Host range studies of GB virus-B hepatitis agent, the closest relative of hepatitis C virus, in New World monkeys and chimpanzees.

GB virus-B (GBV-B) is a member of the Flaviviridae family of viruses. This RNA virus causes acute resolving hepatitis in experimentally infected tamarins, but its natural host remains unknown. GBV-B and a related virus, GBV-A, were recovered from serum containing the "GB agent," which was believed to have originated from a surgeon (initials: GB) with acute hepatitis. GBV-B has special interest because it is the virus related most closely to hepatitis C virus, which is an important cause of acute and chronic liver disease in humans. In the present study, we found that the host range of GBV-B includes owl monkeys. Tamarins and owl monkeys belong to two different families of New World monkeys. The natural history of GBV-B in the two owl monkeys studied was similar to that previously found for tamarins and was characterized by early appearance of viremia and viral clearance. However, the peak viral titers of GBV-B observed in owl monkeys (10(5) genome equivalents [GE] /ml) were lower than those observed in experimentally infected tamarins (10(7)-10(8) GE/ml) and acute hepatitis was observed in only one animal. If GBV-B were indeed a virus of humans, it would be expected to infect chimpanzees, a surrogate of humans, because all recognized human hepatitis viruses are transmissible to chimpanzees and cause hepatitis. However, in the present study, we failed to transmit GBV-B to a naive chimpanzee. In addition, a second naive chimpanzee transfected intrahepatically with RNA transcripts from an infectious clone of GBV-B did not become infected. Thus, chimpanzees are apparently not susceptible to GBV-B. Finally, we failed to detect GBV-B in acute-phase serum from surgeon GB. Our data suggest that GBV-B is not a human virus and that GBV-B, like GBV-A, is a virus of New World monkeys.

Failure to infect rhesus monkeys with hepatitis C virus strains of genotypes 1a, 2a or 3a.

The chimpanzee is the only recognized animal model for the study of hepatitis C virus (HCV). However, recently it was reported that rhesus monkeys were susceptible to HCV and developed hepatitis during infection. In the present study, we inoculated two rhesus monkeys each with HCV strain H77 (genotype 1a), strain HC-J6 (genotype 2a) or strain S52 (genotype 3a). Weekly serum samples were tested for liver enzyme values, HCV antibodies and HCV RNA. We did not find evidence of HCV infection in any of the monkeys during 24 weeks of follow-up. Our study demonstrates that rhesus monkeys are not readily infected with HCV and apparently do not represent a useful animal model for the study of HCV.

Toward a surrogate model for hepatitis C virus: An infectious molecular clone of the GB virus-B hepatitis agent.

GB virus-B (GBV-B) is a member of the Flaviviridae family of viruses. This RNA virus infects tamarins, but its natural host is not known. GBV-B has special interest because it is the virus that is most closely related to hepatitis C virus (HCV), an important human pathogen. In the present study, we identified a previously unrecognized sequence at the 3' end of the GBV-B genome. This new 3' terminal sequence can form several predicted stem-loop structures as is typical for other members of the Flaviviridae family. We constructed molecular clones and showed that the new 3' UTR sequence was critical for in vivo infectivity. After intrahepatic transfection of two tamarins with RNA transcripts of the full-length GBV-B clone, we detected high viral titers from Week 1 postinoculation with peak titers of approximately 10(8) genome equivalents/ml. The viremic pattern of GBV-B infection in the transfected animals was the same as in animals inoculated intravenously with the virus pool used as the cloning source. The sequence of the recombinant virus was recovered from one of the tamarins and shown to be identical to that of the infectious clone. The development of severe hepatitis in both tamarins infected with the recombinant GBV-B virus provides formal proof that GBV-B is a true hepatitis virus.

Experimental infection of chimpanzees with hepatitis C virus of genotype 5a: genetic analysis of the virus and generation of a standardized challenge pool.

Six major genotypes (genotypes 1-6) of hepatitis C virus (HCV) have been identified. These genetic variants are being transmitted to chimpanzees, the only recognized animal model for the study of HCV. Genotype 5a (strain SA13), a variant found primarily in South Africa, has been transmitted to chimpanzees for the first time. Experimental infection of 2 chimpanzees was characterized by early appearance of viremia and peak virus titers of 10(5)-10(6) genome equivalents/mL. The HCV infection was resolved by week 15 after inoculation in 1 chimpanzee and persisted in the other. Both chimpanzees became anti-HCV-positive by week 14 after inoculation. Both chimpanzees developed viral hepatitis. The infectivity titer of a genotype 5a challenge pool prepared from the first passage of HCV in a chimpanzee was approximately 10(4) infectious doses/mL. Finally, sequence analysis of strain SA13 confirmed that genotype 5a is genetically distinct from other genotypes of HCV.

Experimental infection of chimpanzees with hepatitis G virus and genetic analysis of the virus.

Hepatitis G virus (HGV) was transmitted to 2 chimpanzees by inoculation with human plasma containing approximately 10(8) genome equivalents (GE) of HGV. The infection was characterized by the late appearance (weeks 10 and 11 after inoculation [pi]) of viremia that persisted throughout the 120-week follow-up. Serum HGV titer increased steadily until it plateaued at 10(6)-10(7) GE/mL. However, despite this relatively high titer, neither of the chimpanzees developed hepatitis. The sequence of the viral genome, recovered from each chimpanzee at week 77 pi, differed from that of the inoculum by 5 nt (2 aa) and 27 nt (2 aa). Two more chimpanzees were inoculated with a first-passage plasma pool. The chimpanzee inoculated with approximately 10(6.7) GE of HGV had viremia at week 1 pi. However, the viral titer increased with the same kinetics as observed in the first passage. The second chimpanzee inoculated with approximately 10(4.7) GE of HGV had late appearance (week 7 pi) of viremia.

Five new or recently discovered (GBV-A) virus species are indigenous to New World monkeys and may constitute a separate genus of the Flaviviridae.

In previous studies, human hepatitis viruses have been experimentally transmitted to New World monkeys of the genus Saguinus (tamarins). Recently, two Flaviviridae-like agents (GBV-A and GBV-B) were identified in tamarins that developed hepatitis following inoculation with serum of the 11th tamarin passage of a potentially new human hepatitis agent. However, it was not shown that these viruses originated from the initial inoculum. We here report the discovery of indigenous species-specific viruses related to GBV-A in several species of New World monkeys and suggest that GBV-A virus was fortuitously acquired during passage in tamarins. Sera or plasma from 98 wild-caught New World monkeys representing 10 different species was tested by RT-PCR with conserved degenerate primers to the 5' noncoding region of the genome. Viral sequences were identified in 33 animals and sequence analysis was performed on the amplicons. In addition, the genomic region corresponding to the putative NS3 RNA helicase of GBV-A was amplified from most positive animals and sequenced. We detected GBV-A-like viruses in 13 (35%) of 37 S. mystax, 7 (78%) of 9 S. nigricollis, 3 (25%) of 12 S. labiatus, 2 (50%) of 4 S. oedipus, 2 (100%) of 2 Callithrix jacchus, and 6 (50%) of 12 Aotus trivirgatus monkeys. Each positive animal was infected with a unique strain of the GBV-A-like viruses. Analysis of the 5' NC and NS3 helicase sequences revealed that these viruses could be classified into 5 major genetic groups with genetic distances equivalent to or greater than those found among major genetic groups of hepatitis C virus. Species-specific GBV-A-like viruses were found in S. mystax, S. nigricollis, S. oedipus, C. jacchus, and A. trivirgatus species. The viruses specific for S. nigricollis were closely related to GBV-A, suggesting that GBV-A was acquired by passage through this species during the initial transmission studies. The natural history of the GBV-A-like viruses was studied in serial serum samples from 9 S. mystax and 2 A. trivirgatus monkeys. Each animal was chronically infected and the viral strain did not vary during 9-27 months of follow-up. Finally, we demonstrated that four S. mystax were positive upon arrival to the United States from the country of origin. No apparent disease was associated with chronic infection of the GBV-A-like viruses. In conclusion, many New World monkeys are persistently infected with indigenous species-specific viruses that may represent a new genus within the virus family Flaviviridae.