0000000000323539
AUTHOR
J. Slusarczyk
Association of hepatitis Be antigen (HBeAg) with the core of the hepatitis B virus (HBcAg).
— Three substances (pronase E, sodium dodecylsulfate (SDS) and guanidine hydrochloride) with different chemical actions partially convert HBcAg to HBeAg. This process retains the integrity of the HBcAg particle, which was not different between HBcAg subpopulations, and does not generate HBcAg or HBeAg sub-units. DNA polymerase activity was destroyed by SDS and guanidine hydrochloride, but not by pronase E. Serum HBeAg could not be converted into HBcAg, suggesting that this might be an irreversible process. The data are consistent with the assumption that HBcAg and HBeAg are coded for by the same gene (C gene of the HBV-DNA).
Hepatitis B virus and delta infection in male homosexuals
— Six hundred and sixty-six homosexuals were analysed in respect of hepatitis B virus and delta infections. Evidence of ongoing or recent hepatitis B virus infection was found in 450/666 (67.6%) homosexuals; 44 were HBsAg positive. Anti-delta was found in two HBsAg-positive homosexuals. Both individuals had a non-replicative form of HBV infection and biochemical evidence of liver disease. The study confirms that HBV infection is frequent in homosexuals and indicates that delta-infection is rare in male homosexuals.
Lack of hepatitis B virus DNA sequences in sera from patients with acute and chronic liver diseases diagnosed as non-A, non-B-hepatitis
— The sera of 15 individuals with transfusion-associated acute or chronic non A, non B hepatitis, which lacked hepatitis B virus markers, were tested for hepatitis B virus DNA by dot blot hybridization test. Three sera of two patients positive in this test, however, also gave positive results when the labeled plasmid was used as probe instead of labeled HBV-DNA, indicating false positive results in the initial test. In conclusion, the data indicated that sera of patients with confirmed non A, non B hepatitis do not contain DNA-sequences in the serum hybridizing with HBV-DNA.