Abstract
Transmission of hepatitis B virus (HBV) from anti-hepatitis B e (anti-HBe)-positive carrier mothers to their infants may result in neonatal fulminant hepatitis B (FHB). We investigated whether HBV variants with a particular DNA sequence and functional phenotype, responsible for FHB, are selected during transmission. Full-length HBV genomes from a mother-infant pair were completely sequenced and transfected into human hepatoma cells. The dominant neonatal and maternal HBV populations were nearly identical (homology 99.8%) and showed a precore stop codon mutation, T-1762 and A-1764 substitutions in the core promoter region, and pre-S2 start codon mutations. Cells transfected with variants from mother and child, compared with wild-type virus, synthesized and released a similar number or fewer HBV DNA-containing particles. In conclusion, no particular HBV strain emerged during neonatal FHB. In this case, a de novo infection with variants showing a defect in HBe antigen and pre-S2 protein synthesis but not a high replication competence probably contributed to the fulminant disease course.
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