create novel binding sites for transcription factors, and the CD14 -rs2569190 A > G presumably changed the ribonucleic acid splicing pattern. More research on larger populations and other ethnicities is required to authenticate these results.
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