Vaccination for Hepatitis C Virus

Closing in on an Evasive Target

John Halliday; Paul Klenerman; Eleanor Barnes

Expert Rev Vaccines. 2011;10(5):659-672.

Abstract and Introduction

Abstract

Hepatitis C virus (HCV) infects more than 170 million people globally and is a leading cause of liver cirrhosis, transplantation and hepatocellular carcinoma. Current gold-standard therapy often fails, has significant side effects in many cases and is expensive. No vaccine is currently available. The fact that a significant proportion of infected people spontaneously control HCV infection in the setting of an appropriate immune response suggests that a vaccine for HCV is a realistic goal. A comparative analysis of infected people with distinct clinical outcomes has enabled the characterization of many important innate and adaptive immune processes associated with viral control. It is clear that a successful HCV vaccine will need to exploit and enhance these natural immune defense mechanisms. New HCV vaccine approaches, including peptide, recombinant protein, DNA and vector-based vaccines, have recently reached Phase I/II human clinical trials. Some of these technologies have generated robust antiviral immunity in healthy volunteers and infected patients. The challenge now is to move forward into larger at-risk or infected populations to truly test efficacy.

Introduction

Hepatitis C virus (HCV) infects more than 170 million people globally with another 3 million people newly infected each year.^[1,2] Following acute infection, 20% of people eradicate the virus over weeks or months and are often asymptomatic. The remaining 80% of people will develop chronic disease, of whom approximately 20% will eventually develop liver cirrhosis and 1–5% will develop liver cancer.^[3–5] HCV infection is now the leading cause for liver transplantation in the Western world. Disease prevalence varies by region, with the highest rates in parts of Asia and Africa where up to 20% of the population are infected.^[6] The current treatment for HCV is pegylated interferon and ribavirin. This is expensive, prolonged, has an extensive side-effect profile and frequently fails. Clearly then, there is a real need for both a prophylactic vaccine that will prevent or attenuate primary infection, and also a therapeutic HCV vaccine that will increase cure rates of infected patients, and substantial progress has been made in this endeavor in recent years.

This article will first detail our current understanding of HCV infection, pathogenesis and treatment, and highlight the significant degree of viral diversity that presents a real challenge to vaccine development. Next we will review host–viral immune interactions and the broader challenges to the successful development of a vaccine. Finally, we will examine vaccine approaches that have reached human clinical trials and present our vision of this rapidly moving field for the future.

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Cite this: Vaccination for Hepatitis C Virus - Medscape - May 01, 2011.

Table 1. Recombinant protein hepatitis C vaccine studies.
Structure (Investigator)	Phase (year)	Subjects	Outcome	Ref.
HCV E1 + alum adjuvant (Innogenetics/GenImmune)	I (2003)	20 healthy volunteers + 34 HCV-infected, treatment-naive patients	Well tolerated. No HCV viral load change. 50 out of 54 patient T-cell response. Humoral response correlated with improvement in ALT and liver histology	[77,78]
	II (2008)	122 HCV-infected patients randomized (3:1)	Well tolerated. Induced humoral and cellular immune responses. No change in histological progression of liver disease over 3 years	[79]
HCV E1/E2 glycoproteins/MF59C adjuvant (Novartis)	I (2010)	60 healthy volunteers	Well tolerated. Induced antibody and E1/E2-specific T-cell responses in all patients independent of vaccine dose	[76]
GI5005: recombinant yeast transfected with HCV NS3–core fusion protein (Globeimmune)	II (2009)	66 patients with chronic HCV-G1 (treatment-naive and nonresponders)	17% SVR with vaccine + standard care, compared with standard therapy response of 5% in prior nonresponders	[80]
HCV core protein/ISCOMATRIX® (CSL Ltd)	I/IIa (2009)	30 healthy volunteers	Well tolerated, mild local redness; all developed antibody response	[82]

Recombinant protein hepatitis C vaccine advantages: well tolerated with low toxicity; induces cross-neutralizing antibodies; proof-of-concept (HBV vaccine).
Disadvantages: generally only weak T-cell responses elicited.
ALT: Alanine transaminase; HCV: Hepatitis C virus; SVR: Sustained virological response.

Table 2. Peptide hepatitis C vaccine studies.
Structure (Investigator)	Phase (year)	Subjects	Outcome	Ref.
IC41: five peptides from core, NS3 and NS4 + poly-l-arginine adjuvant (Intercell AG)	II (2008)	60 chronic HLA A2 HCV-infected nonresponders	Well tolerated. 67% T-cell response. Transient serum HCV RNA decline (>1 log) in three patients	[84]
Peptide derived from core protein (C35–44) (Karume University)	I (2009)	26 patients with chronic HCV (23 nonresponders, three untreated)	Well tolerated. 15 out of 25 responded, two out of 25 had a 1 log decline in HCV RNA	[90]
Personalized peptide approach CD8+ A24 peptides + Freund's adjuvant (Karume University)	I (2007)	12 chronic HCV-1b-infected nonresponders	Well tolerated. Majority developed peptide-specific T-cell responses. Five patients reduced ALT and three patients had a HCV RNA decline	[91]
Autologous dendritic cell delivered HLA A2 epitopes (Burnet Institute + others)	I (2010)	Six chronic HCV-infected nonresponders	Well tolerated. Transient T-cell responses	[92]
NS3/Virosome (Pevion Biotech)	N/A	30 healthy volunteers	Results pending

Peptide hepatitis C vaccine advantages: well tolerated with low toxicity; induces both cellular and humoral responses.
Disadvantages: limited immunogenicity (few epitopes only); need to tailor to patient HLA type; concern regarding appropriate peptide choice (e.g., induce Tregs rather than CD8⁺ cells).
ALT: Alanine transaminase; HCV: Hepatitis C virus; N/A: Not available.

Table 3. DNA hepatitis C vaccine studies†.
Structure/vector (Investigator)	Phase (year)	Subjects	Outcome	Ref.
CICGB-230: plasmid core/E1/E2 + recombinant core protein (University of Montreal + others)	I (2009)	15 genotype-1- infected nonresponders	Well tolerated, no viral clearance, 11 out of 15 – weak specific T-cell responses (ELISpot and proliferation). Six out of 15 – weak humoral response	[106]
ChonVac-C: plasmid NS3/4a + electroporation (Tripep)	I/IIa (2009)	12 HCV-1-infected, treatment-naive patients	Well tolerated. A total of four out of six who received higher doses: viral load reduction >0.5 log with corresponding T-cell response in three patients	[105]

†Ideal genes should represent part of the genome with limited genetic variability and maximal immunogenicity.
DNA hepatitis C vaccine advantages: presents a broad range of epitopes.
Disadvantage: electroporation is painful.
ELISpot: Enzyme-linked immunosorbent spot; HCV: Hepatitis C virus.

Table 4. Viral-vectored hepatitis C vaccine studies.
Structure/vector (Investigator)	Phase (year)	Subjects	Outcome	Ref.
TG4040: MVA vector expressing NS3/4/5B proteins (Transgene)	I (2009)	15 chronically infected HCV patients	A total of six out of 15 declined HCV viral load (0.5– 1.4 log) associated with T-cell response (IFN-g ELISpot)	[107]
Adenovirus vector (Ad6 and AdCh3) expressing NS3–5B proteins (Okairos and Oxford University).	I (2009)	36 healthy volunteers	Highly immunogenic and well tolerated	[73]

Viral-vectored hepatitis C vaccine advantages: efficient induction of cellular immune responses; presentation of a broader range of viral epitopes.
Disadvantages: pre-existing immunity to viral vector (adenovirus; may be overcome by the use of rare serotypes); limited experience in humans.
Ad: Adenovirus; ELISpot: Enzyme-linked immunosorbent spot; HCV: Hepatitis C virus; MVA: Modified vaccinia Ankara.

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