Contribution of human leukocyte antigens to the antibody response to hepatitis B vaccination

Human Genetics and Responses to Influenza Vaccination

Influenza A and B viruses are negative-strand RNA viruses that cause regular outbreaks of respiratory disease and substantially impact on morbidity and mortality. Our primary defense against the influenza virus infection is provided by neutralizing antibodies that inhibit the function of the virus surface coat proteins hemagglutinin and neuraminidase. Production of these antibodies by B lymphocytes requires help from CD4+ T cells. The most commonly used vaccines against the influenza virus comprise purified preparations of hemagglutinin and neuraminidase, and are designed to induce a protective neutralizing antibody response. Because of regular antigenic change in these proteins (drift and shift mutation), the vaccines have to be administered on an annual basis. Current defense strategies center on prophylactic vaccination of those individuals who are considered to be most at risk from the serious complications of infection (principally individuals aged >65 years and those with chronic respiratory, cardiac, or metabolic disease). The clinical effectiveness of influenza virus vaccination is dependent on several vaccine-related factors, including the quantity of hemagglutinin within the vaccine, the number of doses administered, and the route of immunization. In addition, the immunocompetence of the recipient, their previous exposure to influenza virus and influenza virus vaccines, and the closeness of the match between the vaccine and circulating influenza virus strains, all influence the serologic response to vaccination.However, even when these vaccines are administered to young fit adults a proportion of individuals do not mount a significant serologic response to the vaccine. It is not clear whether these nonresponding individuals are genetically pre-programmed to be nonresponders or whether failure to respond to the vaccine is a random event. There is good evidence that nonresponsiveness to hepatitis B vaccine, another purified protein vaccine, is at least partially modulated by an individual's human leucocyte antigen (HLA) alleles. Because CD4+ T cells, which control the neutralizing antibody response to influenza virus, recognize antigens in association with HLA class II molecules, we recently conducted a small study to investigate whether there was any association between HLA class II molecules and nonresponsiveness to influenza virus vaccination. This work revealed that the HLA-DRB1*0701 allele was over represented among persons who fail to mount a neutralizing antibody response. This preliminary finding is important because it potentially identifies a group who may not be protected by current vaccination strategies. Further investigation into the role of HLA polymorphisms and nonresponse to influenza virus vaccination, and vaccination against viruses in general, is clearly required.

Comprehensive analysis of class I and class II HLA antigens and chronic hepatitis B virus infection

Following an acute hepatitis B virus (HBV) infection, clearance or persistence is determined in part by the vigor and breadth of the host immune response. Since the human leukocyte antigen system (HLA) is an integral component of the immune response, we hypothesized that the highly polymorphic HLA genes are key determinants of viral clearance. HLA class I and II genes were molecularly typed in 194 Caucasian individuals with viral persistence and 342 matched controls who had cleared the virus. A single class I allele, A*0301 (odds ratio [OR], 0.47; 95% confidence interval [CI], 0.30 to 0.72; P = 0.0005) was associated with viral clearance. The class II allele DRB1*1302 was also associated with clearance (OR, 0.42; 95% CI, 0.19 to 0.93; P = 0.03), but its significance decreased in a multivariate model that included other alleles associated with disease outcome as covariates. B*08 was associated with viral persistence both independently (OR, 1.59; 95% CI, 1.04 to 2.43; P = 0.03) and as part of the conserved Caucasian haplotype A*01-B*08-DRB1*03. The B*44-Cw*1601 (OR, 2.23; 95% CI, 1.13 to 4.42; P = 0.02) and B*44-Cw*0501 (OR, 1.99; 95% CI, 1.22 to 3.24; P = 0.006) haplotypes were also associated with viral persistence. Interestingly, both the B*08 haplotype and DR7, which forms a haplotype with B*44-Cw*1601, have been associated with nonresponse to the HBV vaccine. The associations with class I alleles are consistent with a previously implicated role for CD8-mediated cytolytic-T-cell response in determining the outcome of an acute HBV infection.

Comprehensive analysis of class I and class II HLA antigens and chronic hepatitis B virus infection

Following an acute hepatitis B virus (HBV) infection, clearance or persistence is determined in part by the vigor and breadth of the host immune response. Since the human leukocyte antigen system (HLA) is an integral component of the immune response, we hypothesized that the highly polymorphic HLA genes are key determinants of viral clearance. HLA class I and II genes were molecularly typed in 194 Caucasian individuals with viral persistence and 342 matched controls who had cleared the virus. A single class I allele, A*0301 (odds ratio [OR], 0.47; 95% confidence interval [CI], 0.30 to 0.72; P = 0.0005) was associated with viral clearance. The class II allele DRB1*1302 was also associated with clearance (OR, 0.42; 95% CI, 0.19 to 0.93; P = 0.03), but its significance decreased in a multivariate model that included other alleles associated with disease outcome as covariates. B*08 was associated with viral persistence both independently (OR, 1.59; 95% CI, 1.04 to 2.43; P = 0.03) and as part of the conserved Caucasian haplotype A*01-B*08-DRB1*03. The B*44-Cw*1601 (OR, 2.23; 95% CI, 1.13 to 4.42; P = 0.02) and B*44-Cw*0501 (OR, 1.99; 95% CI, 1.22 to 3.24; P = 0.006) haplotypes were also associated with viral persistence. Interestingly, both the B*08 haplotype and DR7, which forms a haplotype with B*44-Cw*1601, have been associated with nonresponse to the HBV vaccine. The associations with class I alleles are consistent with a previously implicated role for CD8-mediated cytolytic-T-cell response in determining the outcome of an acute HBV infection.

Immunogenetics of the response to HBsAg vaccination

The major envelope protein of the hepatitis B virus (HBV), the HBsAg, constitutes the current preventative vaccine, which represents the first subunit viral vaccine developed. The genetics of the immune response to HBsAg has been extensively studied both in humans and mice. Murine studies begun over 20 years ago indicated that at least two MHC class II and one MHC class III genes regulate anti-HBs immune responses. Additional MHC-linked genes influence the immune responses to the higher molecular weight (pre-S) components of the HBV envelope. The murine studies predicted even more complex MHC gene regulation of human immune responses to the HBsAg and that complexity certainly has been demonstrated during the ensuing years. This brief review is an attempt to summarize our current understanding of the MHC genes that influence the immune response to the HBsAg and possible mechanisms of action.

HLA class II and TNF genes in African Americans from the Southeastern United States: regional differences in allele frequencies

Knowledge of population major histocompatibility complex gene frequencies is important for construction of organ donor pools and for studies of disease association. Human leukocyte antigen DRB1 (HLA-DRB1), HLA-DQB1, and TNFalpha -308 (G-A) promoter genetic typing was performed in 112 healthy, unrelated African Americans (AAs) from the southeastern United States. Allele frequencies were compared with published frequency data from other AA populations. Our AA population had the highest frequency of HLA- DRB1*09 (6.7%) reported in any AA population. The frequency of the TNF alpha -308A polymorphism was also high (14.4%), when compared with published frequencies in AAs. Significant regional differences in the distribution of most HLA-DRB1 and HLA-DQB1 alleles were observed in all AA populations examined. The AA HLA-DRB1 and -DQB1 frequencies also differed from published Caucasian frequencies. This is the first report describing the distribution of TNF alpha promoter alleles in the Southeastern United States. The high DRB1*09 and TNF alpha -308A allele frequencies of our population most resemble the frequencies of these alleles in certain West African populations. These varying major histocompatibility complex gene frequencies may reflect different regional population structures among AAs in the United States, which may be due to differences in ancestral origins, migration, and racial admixture.

High-dose hepatitis B vaccine in patients waiting for lung transplantation

STUDY OBJECTIVE

To increase the response rate to hepatitis B vaccine in patients awaiting lung transplantation.

DESIGN

Historically controlled, open-label study.

SETTING

Lung transplant clinic at a university hospital.

SUBJECTS

Twenty-seven consecutive individuals with end-stage pulmonary disease who were enrolled to accrue 15 subjects who would complete the vaccine series before transplantation; and 27 lung transplant recipients who were immunized with the conventional dose before the study and served as historical controls.

INTERVENTION

Intramuscular injection of high-dose hepatitis B vaccine 40 microgram at 0, 1, and 6 months.

MEASUREMENTS AND MAIN RESULTS

Hepatitis B surface antibody (anti-HBs) concentrations were measured 1-2 months after completing the high-dose series. Individuals with undetectable anti-HBs received additional vaccine to a maximum of six doses. The response rate to the series was compared with that in the control group. Seventeen individuals in the high-dose group and 14 controls met the study criterion of complete vaccine series before transplantation. The former had a much higher response rate than the latter (9 [53%] vs 1 [7%], p<0.01). Four of six patients who received additional doses of vaccine seroconverted. Two of them underwent transplantation shortly after completing the three-dose series.

CONCLUSION

The high-dose hepatitis B vaccine series produced a protective immune response in lung transplant recipients; however, the response was suboptimal, and alternative immunization strategies should be studied.

Antigen-specific T cell response in infants after recombinant hepatitis B virus vaccination at birth: evaluation of T helper lymphocyte diversity

Recombinant hepatitis B virus antigen (rHBsAg)-specific CD4+ T cell clones (TCC) were isolated and expanded from the peripheral blood of nine children vaccinated at birth against the hepatitis B (HB) virus. Four of them responded with protective antibody production (responders), three subjects were unable to produce detectable antibody levels even after revaccination (nonresponders), and two infants produced antibodies only after revaccination (slow responders). TCC were then characterized for their ability to produce cytokines known to be important for T cell expansion (interleukin-2, IL-2) and/or effector functions (IL-4, IFN-gamma, IL-10). Results demonstrated that the frequency of rHBsAg-specific TCC in the samples of nonresponders was comparable to or higher than that in the samples of responders. Nevertheless, the majority of TCC obtained from responders or from slow responders before revaccination displayed the T helper 1 (T(H1))-dominant phenotype, while the majority of TCC obtained from nonresponders were nonpolarized T lymphocytes. After revaccination, the distribution of the different T(H) subsets in slow responders was heterogeneous. Overall, our present data suggest that an absence or delay in developing an rHBsAg-specific antibody response to vaccination is not associated with the capacity to generate an Ag-specific T cell response. However, compared to responders, nonresponding infants react to the rHBsAg vaccination with a reduced capacity to expand and differentiate toward polarized T(H) cells.

Transfer of humoral and cellular hepatitis B immunity by allogeneic hematopoietic cell transplantation

BACKGROUND

Previous data indicate that a transfer of specific humoral and cellular immunity by way of allogeneic hematopoietic cell transplantation (HCT) should, in principle, be possible.

METHODS

In the HCT setting with a follow-up of up to 55 months, we studied the transfer of hepatitis B virus (HBV) specific immunity from electively immunized donors into HLA compatible recipients suffering from chronic myeloid leukemia (CML). After excluding preexisting HBV specific immunity in donor-recipient pairs, 27 prospective donors were vaccinated against HBV. In addition, on an average of 22 months postHCT, 8 of the 19 recipients were immunized once for HBV.

RESULTS

Donor vaccination resulted in detectable hepatitis B surface (HBs) antibodies in 85% of donors and specific cellular in vitro responses in 77%. Two weeks postHCT, 86 and 67% of the recipients displayed positive humoral and cellular HBV reactions, respectively, which then decreased. Afterwards, HBV immunity reappeared in 83% of the recipients without revaccination. Following a single vaccination in recipients, seven of eight displayed a typical memory response. An HBV specific response was already detectable 1 week after vaccination, approximately 1,300-fold (humoral) and 60-fold (cellular) higher than observed in the corresponding donors after a single immunization.

CONCLUSIONS

The "spontaneous" recurrence of HBV immunity and the memory response in recipients give evidence for an elective immune transfer (e.g., for viral antigens) by way of allogeneic HCT.

MHC typing in variant Creutzfeldt-Jakob disease

Identification of factors that cause susceptibility to, and clinical expression of, variant Creutzfeldt-Jakob disease (vCJD) is essential for future management of the disease. We established MHC genotypes of 76 individuals with vCJD and 131 controls, and analysed MHC phenotypes in relation to age of onset of vCJD and its duration from presentation to death. There were no significant differences between vCJD and control populations in frequencies of any MHC types, nor were there associations between MHC type and age of onset or duration of vCJD disease. Our results do not support the idea of an association between MHC types and either susceptibility to, or expression of, vCJD.

The immunogenicity and reactogenicity profile of a candidate hepatitis B vaccine in an adult vaccine non-responder population

Approximately 5% of vaccinees display an inadequate response after the administration of the standard three dose hepatitis B vaccine. A new hepatitis B vaccine (HBsAg/AS04) formulated with the adjuvant AS04 which contains 3'-deacylated monophosphoryl lipid A (3D-MPL) and alum has been developed. AS04 enhances the immune response which may be beneficial to non-responders. In a single-blind, randomised study, we tested the immunogenicity and reactogenicity of the new vaccine with that of commercially established hepatitis B vaccine, both on a 0, 1, 6 months schedule in 20-60 years old non-responders (titre <10 m IU/ml after four doses of hepatitis B vaccine). One month after the first dose the seroprotection rate was 44% for group 1 (58 subjects) receiving the established vaccine versus 66% for group 2 receiving HBsAg/AS04 (57 subjects) (P=0.03). One month after the second dose this was 58 and 81%, respectively (P<0.005) and 1 month after the third dose this was 68 and 98%, respectively (P<0.001). One month after each dose, GMTs were 34, 56 and 111 mIU/ml for group 1 versus 123222 and 1937 mIU/ml for the HBsAg/AS04 group (P<0.05, <0.01 and 0.0001, respectively). Pain at the injection site was the most commonly reported local symptom and very few symptoms were scored as severe. In this group of adult non-responders to previous hepatitis vaccination, the HBsAg/AS04 vaccine was well tolerated and induced, at all time-points, a superior immune response compared to the licensed hepatitis B vaccine.

Recombinant hepatitis B triple antigen vaccine: Hepacare

Infection with hepatitis B virus is a public health problem throughout the world. Hepatitis B vaccines are now included in national immunization programmes of infants and/or adolescents in 129 countries. Current single antigen vaccines, that are plasma-derived or produced by recombinant DNA technology are highly effective, but between 5-10% or more of healthy immunocompetent subjects do not mount an antihepatitis B surface antibody protective response and others respond poorly (hyporesponders). The inclusion of pre-S1 and -S2 components of hepatitis B surface antigen in addition to the single antigen (triple antigen) in a novel vaccine, Hepacare, Medeva Pharma Plc, Speke, UK, overcomes nonresponsiveness and hyporesponsiveness in a significant number of individuals. The triple antigen is indicated for vaccination of nonresponders (and hyporesponders) to the current single antigen vaccines and for persons who require rapid protection against hepatitis B infection.

Immune response of HLA DQ2 positive subjects, vaccinated with HBsAg/AS04, a hepatitis B vaccine with a novel adjuvant

About 5-10% of the general adult population respond inadequately to hepatitis B vaccination. The histocompatibility leucocyte antigen (HLA) DQ2, DR3 and DR7 phenotypes have been linked with non-responsiveness to hepatitis B vaccination. A first part of our study determined the prevalence of the HLA DQ2 allele in a healthy population, aged 15-50 years. We found 35% of our study population (n=1008) positive for the HLA DQ2 allele. Positive subjects for HLA DQ2 were subsequently invited to participate in a trial and were to be given either the HBsAg/AS04 hepatitis B vaccine or a licensed hepatitis B vaccine (Engerix-B).(1) Both contained 20 microg of recombinant HBsAg. The HBsAg/AS04 vaccine was administered on a 0 and 6 months schedule whilst the comparator vaccine was given according to the standard 0, 1 and 6 months schedule. The experimental vaccine was formulated on a novel adjuvant containing 3' deacylated monophosphoryl lipid A (3D-MPL) and alum. A total of 230 subjects were enrolled into the vaccination study. At month 7, 99% of the subjects had a protective titre (>or=10mIU/ml) with a geometric mean titre (GMT) of 6613mIU/ml in the group receiving HBsAg/AS04 versus 97% seroprotected with a GMT of 2315mIU/ml in the other group. Both vaccines, with their respective schedule, give very high seroprotection rates (>96%). Our data suggest that HLA DQ2 positivity is not a good marker for non- or poor-responsiveness. The HBsAg/AS04 vaccine was more reactogenic mainly because of an increased local reactogenicity. Both vaccines, especially HBsAg/AS04, are highly immunogenic and well tolerated by the study subjects.

Role of G protein beta3 subunit C825T and HLA class II polymorphisms in the immune response after HBV vaccination

The G protein beta3 (GNB3) subunit and HLA are candidate genes predictive of immune response capacity. We therefore studied the influence of both gene systems on cellular and humoral immunity against hepatitis B virus (HBV) in 79 HBV booster-vaccinated healthy volunteers and an independent group of 77 probands after HBV basic immunization. Following booster vaccination, lymphocyte in vitro proliferation after stimulation with HBV surface antigen was 2.5-fold increased in GNB3 825T (TC + TT) vs CC allele carriers (P = 0.01) and was not influenced by HLA-DRB1 or DQB1 alleles. In addition, anti-HBs antibody titers in both groups were 2-fold increased in TC vs CC and decreased in TT vs CC allele carriers. However, antibody titers after HBV booster immunization were elevated in HLA-DQB1*0301 carriers (P corrected = 0.027). In summary, the GNB3 825T allele appears as a marker particularly predictive of cellular and HLA-DQB1*0301 of humoral immune responses following HBV vaccination.

HLA class I and II in black children with hepatitis B virus-associated membranous nephropathy

BACKGROUND

The pathogenetic mechanisms by which individuals with chronic hepatitis B virus (HBV) infection develop membranous nephropathy (MN) are probably dependent on interactions between viral, host and environmental factors; some evidence suggests a genetic predisposition. HBVMN constitutes a major etiological group in black children with nephrotic syndrome. We therefore explored the HLA associations in black children with HBVMN.

METHOD

Thirty black children, age range 2 to 16 years, with biopsy-proven HBVMN, were the subjects of the study. HBV status was determined using third generation ELISA. HLA A, B and C antigens were determined using a two-stage lymphocytotoxic test. HLA DRB1* and DQB1* typing was done using sequence-specific primers. HLA class 1 and II antigen frequencies of the study subjects were compared to controls that were randomly chosen healthy blood donors from the same population.

RESULTS

HLA DQB1*0603 was increased in patients with HBVMN compared to controls (chi2 = 13.65, RR = 4.3). DRB1*07 and DQB1*02 were increased in frequency in the study subjects but failed to reach statistical significance. There was no significant difference in the frequencies of class 1 antigens in the study group compared to controls.

CONCLUSION

To our knowledge, this is the first report of HLA associations in black patients with HBVMN in whom Class 1 and 11 antigens were determined using molecular methodology. There was a high frequency of DQB1*0603 in subjects compared to controls, suggesting a possible genetic predisposition to the development of HBVMN.

Delayed-type hypersensitivity in volunteers immunized with a synthetic multi-antigen peptide vaccine (PfCS-MAP1NYU) against Plasmodium falciparum sporozoites

During the testing of the safety and immunogenicity of an adjuvanted, synthetic Plasmodium falciparum CS multiple antigen peptide (MAP) vaccine, we investigated the potential for using cutaneous delayed-type hypersensitivity (DTH) reactions as a correlate of immune response. We evaluated 27 of our volunteers for DTH reactions to intradermal inoculation (0.02 ml) of several concentrations of the MAP vaccine and adjuvant control solutions. Induration was measured 2 days after skin tests were applied. Nine of 14 vaccinees (64%) with serum, high-titered anti-MAP antibody developed positive DTH (>or=5mm induration), that first appeared by 29 days after immunization and persisted for at least 3-6 months after 1-2 more immunizations. In contrast, DTH responses were negative in eight of eight vaccinees with no or low antibody titers, and in five of five non-immunized volunteers. Biopsies of positive DTH skin test sites were histologically compatible with a DTH reaction. We conclude that the presence of T cell functional activity reflected by a positive DTH skin test response to the MAP antigen serves as another marker for vaccine immunogenicity.

Family study of non-responsiveness to hepatitis B vaccine confirms the importance of HLA class III C4A locus

Non-responsiveness to hepatitis B virus (HBV) vaccine in adults is strongly associated with HLA-C4AQ0,DRB1*0301,DQB1*02 haplotype. This association was also demonstrated in neonates who failed to mount a humoral response to challenge with HBV vaccine. About 4% of vaccinated newborns do not reach a protective antibody level (> or =10 mIU/ml) at seroconversion and 0.4% is a non-responder even after receiving a fourth dose of vaccine (true non-responders (TNR)); while 3.6% achieved an antibody level > or =10 mIU/ml (slow responders (SR)) only when reboostered with the fourth dose. In the present study we extend the vaccination and HLA typing to 91 family members of probands to understand better the possible parent-to-child transmission of this trait. A transmission disequilibrium test (TDT), performed in 27 families, showed that the C4AQ0 allele was almost always transmitted to probands, both TNRs and SRs. Although not statistically significant, the highest LOD score was obtained with C4A locus: 1.58. These results suggest the presence of a region regulating immune response against HBV vaccination near to or coincident with the C4A locus.

Antibody responses to preS components after immunization of children with low doses of BioHepB

BioHepB is a recombinant, hepatitis B vaccine derived from a mammalian cell line and containing HBs as well as preS1 and preS2 antigens, in their glycosylated and non-glycosylated forms. The vaccine was administered intramuscularly to 18 children aged 5 months to 11 years at 0, 1 and 6 months. One hundred percent seroconversion and seroprotection rates were achieved after primary and secondary immunization with the 2.5 microg doses of BioHepB. Ten out of the 18 children (56%) responded with the appearance of anti-preS1 and/or anti-preS2 antibodies in circulation, when analyzed 1, 2, 6, 7 and 12 months after the initiation of vaccination. In comparison with the emergence of the anti-HBs response, early (month 2, after two injections) or late (month 7, after three injections) peak responses were noted for the kinetics of anti-preS1 and anti-preS2 production during the course of immunization, demonstrating that the anti-preS1 and anti-preS2 responses are differently regulated, compared with the anti-HBs response. At month 6, just prior to the final injection, BioHepB caused significantly higher anti-HBs responses (GMT) in preS1-reactive children than in children without preS1 antibodies (P<0.005). Moreover, a significantly higher, anti-HBs response in GMT was also noted for anti-preS2-reactive children compared with anti-preS2-negative children (P<0.05). These findings demonstrated that recognition of the preS epitopes contained in the experimental preS1/preS2/S vaccine is accompanied by a more rapid onset and pronounced antibody response to the S-gene-derived protein in healthy children.

Increment of recombinant hepatitis B surface antigen-specific T-cell precursors after revaccination of slow responder children

The aim of the study was to investigate the in vitro T-cell response to recombinant hepatitis B (rHBsAg) in a group of children (defined as "slow responders") vaccinated at birth, presenting antibody levels < 10 mIU/ml after the vaccination schedule, and developing anti-rHBs antibodies after revaccination. T-cell mediated immune response towards rHBsAg was evaluated in 35 healthy children in "bulk" culture experiments (19 responders and 16 slow responders) and by limiting dilution analysis (nine responders and five slow responders) to quantify the frequency of proliferating T lymphocyte-precursors (PTL-p). Before the booster dose, lymphocytes from slow responder children failed to proliferate to rHBsAg, while a normal proliferation was observed in all responders. A statistically significant difference in rHBsAg-specific PTLp frequencies was observed between the two groups. Among the slow responder group, a significant increase of PTLp was observed after the supplementary vaccine dose.Nevertheless, PTLp frequencies remained significantly lower than those measured in responders. These results suggest a role for follow-up of slow responder children over time, in order to perform booster vaccination when inadequate anti-HBs titre is present.

Double-dose accelerated hepatitis B vaccine in patients with end-stage liver disease

The aims of this study are to assess the efficacy of hepatitis B virus (HBV) vaccination using an accelerated schedule and double dose of recombinant vaccine in liver transplant recipients and identify factors associated with seroconversion and persistence of antibody to hepatitis B surface antigen (anti-HBs). Three hundred fifty-six patients were enrolled. Exclusion criteria were previous HBV infection, fulminant liver failure, or less than 2 years of follow-up after orthotopic liver transplantation (OLT). The vaccination schedule was 0, 2 weeks, 4 weeks, and 6 months using double-dose recombinant vaccine. Seroconversion was evaluated prospectively by measuring anti-HBs on the day of OLT and 1 and 2 years after OLT. Quantitative analyses of anti-HBs were performed retrospectively on stored sera. Geometric mean concentrations (GMCs) were calculated using a standard formula. All patients completed the full vaccination schedule, and 129 patients (36%) completed the schedule before OLT. The overall prevalence of anti-HBs was 128 of 356 pre-OLT samples (36%) compared with 41 of 353 (11.6%) and 26 of 325 post-OLT samples (8%) 1 and 2 years after OLT, respectively (both P =.001). The pre-OLT GMC was 86.7 compared with 0.32 and 0.33 at 1 and 2 years after OLT, respectively (P =.001). Patients with high titers of anti-HBs before OLT were more likely to have persistence of antibodies 1 or 2 years after OLT. Younger age (P =.02), low Child-Pugh score (P =.02), underlying chronic hepatitis C (P=.03), and specific host HLA subtypes were most strongly associated with seroconversion and/or persistence of anti-HBs. Thus, (1) seroconversion before or after OLT using double-dose accelerated-schedule vaccination against HBV is low, (2) there is a rapid, significant decrease in antibody titer after OLT, (3) pre-OLT anti-HBs titer potentially may be useful in predicting persistence of protective antibodies after OLT, and (4) several factors (age, genetic predisposition, severity of liver disease, and underlying liver disease) may have a role in poor vaccine responsiveness.

HLA class II alleles in Chinese patients with hepatocellular carcinoma

BACKGROUND/AIMS

Recent reports of an association between human leucocyte antigens (HLA) and persistence of hepatitis B virus infection, and the familial clustering of hepatocellular carcinoma raise the question of genetic susceptibility. Previous studies have been limited to serological phenotyping of HLA B and DR antigens. The aim of this study was to use molecular genotyping to investigate HLA class II as a risk factor for the development of hepatocellular carcinoma in Hong Kong Chinese.

METHODS

We determined HLA DRB1, DQA1, DQB1 and DPB1 alleles in 123 hepatitis B surface antigen positive patients (84 with hepatocellular carcinoma and 39 without) and 124 matched controls.

RESULTS

The alleles DRB1*1501 (36% of HCC patients versus 19% of controls, odds ratio=2.44), DQA1*0102 (42% versus 26%, odds ratio=2.07), and DPB1*0501 (80% versus 63%, odds ratio=2.35) were significantly more common in patients with hepatocellular carcinoma, and DQA1*03 (36% versus 56%, odds ratio=0.53), DQB1*0302 (4.% versus 13%, odds ratio=0.25) and DPB1*0201 (14% versus 29%, odds ratio=0.4) were found at significantly lower frequencies.

CONCLUSIONS

Although none of these associations was significant after correction for multiple testing, this report suggests that further investigations are warranted.

A prophylactic hepatitis B vaccine with a novel adjuvant system

Studies with recombinant hepatitis B vaccines show seroprotection rates varying between 91 and 100%. Thus, a limited risk may remain for non-responding populations (e.g. non-responders, haemodialysis patients, elderly) who could benefit from a more immunogenic hepatitis B vaccine. One strategy to enhance the immune response is the use of novel adjuvants. SmithKline Beecham has developed a new adjuvant system containing alum and 3-deacylated monophosphoryl lipid A: SBAS4 (SmithKline Beecham Adjuvant System 4). Pilot studies showed that SBAS4 improved in vivo humoral and in vitro cellular immune responses compared to the response to classical recombinant hepatitis B vaccines and was safe and well-tolerated. Several studies assessed the profile of the HBsAg/SBAS4 vaccine in a healthy population, non-responders or elderly. In general the HBsAg/SBAS4 vaccine was well tolerated. Compared to an established recombinant hepatitis B vaccine, we observed an increased local reactogenicity but few symptoms were reported as severe. The HBsAg/SBAS4 vaccine elicits a strong immune response: subjects are protected faster and the GMTs are usually much higher. HBsAg/SBAS4 thus has the potential to protect those subjects who fail to be protected by well established hepatitis B vaccines.

Characterization of the T cell recognition of hepatitis B surface antigen (HBsAg) by good and poor responders to hepatitis B vaccines

To study the regulation of the human cellular immune response to HBsAg we produced a series of HBsAg-specific T cell lines from good and poor responders to the hepatitis B vaccine. All T cell lines expressed CD4 on their membrane and could therefore be considered of the helper/inducer phenotype. The different HBsAg-specific T cell lines were restricted by HLA-DRB5*0101, DRB1*1201, -DRB1*0701, -DRB1*0301, -DPB1*0201, -DPB1*0402, and -DPB1*0901. In good responders to the hepatitis B vaccine different HLA molecules could act as restricting element. In poor responders the diversity of HLA class II restriction determinants was more limited. This leads us to conclude that the immune response to HBsAg is multispecific and polyclonal in good responders and paucispecific and oligoclonal in poor responders to the hepatitis B vaccine. By using a panel of synthetic peptides representing selected sequences of the HBsAg, the fine specificities of each of these T cell lines could be determined. Strikingly, the majority of the identified T cell epitopes was located in and around the first hydrophobic transmembranous region of the HBsAg. This was observed in T cell lines from good and poor vaccine responders, without distinction. The remarkable T cell immunogenicity of this region may reside in its richness in binding motifs for a variety of HLA class II determinants.

Humoral response to recombinant hepatitis B virus vaccine at birth: role of HLA and beyond

From 1991 to 1998 we vaccinated 4835 neonates against hepatitis B virus (HBV) and monitored their humoral response to the recombinant vaccine. In a sample of 184 of these babies we studied the association between HLA class I and II genomic polymorphisms and humoral response to the vaccine and the association between the response and immune-mediated diseases. A subgroup of 96 babies also underwent HLA class III (C4A and C4B) typing. Four levels of humoral response were identified, each with a peculiar MHC restriction. Different HLA products seem to act as agonists (C4AQ0 and HLA-DQB1(*)02) or antagonists (C4AQ0, HLA-DQB1(*)02, and HLA-DRB1(*)11, DQB1(*)0301) in lowering humoral response to HBV vaccine. The group of responders was characterized more for lacking "nonresponder" alleles than for having specific "responder" ones. Tolerance to HBV peptides may have clinical implications, possibly being a marker for babies with a genetic risk of immunopathologies. In fact, many of the poor responders carried from two to four HLA-DQ alpha beta heterodimers predisposing to insulin-dependent diabetes mellitus and celiac disease. Two true nonresponders suffered from allergies and two slow responders had transient episodes of hyperglycemia.

Decreased immunogenicity of recombinant hepatitis B vaccine in chronic hepatitis C

The immunogenicity of hepatitis B vaccine is unknown for patients with chronic hepatitis C, although hepatitis B vaccination is highly recommended in these patients. We therefore studied in a prospective open trial of 59 patients with chronic hepatitis C (mean age 42 years, hepatitis C for >10 years, Child-Pugh score < or = 5) and 58 healthy hospital staff persons the rate of nonresponse (anti-HBs <10 mIU/mL at 9 months) to recombinant hepatitis B vaccine (Gen H-B-Vax(R),10 microg intradeltoidal at month 0, 1, and 6). Nonresponse was observed in 18/59 (31%) patients with chronic hepatitis C and 5/58 (9%) healthy staff persons (P <.005) (vs. 7% in historical controls; P <.005), low response (anti-HBs 10-99 mIU/mL) in 19% of patients with chronic hepatitis C and 17% of staff persons. High-dose booster vaccination led to seroconversion in 12/15 (80%) of primary nonresponders. Primary nonresponse to HB vaccine was related neither to presence of early-stage liver cirrhosis nor magnitude of serum hepatitis C virus (HCV) RNA concentration, nor explained by the presence of human leukocyte antigen (HLA) types (B8 DR3, B44, DR7, DQ2) predisposing to low antibody response to hepatitis B surface antigen. The rate of primary nonresponse to the standard regimen of recombinant hepatitis B vaccine is surprisingly high in patients with longstanding chronic hepatitis C. Therefore, the antibody to HBV surface antigen (anti-HBs) titer response should be determined in these patients. Depending on the response titer, higher booster doses may be required to achieve and maintain seroprotection in these patients.

Does HLA type predispose some individuals to cancer?

Polymorphic human major histocompatibility complex (MHC) genes are pivotal to the functioning immune system, and strong autoimmune disease associations with human leukocyte antigens (HLAs) have been established, although the precise mechanisms of these associations are not fully defined. There is now clear evidence of immunosurveillance in cancer, thus it seems reasonable to hypothesize that HLA types might predispose some individuals to particular malignancies. In addition, HLAs could influence the susceptibility or progression of a malignancy, and this might be most apparent in virally associated cancers. This article discusses the results and problems of searching for such HLAs and cancer associations. To date, it appears that no strong associations between HLAs and cancer risk exist.

Host genes and infectious diseases. HIV, other pathogens, and a public health perspective

INTRODUCTION

The global impact of infectious diseases is tremendous. In 1996, the 17 million deaths from infectious diseases accounted for one third of all deaths worldwide, while the acute and chronic morbidity from infectious diseases adds an additional great burden on global health. Multiple factors, host and nonhost, influence the susceptibility of individuals and populations to infectious diseases, as well as the severity of the illness once infected.

METHODS

We review the influence of host genes on the susceptibility to and severity of viral, bacterial, parasitic and fungal infectious diseases, on vaccine responsiveness and on treatments for infections. HIV/AIDS is discussed in detail because it is an example of an infectious disease influenced by multiple host genes and because of its impact. Although the HIV/AIDS pandemic dates only since the late 1970s, it has claimed the lives of 11 million people worldwide and, today, more than 30 million people are estimated to be HIV infected.

CONCLUSION

Our greater understanding of the genetic factors that influence morbidity and mortality of infectious disease leads to new avenues of prevention and treatment that can improve the health of individuals and populations.

Human leukocyte antigens influence the immune response to a pre-S/S hepatitis B vaccine

In this study we investigated the effects of a single pre-S/S (Hepagene) revaccination in a large population of multiple 'S' vaccinated anti-HBs antibody nonresponder individuals (< 3 IU/l). We investigate the influence of vaccine dose (5, 10, 20 and 40 micrograms/ml), number of previous 'S' containing vaccinations and the individuals HLA genotype on both B- and T-cell responses. We show that 76% of persistently nonresponder individuals produce anti-HBs antibody (> 3 IU/l) following a single revaccination with Hepagene. This anti-HBs antibody response was dose dependent. The group that received 5 micrograms/ml of Hepagene vaccine produced significantly less anti-HBs antibody than those receiving 10, 20 and 40 micrograms/ml doses (p < 0.05 in all cases). Individuals homozygous for HLA-DRB1*0701; DQB1*0202 failed to produce > 100 IU/l of anti-HBs antibody, whereas, heterozygous individuals required > 10 micrograms/ml Hepagene vaccine. The T-cell responses to Hepagene were exclusive of the dose and magnitude of anti-HBs antibody responses. There was a trend towards increased stimulation indices in those individuals who received repeated 'S' containing vaccines. We have clearly shown that the immune response to Hepagene is influenced by the HLA genotype of the individual. However, further investigation is required to determine the specific role of these molecules in hepatitis B vaccine nonresponse. Hepagene is a registered trademark of Hedeva Pharma Ltd.

Association of human leucocyte antigen phenotype with vaccine efficacy in patients receiving vaginal mucosal immunization for recurrent urinary tract infection

Immune responses to specific antigens can be influenced by an individual's genetic make-up. We examined whether the efficacy of a vaginal mucosal vaccine for urinary tract infections (UTI) was affected by a patient's human leucocyte antigen (HLA) phenotype. Urinary tract infection data and the HLA phenotypes of 47 women participating in a phase II clinical trial of immunization for recurrent UTI were statistically analysed for associations between HLA-A, -B, -DR, or -DQ phenotype and postimmunization infection course. Women who received the vaccine and had HLA-DR phenotypes other than DR2 had significantly delayed times to re-infection compared with women receiving placebo. Vaccine-treated patients with the HLA-DR2 phenotype had re-infection courses that were not different than women receiving placebo. These results indicate that the efficacy of a vaginal mucosal UTI vaccine may be influenced by an individual's HLA-DR phenotype.

Hepatitis B third-generation vaccines: improved response and conventional vaccine non-response--evidence for genetic basis in humans

The lack of response to hepatitis B vaccination remains a problem for those individuals directly at risk of hepatitis B infection, particularly those who work in the health care industry. The factors associated with non-response to hepatitis B vaccination have been investigated in 86 non-responder health care workers who had received multiple 'S' vaccinations without sustained production of anti-HBs. This group received a recently developed hepatitis B vaccine, Hepagene, which included proteins derived from the envelope region of HBV, not present in currently licensed vaccines. The pre-S1 and pre-S2 proteins were included in Hepagene in order to circumvent anti-HBs non-responsiveness which had previously been demonstrated in the inbred mouse model. The inclusion of these additional proteins in Hepagene enabled some seroconverion, from non-responder to responder; however, a proportion of the vaccinees remained non-responders and the reasons for this have been investigated here, with reference to HLA alleles and the demographic predisposition. Here the mechanisms that underlie hepatitis B vaccine non-response have considered the distribution of HLA alleles, age, sex, height and weight in addition to the T-cell responses to Hepagene derived antigens.

Hepatitis B third-generation vaccines: improved response and conventional vaccine non-response--third generation pre-S/S vaccines overcome non-response

A new triple-S containing recombinant hepatitis B vaccine was evaluated in terms of immunogenicity and reactogenicity in a cohort of healthy healthcare professionals who were persistent non-responders to the currently licensed hepatitis B vaccines. One hundred subjects were allocated randomly to receive two doses of 5, 10, 20 or 40 micrograms of a new hepatitis B vaccine 2 months apart. The overall seroconversion rate was 70% with a single dose of 20 micrograms of the vaccine being as effective as two doses of either 20 micrograms or 40 micrograms of the vaccine formulation in terms of seroconversion, seroprotection and geometric mean titres.

Haplotypes comprising subtypes of the DQB1*06 allele direct the antibody response after immunisation with hepatitis B surface antigen

Two HLA class II haplotypes, HLA-[DQB1*0602; DQA1*0102; DR15] and HLA-[DQB1*0603; DQA1*0103; DRB1*1301] were found to be less common in 52 nonresponders compared with 68 responders, P<0.025 and P<0.05 respectively, after vaccination with hepatitis B surface antigen (HBsAg). Another haplotype, HLA-[DQB1*0604; DQA1*0102; DRB1*1302], had a significantly higher frequency in the nonresponders (P<0.005). The nonresponders and responders were nonsmoking, healthy individuals with an antibody concentration of <10 IU/l and >100 IU/l respectively. The three haplotypes comprise either of three different DQB1*06 subtypes. Two of the seven amino acids that differ between the two responder alleles DQB1*0602 and *0603 and the nonresponder allele *0604 are located in the peptide-binding groove of the DQB1 molecule. In addition to this finding, amino acid 86 in the DRB1 molecule seems to determine the response against HBsAg. DRB1*1301 and DR15 in the responder haplotypes have a Val at this position while the nonresponder haplotype has a Gly. These results suggest a role for both the DQB1*06 alleles and the DRB1 alleles *1301, *1302 and DR15 to direct either a response or a nonresponse against HBsAg. Sixteen HLA class II genotypes were found to be shared by 25 nonresponders and 32 responders. This finding of HLA-identical nonresponders and responders indicates an influence of other genetic factors in addition to the HLA system in the response to HBsAg.

HLA-DRB and -DQB1 alleles in Polish patients with hepatitis B associated membranous nephropathy

We have studied the HLA-DRB and -DQB1 alleles of 42 paediatric patients who have suffered from membranous nephropathy associated with a hepatitis B infection (HBVMN). These patients were all from the Gdansk area of Northern Poland and the disease was diagnosed by light and electron microscopy. The control population consisted of 55 healthy children, approximately age matched, from schools in Gdansk. In addition we have also analysed 40 patients chronically infected with hepatitis B, without any renal involvement, as hepatitis B disease controls. The HLA alleles were defined using PCR/SSP. As idiopathic membranous nephropathy and low responsiveness to hepatitis B vaccine have been found to be associated with DR3 in Caucasoids, our hypothesis was that the HBVMN patients would show an increase in DR3. Our results indicate that, although there is a small increase in the frequency of DRBl*0301 in the HBVMN patients (16/42 38%) when compared to the healthy controls (15/55 31%), this does not approach significance. There is a significant increase in the frequency of DQB1*0303 in the HBVMN patients vs the healthy controls, after correction for the number of antigens detected (Pc)(13/42 vs 2/55, RR=11.6, P=0.0007, Pc=0.02). A similar increase in DQB1*0303 is seen in the HBVMN patients when compared to the hepatitis controls (13/42 vs 4/40) but this is only significant before correction (RR=4.3, P=0.04).

Response to hepatitis B vaccine: multiple HLA genes are involved

The mechanism underlying the impaired immune response to hepatitis B vaccines in up to 10% of healthy subjects is not known. An increased incidence of poor responsiveness in subjects with HLA-DR3+ or -DR7+ haplotypes has been documented, suggesting that HLA-DR-linked genes may regulate the human response to hepatitis B surface antigen. However, not all HLA-DR3+ and/or -DR7+ individuals are poor responders, and subjects with identical HLA-DR haplotypes sometimes display totally divergent antibody responses to vaccination. HLA class II DNA typing was performed in well and poorly responding hepatitis B vaccine recipients and we analyzed the role of the single HLA-DR, -DP, and -DQ molecules and of their associated (interaction) haplotypes in the response to hepatitis B vaccination. Statistical analysis revealed that HLA-DRB1*010*, -DR5, -DPB1*040*, -DQB1*0301, and -DQB1*0501 were more abundant in good responders, whereas HLA-DRB1*07, -DPB1*1101, and -DQB1*020* were associated with poor response, with DQB1*020* showing the strongest association with poor responsiveness. We further investigated whether there were interactions between the HLA factors contributing to poor responsiveness. We show here that HLA-DPB1*02 was negatively associated with responsiveness when it occurred in association with haplotype DRB1*0701/DRB4*0101-DQB1*020*, and DRB4*0101 was negatively associated with responsiveness when it occurred in association with haplotype DRB1*0301/DRB3*0101-DQB1*020*. Our results indicate that the immune response to hepatitis B vaccine is largely determined by HLA-DR, -DP, and -DQ genes and that interaction between HLA molecules that are not in linkage disequilibrium contributes to poor responsiveness.