The pathogenesis of hepatitis A virus (HAV) infection was studied in owl monkeys following oral administration of the wild-type HM-175 strain of HAV. Stools were collected daily and blood and pharyngeal swabs twice weekly for viral isolation, and animals were necropsied at various intervals after inoculation. Organs were examined for the presence of virus by isolation in cell culture and for viral antigens by immunofluorescence. Monkeys excreted HAV in the stools for 1-4 days after inoculation, presumably due to the residual unabsorbed inoculum. No virus was found in stools for the next 2-3 days. HAV re-appeared on days 4-7 and then persisted through day 39. Viremia occurred on the 10th day and continued until day 35. Virus was isolated occasionally from throat swabs 1 or 2 weeks after it was detected in stools and blood, and there was no evidence that HAV replicated in the pharyngeal tissues. Animals acquired anti-HAV antibody by the 4th week, and alanine aminotransferase (ALT) was elevated 5-5.5 weeks after inoculation. HAV was isolated from liver 5 days after inoculation; however, viral antigens were first detected in Kupffer cells of the liver at 14 days and in hepatocytes at 21 days. HAV antigen was detected in epithelial cells of the intestinal crypts and in the cells of the lamina propria of the small intestine 3 days postinoculation and thereafter until the 5th week, suggesting that these cells might represent an additional site of HAV replication.
Owl and cynomolgus monkeys were inoculated with hepatitis E virus (HEV) to compare disease models and produce antibody and virus. By immune electron microscopy (IEM), all six owl monkeys were shown to have serologic responses manifested by unusually high levels of anti-HEV at 6 months, but only three developed hepatitis. Virus-related antigen in liver (HEV Ag) was detected by immunofluorescence microscopy of biopsies from two of four owl monkeys; one with HEV Ag also had HEV in acute-phase bile (detected by IEM) and feces (detected by infecting another owl monkey). In contrast, cynomolgus monkeys propagated HEV to higher levels and all five had hepatitis. Moderate-to-high levels of HEV Ag correlated with detectable HEV in bile for both species. Thus, the value of using HEV-infected cynomolgus was confirmed. Owl monkeys were shown to be HEV-susceptible and sources of high-level anti-HEV; Sustained anti-HEV in these monkeys may also be useful for understanding immune responses.
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