Intrahepatic interferon-stimulated gene responses: can they predict treatment responses in chronic hepatitis C infection?

Analysis of human liver disease using a cluster of differentiation (CD) antibody microarray

BACKGROUND

A CD antibody microarray has been previously developed allowing semi-quantitative identification of greater than 80 CD antigens on circulating leucocytes from peripheral blood samples. This assay, which uses a live cell-capture technique, enables an extensive leucocyte immunophenotype determination in a single analysis and to date this has been used successfully to characterise diseases including human leukaemias and HIV infection.

AIMS

To determine CD antigen expression profiles for patients with various liver diseases and to look for preserved disease-specific signatures.

METHODS

Three liver disease groups including hepatitis C (HCV) (n = 35), non-alcoholic steatohepatitis (NASH) (n = 21) and alcohol-related liver disease (n = 14) were compared with a normal group (n = 23). Hierarchal Clustering (HCL) and Principal Component Analysis (PCA) of the data revealed distinct binding patterns for patients with and without cirrhosis.

RESULTS

Patients with cirrhosis and portal hypertension compared with those without cirrhosis had significantly reduced expression of several markers of T-cell function including CD45, CD8, CD28 and TCR α/β. Disease prediction algorithms based on the expression data were able to discriminate cirrhotics from non-cirrhotics with 71% overall success, which improved to 77% when only patients with HCV were considered.

CONCLUSIONS

These results demonstrate disease-specific consensus patterns of expression of CD antigens for patients with chronic liver disease, suggesting that the CD antibody array is a promising tool in the analysis of human liver disease, and with further refinement may have future research and clinical utility.

[Genetic polymorphisms as predictors of response to antiviral treatment in chronic hepatitis C virus infection]

The review discusses the genetic polymorphisms involved in the pathogenesis of hepatitis C virus (HCV) infection, that may determine the outcome of disease. In this field earlier both certain major histocompatibility complex (MHC) alleles and some cytokine gene variants have also been studied. Recently, the genome-wide association study (GWAS) and targeted single nucleotide polymorphism (SNP) analysis have revealed that a variant in the promoter region of interleukin-28B (IL-28B) gene is strongly linked to viral clearance and it may be the strongest pretreatment predictor of treatment response in chronic hepatitis C. Last year it was shown that two genetic variants leading to inosine triphosphatase deficiency protect against haemolytic anemia in patients receiving ribavirin during antiviral treatment for chronic HCV infection.

Host genetic basis for hepatitis C virus clearance: a role for blood collection centers

PURPOSE OF REVIEW

Host genetic factors influencing hepatitis C virus (HCV) transmission outcomes are incompletely defined. However, vast differences observed in rates of spontaneous clearance between individuals infected with the same parental HCV strain strongly indicate a role for genetic determinants in the host immune response to HCV. This review discusses genetic association studies, particularly those published in the last year, that show gene linkages with spontaneous and treatment-induced HCV clearance. The valuable role that blood collection centers can play in increasing the sample size of HCV-confirmed seropositive donors with resolved versus persistent infections for large-scale genetic association studies is highlighted.

RECENT FINDINGS

Recent groundbreaking genome-wide association study and targeted single-nucleotide polymorphism (SNP) analysis from independent groups have demonstrated immune response gene polymorphisms, and particularly in the interleukin (IL)-28B gene, that are strongly linked to HCV clearance. The IL-28B gene encodes interferon lambda 3, an innate immune response cytokine. SNPs in the promoter region of IL-28B were first shown to be associated with HCV treatment-induced viral clearance and subsequently to be a key determinant of spontaneous HCV resolution in infected individuals. Samples from blood donors with resolved and chronic HCV infections have contributed to these findings.

SUMMARY

These genetic studies have provided the strongest evidence so far of a host genetic determinant linked to HCV clearance. Such large-scale genetic association studies will promote better understanding of HCV disease pathogenesis and assist in effective prognosis of HCV in the future. Continued and preferably expanded participation of blood centers in this research is encouraged.

Hepatocellular MxA protein expression supports the differentiation of recurrent hepatitis C disease from acute cellular rejection after liver transplantation

Differentiation of recurrent hepatitis C virus (HCV) disease from acute cellular rejection (ACR) following liver transplantation can be difficult. Previously, we have found that MxA protein, a specific and sensitive marker for type 1 interferon production, is strongly expressed in chronic HCV disease. Here, we investigate MxA expression as a marker for recurrent HCV disease in the livers of 14 adult HCV patients who underwent liver transplantation. Serial liver biopsies available for 12 of these patients were stained for MxA protein and scored using a semi-quantitative approach. Hepatocellular MxA protein levels were significantly up-regulated (p = 0.025) in recurrent HCV disease in comparison to ACR. In biopsies that showed histological changes consistent with recurrent HCV disease, strong hepatocellular MxA staining was present in 14/18 (78%). In the liver biopsies with histological evidence of ACR, strong MxA hepatocellular staining was present in only three of 10 (30%). Thus, assessment of hepatocellular MxA protein expression can contribute to the differential diagnosis of ACR and recurrent HCV disease following liver transplantation. In conclusion, analysis of intrahepatic MxA levels has the potential to reduce the inappropriate use with high-dose pulsing of steroids post-operatively.

Molecular and cellular aspects of hepatitis C virus reinfection after liver transplantation: how the early phase impacts on outcomes

Hepatitis C virus (HCV)-related liver disease postliver transplantation is associated with an accelerated course in comparison with that observed in the nonimmunosuppressed individual. Outcomes in transplantation for this indication have, therefore, been a major area of clinical interest in the field of liver transplantation. The factors underlying the rapid progression of HCV-related liver disease posttransplantation are complex and multifactorial. Nevertheless, recent data indicate a range of parameters assessable early posttransplantation that may be useful in the prediction of outcome of transplantation for this condition. This overview, therefore, concentrates on the early events occurring postliver transplantation in the HCV-infected patient, and the implications of these recent observations for the pathogenesis of the various forms of HCV-related allograft injury.