Table 2.
Immunotherapeutic trials for chronic hepatitis B virus infection in humans
| Immunotherapy | Results | Ref. |
| Peptide vaccination | ||
| A vaccine with HBc18-27 peptide comprised of a T-helper cell epitope and two palmitic acid residues | Low levels of CTL activity were induced but no significant changes in liver biochemistry or viral serology were observed | [52] |
| Protein vaccination | ||
| PreS2/S (GenHevac B) or S (Recombivax) | HBe/anti-HBe seroconversion in 13% and HBV DNA negativity in 16% of the treated patients | [53] |
| Intradermal HBsAg vaccine and laimvudine in combination with IL-2 | Induction of significant HBV DNA loss in the serum in two of five the treated patients | [54] |
| Oral administration of HBV envelope proteins (HBsAg + preS1 + preS2) | Induction of histological improvement in 30%, HBeAg negativity in 26.3% and HBsAg-specific T cell proliferation in 78% of the treated patients | [55] |
| IFN-α-2b monotherapy (9 mo) or IFN-α-2b plus pre-S2/S vaccine | Greater reduction in HBV DNA in patients with combination HBV therapy than those who received IFN-α-2b monotherapy | [56] |
| The combination with lamivudune and HBsAg vaccine in HBeAg+ cases | No improvement of HBe seroconversion rate in comparison with lamivudine therapy alone | [57] |
| Combination of lamivudine and HBsAg vaccine | Induction of sustained negativity of HBV DNA in 1/4 of patients | [58] |
| Combination of lamivudine and HBsAg vaccine | HBV DNA became undetectable in 64% of the patients, and was decreased in the remaining patients | [59] |
| DNA immunization | ||
| DNA vaccine encoding HBV envelope protein | Induction of an increase in HBV-specific IFN-γ-secreting T cells in nonresponders to conventional therapies, and HBV DNA levels were transiently decreased in 50% of vaccinated patients | [60] |
| DNA vaccine encoding PreS and S in patients with lamivudine breakthrough | Development of IFN-γ-producing T cells specific for preS or S antigen; Two of 10 patients showed seroconversion to anti-HBe | [61] |
| DC immunization | ||
| Peripheral blood-derived DCs, activated with GM-CSF and IL-4 pulsed with HBsAg | Both patients with normal and elevated ALT responded equally to DC vaccine and 53% of the patients showed induction of HBeAg negativity | [62] |
| Activated DCs from PBL with GM-CSF and IL-4, pulsed with two peptides, HBc18-27 and PreS2 44-53 | Undetectable HBV DNA was achieved in 46.3% and 3.1% of HBeAg- and HBeAg+ patients, respectively. ALT normalization was observed in 69% and 30.5% of HBeAg- and HBeAg+ patients, respectively | [63] |
| Cytokines | ||
| GM-CSF | Safe and tolerable up to 1.0 μg/kg body weight, and induced HBV DNA negativity in 4/8 patients | [64] |
| Combination therapy with GM-CSF and HBsAg vaccine in HBV carrier children | Significant reduction of serum HBV DNA | [65] |
| High dose of IL-12 (0.5 μg/kg) | HBV DNA clearance was observed in 25% of the patients | [66] |
| Combination of IL-12 and lamivudine | Stimulation of T cell response to HBV with IFN-γ production. However, IL-12 was unable to suppress re-elevation of HBV DNA after cessation of lamivudine | [67] |
| Combination of IL-12 and IL-18 | Stimulation of IFN-γ production by CD4+ T cells isolated from peripheral blood in response to HBcAg, and the effect was greater than those observed with either cytokine alone | [68] |
| α-galactosylceramide | Poorly tolerated and showed no clear suppressive effect on serum HBV DNA or ALT levels | [69] |
| Tα1 | ||
| Combination of Tα1 and IFN-α | No statistically significant differences as compared with IFN-α monotherapy with respect to HBeAg seroconversion, changes in histology, normalization of ALT or loss of HBV DNA | [70] |
| Tα1 alone | At 12 mo after cessation of therapy, 36.4% of patients treated with 1.6 mg of Tα1 achieved ALT normalization, 15% achieved HBV DNA clearance by transcription-mediated amplification, and 22.8% achieved clearance of HBeAg | [71] |
| Comparative effect of Tα1 and IFN-α | Tα1 treatment was more effective in achieving ALT normalization and HBV DNA negativity at the end of the follow-up period than IFN-α | [72] |
| Combination of Tα1 and lamivudine | No any additional antiviral effect compared with lamivudine monotherapy as determined by HBe seroconversion and the emergence of viral breakthrough | [73] |
| Combination therapy with lamivudine and Tα1 | Induction of significantly higher rates of ALT normalization, virological response, and HBeAg seroconversion than lamivudine monotherapy | [74] |
HBV: Hepatitis B virus; Tα1: Thymosin α1; IFN: Interferon; ALT: Alanine aminotransferase; HBeAg: Hepatitis B e antigen; GM-CSF: Granulocyte-macrophage colony-stimulating factor; IL: Interleukin; CTL: Cytotoxic T lymphocyte; DC: Dendritic cell; HBsAg: Hepatitis B surface antigen; HBcAg: Hepatitis B core antigen; PBL: Peripheral blood lymphocytes.