Interactions Between HIV and HCV in Coinfected Hemophili
Winkler, Cheryl Ann   
Basic Sciences, United States

The human immunodeficiency virus type 1 (HIV-1) frequently infected hemophiliacs who received non-heat-treated clotting factor concentrates prior to 1985. In addition, these individuals were universally infected by hepatitis C virus (HCV) with >80% remaining chronically infected by this agent. Thus, hemophiliacs represent an important population for studies of the natural history of these chronic viral infections. Moreover, the high rate of co-infection makes it an ideal group for assessing the interaction between the viruses and the relationship between viral-specific immune responses and clinical progression. Although the hemophiliac population is unique, co-infection by these chronic viral pathogens is becoming increasingly common, particularly among intravenous drug users, who account for approximately 25% of the epidemic in the United States. We have investigated issues related to HIV-1 and HCV immunopathogenesis by studying children and adolescents enrolled in the Hemophilia Growth and Development Study (HGDS). The HGDS enrolled 333 hemophiliacs between 1989 and 1990 and followed them for 7-8 years. This multicenter United States study represents a well-characterized, prospectively followed cohort of HCV-infected hemophiliacs, of whom 207 are HIV-1 co-infected. However, it was not known how HCV co-infection affects the natural history of HIV-1 progression. A total of 332 hemophiliacs had 1-8 repeated annual HCV RNA measurements between baseline and 7 years of follow-up. CD4+ cells and plasma HCV RNA were measured annually in all subjects, and plasma HIV RNA was measured annually in the HIV-infected subjects. HIV and HCV RNA levels were quantified using second generation Chiron bDNA assays. We have previously reported that high HCV viral load was associated with increased morbidity and mortality in HIV-1 co-infected hemophiliacs and that HIV-1 infection was associated with increased risk of persistent HCV infection. We are now investigating the role of viral-specific immunologic responses in controlling HIV-1 and HCV replication and how these responses are regulated by the immune system. Genetic polymorphisms that affect T cell differentiation may influence Th1/Th2 balance and the effectiveness of the immune system in mounting a cytotoxic response to specific HIV-1 and HCV epitopes. We have identified single nucleotide polymorphisms in regulatory or noncoding regions of cytokines known to have a role in determining Th1/Th2 states. These will be analyzed for correlations with the strength and breath of CTL immune responses to HCV and/or HIV viral peptides. We have completed HCV genotyping on the entire HGDS cohort and are now investigating the role of HCV genotype on HIV-1 clinical progression to AIDS and on HIV-1 RNA levels.