Abstract
Background: Many hepatitis B virus (HBV) substances could inevitably enter fetuses and occurred neonatal intrauterine transmission. HBV often occurs mutation, especially S gene, and may lead to different outcomes on intrauterine transmission. We explored the associations between HBV S gene mutations of hepatitis B surface antigen positive (HBsAg-positive) mothers and intrauterine transmission. Methods: A total of 399 HBsAg-positive mothers and neonates were recruited and their general demographic information was collected between June 2011 and July 2013. The mothers with HBV DNA levels ≥ 106 IU/ml were selected, 22 mothers whose neonates occurred HBV intrauterine transmission were in the HBV intrauterine transmission group (GT) and 22 mothers were randomly selected from the remaining controls were in the control group (GC). Maternal whole-genome HBV DNA was extracted, amplified, cloned, and sequenced. Obtained sequences were adjusted, genotyped, and analyzed for mutation rates. A case-control study was designed to analyze the relationship between mutations in the S gene of HBV and intrauterine transmission. Results: Fifty-five neonates were found to have experienced intrauterine transmission (13.78%). Genotype B (4.55%), genotype C (88.64%) and inter-genotype B/C (6.81%) were found in the 44 HBsAg-positive mothers. The mutation rates of the S gene, in both genotypes B (0.58% vs 1.41%, P = 0.040) and C (7.56% vs 14.71%, P<0.001), were lower in group T than in group C. Missense substitutions such as L84I, P47S, K10Q, A41P, M133L, A60V, and I42T only existed in group C. The mutation rates of G73S, I126T, and I126S in group C were higher (P < 0.001, P < 0.001, P = 0.010). Deletions occurred in the S gene. The occurrence of intrauterine transmission with maternal mutation A90V was higher (P < 0.001). This may have increased the risk of neonatal HBsAg expression (P = 0.022). Conclusions: The HBV S gene mutations of HBsAg-positive mothers may reduce the occurrence of HBV intrauterine transmission. It is possible for HBsAg-positive mothers infected with A90V to develop HBV chronic infection and transmit it to the fetus during pregnancy, resulting in neonatal HBV infection.
Additional N-glycosylation mutation in the major hydrophilic region of hepatitis B virus S gene is a risk indicator for hepatocellular carcinoma occurrence in patients with coexistence of HBsAg/anti-HBs