Chronic immune activation is a distinguishing feature of liver and PBMC gene signatures from HCV/HIV coinfected patients and may contribute to hepatic fibrogenesis.

Hepatitis C virus/human immunodeficiency virus (HCV/HIV) coinfected patients demonstrate accelerated progression to severe liver injury in comparison to HCV monoinfected patients, although the underlying mechanisms are unclear owing to infection of separate tissue compartments with two distinct viral pathogens. Microarray analysis of paired liver biopsy and peripheral blood mononuclear cell (PBMC) specimens from HCV/HIV coinfected and HCV monoinfected patients identified a gene expression signature associated with increased inflammation and immune activation that was present only in liver and PBMC samples from coinfected patients. We also identified in these samples liver- and PBMC-specific signatures enriched with fibrogenic/hepatic stellate activation and proinflammatory genes, respectively. Finally, Bayesian networks were constructed by assimilating these data with existing data from liver and PBMC samples from other cohorts, augmenting enrichment of biologically important pathways and further indicating that chronic immune activation in HCV/HIV coinfection may exacerbate liver disease progression in coinfected patients.

Genetic and functional heterogeneity of the hepatitis C virus p7 ion channel during natural chronic infection.

The present study describes natural genetic heterogeneity of hepatitis C virus (HCV) p7 protein, the ion channel that plays a critical role in assembly and release of HCV, within 299 variants isolated from serum specimens of 27 chronically infected patients, 12 of whom with human immunodeficiency virus (HIV) co-infection. Liver fibrosis stage was inversely correlated with p7 synonymous substitutions (dS) (p=0.033), and indices of p7 genetic diversity were significantly higher in HIV-negative subjects compared to HIV-positive subjects (dS, p=0.005; non-synonymous substitutions (dN), p=0.002; dN/dS ratio, p=0.024; amino acid distances, p=0.007). Six p7 genes with naturally occurring unique amino acid variations were selected for in vitro study. The variants demonstrated diversified functional heterogeneity in vitro, with one variant from a subject with severe liver disease displaying hyperactive ion channel function, as well as other variants presenting altered pH-activated channel gating activities.

Investigation of putative multisubtype hepatitis C virus infections in vivo by heteroduplex mobility analysis of core/envelope subgenomes.

The frequency that multiple different subtypes of hepatitis C virus (HCV) simultaneously infect a given individual is controversial. To address this question, heteroduplex mobility analysis (HMA) of portions of the HCV core and envelope 1 region was optimized for sensitive and specific detection of mixtures of HCV genomes of different genotype or subtype. Using the standard HCV genotyping approach of 5'-untranslated region (UTR) analysis, 28 of 374 (7.5%) chronic hepatitis C research subjects were classified as having either multiple-subtype HCV infections (n = 21) or switching HCV subtypes over time (n = 7), the latter pattern implying viral superinfection. Upon retesting of specimens by HMA, 25 of 28 multiple-subtype results could not be reproduced. All three patients with positive results were injection drug users with potential multiple HCV exposures. To address the hypothesis of tissue sequestration of multiple-subtype HCV infections, liver (n = 22), peripheral blood mononuclear cell (n = 13), perihepatic lymph node (n = 16), and serum (n = 19) specimens from 23 subjects with end-stage hepatitis C were collected and analyzed by the HMA technique. Whereas 5'-UTR results implicated mixed-subtype HCV infections in 2 subjects, HMA testing revealed no evidence of a second HCV subtype in any tissue compartment (0 of 70 compartments [0%]) or within any given subject (0 of 23 subjects [0%]). In summary, a large proportion of mixed-genotype and switching-genotype patterns generated by 5'-UTR analysis were not reproducible using the HMA approach, emphasizing the need for additional study.

Preservation of intrahepatic hepatitis C virus (HCV)-specific CD4+ T cell responses despite global loss of CD4+ T cells in HCV/HIV coinfection.

BACKGROUND: Human immunodeficiency virus (HIV) coinfection and low peripheral blood CD4(+) T cell counts are associated with increased hepatitis C liver disease. METHODS: Hepatitis C virus (HCV)-specific CD4(+) T cell responses were assessed using interferon (IFN)- gamma enzyme-linked immunospot assays on peripheral blood mononuclear cells and expanded liver lymphocytes from HCV-monoinfected and HCV/HIV-coinfected subjects. Cell frequencies were determined using flow cytometry. RESULTS: HIV coinfection was associated with decreased CD4(+) T cell percentages in both peripheral blood (21% vs. 48%; P<.0001) and liver (15% vs. 36%; P<.0001) and with reduced responsiveness of peripheral CD4(+) T cells to HCV antigens compared with HCV monoinfection (22% vs. 45%; P=.021). However, intrahepatic HCV-specific responses were maintained in HCV/HIV coinfection, compared with HCV monoinfection (38% vs. 32%; P=.7). Notably, the presence of HCV-specific responses was not related to the frequency of liver CD4(+) T cells (P=.4). Circulating and liver CD4(+) T cell percentages were correlated (r=0.58; P<.0001). Circulating percentages were also inversely associated with liver fibrosis stage among HCV/HIV-coinfected subjects (P=.029). Neither hepatic CD4(+) T cell percentages nor HCV-specific IFN- gamma responses in the liver or periphery predicted stage. CONCLUSIONS: Despite decreases in peripheral blood HCV-specific CD4(+) T cell responses and intrahepatic CD4(+) T cell percentages, intrahepatic HCV-specific CD4(+) IFN- gamma responses were preserved in HCV/HIV coinfection.

HIV infection and antiretroviral therapy: effect on hepatitis C virus quasispecies variability.

BACKGROUND: Hepatitis C virus (HCV) quasispecies variability has been associated with liver disease progression. The effects of human immunodeficiency virus (HIV) coinfection and highly active antiretroviral therapy (HAART) on HCV quasispecies variability have not been firmly established. METHODS: We determined HCV quasispecies complexity and diversity in 69 subjects, 28 of whom were HIV infected, using clonal frequency analysis via heteroduplex mobility analysis of the second envelope gene hypervariable region. Nucleotide sequencing was performed for a small subset of subjects. RESULTS: HIV-positive, HAART-naive subjects had significantly lower HCV quasispecies complexity and diversity than did both HIV-negative and HIV-positive HAART-treated subjects. In multivariate analysis, HIV infection predicted decreased complexity (P < .0001) and diversity (P = .001) of HCV quasispecies, whereas HAART predicted increased complexity (P = .013) and diversity (P = .026). For 4 of 6 patients, sequence analysis yielded data supporting the model that positive host pressure drives HCV quasispecies heterogeneity, although data favoring the hypothesis of selective outgrowth of the most fit variants were also observed. CONCLUSION: HIV coinfection is associated with decreased HCV quasispecies variability, which appears to be reversed by effective HAART. Although HIV- and HAART-related effects on host immune pressure are likely to play a role in the observed differences in HCV genetic heterogeneity, other mechanisms may be operative.