To study determinants of clinical outcome following HCV infection, viral kinetics, immune events, and intrahepatic cytokine markers were compared in 10 naive chimpanzees. Four of the animals cleared HCV; 6 developed persistent infections. All animals developed similar acute infections with increasing viremia from 1 to 2 weeks, followed by alanine aminotransferase (ALT) elevations and seroconversion. This viremia pattern consisted of a biphasic increase, a rapid slope (mean doubling time [t 2 ] ؍ 0.5 days) followed by a slower slope after the second week (t 2 ؍ 7.5 days). This slowing of virus replication correlated in all animals with increased intrahepatic 25 oligoadenylate synthetase 1 (2OAS-1) messenger RNA (mRNA) levels and was independent of disease outcome. An effective control of virus replication was observed following increases in intrahepatic interferon ␥ (IFN-␥) mRNA and ALT levels. Although this control was associated in all animals with a 2-log decrease in virus titer, the timing occurred approximately 2 weeks later in the chronic group (P < .05). Additionally, while cleared infections were characterized by a continual decrease in virus titer, the titers in the persistent infections reached a steady state level of 10 4 to 10 5 RNA copies/mL. This inability of the immune response to sustain viral clearance in the persistent infections was associated with a reduced intrahepatic CD3e and monocyte-induced protein 1␣ (MIP-1␣) mRNA induction. In conclusion, these data indicate that, regardless of outcome, chimpanzees generate responses that control HCV replication during the early and late acute phase. However, the pathogenesis of HCV may be determined by a more rapid onset of the induced response and the cell population that migrates to the liver. (HEPATOLOGY 2004;39:1709 -1720.) H uman infections with hepatitis C virus (HCV) frequently become persistent, leading to chronic hepatitis, cirrhosis, and the development of hepatocellular carcinoma. 1 Persistent infection occurs in up to 85% of patients 2 and between 30% and 60% of chimpanzees, 3 the only animal model for this virus. The spontaneous clearance of primary HCV infections has been associated with strong, multispecific T-cell responses, 4 -6 and rechallenge experiments in chimpanzees have indicated that memory T-cells rather than antibody to surface antigens are pivotal in rapidly controlling the virus. 7,8 Consequently, persistence of the virus is thought to be the result of poor, dysfunctional, or ineffective T-cell responses that are unable to control viral replication. 9,10 However, the acute phase of HCV infection is not well documented because the virus causes a mild or inapparent acute infection in humans, and most diagnoses are made during the chronic stage, many years after the events determining the outcome of infection have occurred. In this study, 10 naïve, MHC class I-diverse chimpanzees were inoculated with virus or RNA encoding the same clonal HCV sequence containing no detectable quasispecies diversity. The monoclonal virus us...
