SUMMARYTwo mouse monoclonal antibodies, designated DB-1 and DB-2, were isolated and used for the purification and characterization of recombinant rat interferon gamma (rRIF-~,) derived from Chinese hamster ovary (CHO) cells. The two antibodies belong to different classes (DB-1 is an IgGl and DB-2 an IgA) and display similar epitope specificities as shown in competition binding experiments. Both antibodies, raised against rRIF-% exhibited high affinity for rat and mouse gamma interferon and efficiently neutralized the antiviral activity of both animal interferon species. Affinity chromatography analysis showed that a column with immobilized DB-1 was capable of complete binding of rat and mouse gamma interferon, both natural and recombinant DNA-derived. As visualized by SDS-polyacrylamide gel electrophoresis and Western blot analysis, the purified rRIF-~ preparation consisted of at least seven molecular forms with M~ values ranging between 14 000 and 25 000, with a relative abundance of a 18 000 Mr protein. Gel permeation chromatography of crude rRIF-~ gave coincident peaks of rRIF-~ proteins (all different forms) and interferon activity corresponding to a M~ value of 45000. The results suggest that the molecular heterogeneity was due to differential glycosylation and was not the consequence of a proteolytic degradation process.
Sequence evolution of the hypervariable region 1 (HVR1) in the N terminus of E2/NS1 of hepatitis C virus (HCV) was studied retrospectively in six chimpanzees inoculated with the same genotype 1b strain, containing a unique predominant HVR1 sequence. Immediately after inoculation, all animals contained the same HVR predominant sequence. Two animals developed an acute self-limiting infection. Anti-HVR1 immunoglobulin G (IgG) was produced 40 to 60 days after inoculation and rapidly disappeared after normalization of transaminases. Another chimpanzee, previously infected with human immunodeficiency virus type 1, showed a delayed response to HVR1 epitopes after superinfection with HCV. No sequence variation of HVR1 was observed in these two animals during the transient viremia in the acute phase. Three other chimpanzees developed a chronic HCV infection. During follow up, sequence evolution occurred in two animals and their anti-HVR1 response remained at varying but detectable levels. The first mutations occurred immediately after the production of anti-HVR1 during the acute phase. However, IgM anti-HVR1 was not detectable. Remarkably, HVR1 sequences remained conserved for more than 6 years in another chronically infected animal. This correlated with the complete absence of detectable anti-HVR1 during this period. Seven years after inoculation, anti-HVR1 IgG was produced and coincided with an HVR1 alteration. These results strongly suggest the involvement of neutralizing anti-HVR antibodies in sequence evolution of HVR1 through immune selection.
Hepatitis delta virus (HDV) RNA was isolated from the serum of a chimpanzee acutely infected with hepatitis B virus (HBV) and superinfected with HDV. Interference of HDV with HBV resulted in decreased HBV DNA levels in the serum. This interference did not change the size of the two HBV specific RNAs present in the liver of the chimpanzee. The complete cDNA sequence of the HDV RNA (5th passage) was determined. Comparison of this cDNA sequence with our previously published sequence (4th passage), located in the variable domain of HDV, was highly conserved. The HDV strain used for these infections originated from a human HDV isolate also used for five to seven HDV passages in chronic HBV carrier chimpanzees (subtypes adw and ayw) or woodchucks chronically infected with woodchuck hepatitis virus (WHV). The complete HDV cDNA sequence showed an extreme conservation (up to 99.8% homology) with the previously published animal-derived HDV cDNA sequences irrespective of passage number and animal species. In contrast a markedly lower homology (85-89%) was found when compared with 3 human-derived HDV cDNA sequences. Comparison of our complete cDNA sequence with the human-derived cDNA sequences showed that the nucleotide changes in the human-derived isolates were restricted to specific regions on the genome and to specific basepair substitutions. The hepatitis Delta antigen (HDAg) is highly conserved both in the human- and animal-derived cDNA sequences showing mainly conservative amino acid changes.
Acute and chronic Hepatitis C virus infections were investigated retrospectively in chimpanzees that had been infected from a single source. Anti-E1 and anti-E2 were detected in two of three chimpanzees with a chronic infection, but were first detected 1 to 2 years after inoculation. Sequence evolution of the E1 region in three animals over a period of 9 to 11 years revealed a mutation rate of 1.02 to 2.23 x 10(-3) base substitutions per site per year. The acute phase viremia levels in acute infections which resolved appeared to be at least 10-fold higher than during the acute phase of chronic infections. During chronic infections, the viral load fell rapidly after the acute phase and remained at very low levels for several years. After 4 to 6 years, the viral load and liver enzymes increased again, suggesting reactivation of the infection. There was no clear temporal relationship between sequence evolution of the E1 region, changes in viral load, and the production of antibodies to the envelope proteins.
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