Biochemical characterization of osteo-testicular protein tyrosine phosphatase and its functional significance in rat primary osteoblasts.

Rat osteo-testicular protein tyrosine phosphatase (OST-PTP), expressed in osteoblasts and testis, is a receptor-like transmembrane protein with two tandemly repeated phosphatase domains in the cytoplasmic region. In this report, we show that the first domain (CD1) is enzymatically active and appears to be influenced by the catalytically inactive second domain (CD2). The activity of CD1 is specific to phosphorylated tyrosine. Full-length OST-PTP protein expressed in COS cells has a molecular mass of approximately 185 kDa, and immunoprecipitates of this protein using OST-PTP-specific antisera show strong tyrosine phosphatase activity. Expression of OST-PTP mRNA in primary rat calvarial osteoblasts is temporally regulated, and peak expression is found at approximately day 15, which correlated well with the appearance of OST-PTP protein and its associated tyrosine phosphatase activity. Treatment of osteoblasts in culture with antisense oligonucleotides directed against the 5' untranslated region of OST-PTP results in abrogation of differentiation, confirming the functional importance of OST-PTP expression in osteoblast development.

Enhanced immunogenicity of hepatitis B surface antigen by insertion of a helper T cell epitope from tetanus toxoid.

The currently marketed hepatitis B vaccines in the U.S. are based on the recombinant major hepatitis B surface antigen (HBsAg) of hepatitis B virus. Although a large majority of individuals develop protective immunity to HBV-induced disease after three immunizations, routinely a small but a significant percentage of the human population does not respond well to these vaccines. In this report, we describe the generation of a novel HBsAg molecule containing a Th epitope derived from tetanus toxoid (TT). Using recombinant DNA technology. the TT Th epitope (TTe) was inserted into the HBsAg coding sequence. Using a recombinant adenovirus expression system, HBsAg TTe chimeric protein was produced in A549 cells and found to be secreted into culture medium as 22 nm particles. The chimeric HBsAg particles were readily purified by immunoaffinity chromatography and their immunogenicity was evaluated relative to native HBsAg produced in an adenovirus expression system. When evaluated in inbred and outbred strains of mice, HBsAg TTe was shown to enhance several-fold the anti-HBs response relative to native HBsAg. Further enhanced responses were observed in mice primed with TT. This highly immunogenic form of HBsAg has promise as an improved HBsAg subunit vaccine.

Replication and immunogenicity of Ad7-, Ad4-, and Ad5-hepatitis B virus surface antigen recombinants, with or without a portion of E3 region, in chimpanzees.

Human adenovirus vectors containing intact or largely deleted E3 region were used to construct adenovirus-hepatitis B recombinant viruses (Ad-HepB) and shown to produce substantial amount of recombinant protein, hepatitis B surface antigen (HBsAg), in tissue culture. Previously we showed that these viruses were able to elicit good anti-HBs antibodies in a dog model. In the present study, the Ad-HepB viruses were evaluated for replication and immunogenicity in chimpanzees which sustain permissive infection by human adenoviruses. Recombinants containing entire E3 region showed better replication pattern than their E3 deleted counterparts as evidenced by longer duration and high titers of virus shedding. The effect of E3 region was also seen in the antibody titers against HBsAg in that the E3 containing viruses showed better response than the E3 deleted viruses. The importance of E3 region for the development of adenovirus vectored vaccines is further discussed.

Immunogenicity of high expression adenovirus-hepatitis B virus recombinant vaccines in dogs.

High yielding adenovirus (Ad)-hepatitis B recombinant (Ad-Hep B) viruses were prepared by insertion of the hepatitis B surface antigen (HBsAg) gene into the early region 3 (E3 region) of Ad4 or Ad7 vectors containing intact or largely deleted E3 regions. Both E3-deleted and non-deleted recombinants produced about six- to eight-fold higher amounts of HBsAg than previously reported recombinants. These recombinant viruses were evaluated for immunogenicity in dogs which sustain abortive lung infections by Ad4 and Ad7. Recombinants containing E3 deletions elicited 10- to 12-fold stronger anti-HBs primary responses than previously evaluated low yield recombinants. Further immunizations with heterotypic Ad-Hep B recombinants induced substantial anti-HBs booster responses as well as anti-'a' epitope responses. In contrast, recombinant viruses containing intact E3 regions induced only weak or negligible anti-HBs responses, although such viruses induced strong antibody responses to the Ad vectors. The immunogenicity of high-yielding Ad recombinants correlated with temporal expression of HBsAg and thus the dog represents a valuable model for evaluation of immune responses to heterologous proteins that are expressed early and that do not require efficient DNA replication. Recombinants expressing HBsAg late in the infectious cycle require further testing in the fully permissive chimpanzee model. This study establishes that the E3-deleted high yield Ad4 and Ad7 recombinants represent promising live oral hepatitis B vaccine candidates.

Adenovirus vectors for gene expression.

Adenoviruses possess a combination of features that make them highly suitable as vectors for expression of heterologous genes. Non-conditional and non-defective adeno-vectors have been constructed to obtain high level expression of a number of foreign genes and some of them have been shown in animal models to exhibit excellent promise as vaccine candidates.