Dennis Stark scite author profile

Proteins of the HBV envelope (env) are coded for by two adjacent regions of the HBV env gene: the pre-S and S regions. Antigenic determinants corresponding to amino acid sequences of both regions are recognized by human antibodies and are important in virus-neutralizing responses. Protective immune responses to HBV appear to be linked to the major HLA histocompatibility complex. Inbred and congenic strains of mice represent a model system relevant for studies on the genetic control of immune responsiveness of humans to HBV envelope proteins. Such mouse strains were ranked according to their antibody response to the S protein and divided into high [d,q], intermediate [a,k,b], and low [s] responders (letters in brackets indicate H-2 haplotype.) Selected pre-S antigenic determinants can be mimicked with high fidelity by synthetic peptide analogues that are immunogenic without any carriers. Thus it is possible to study directly the genetic control of immune responsiveness to pre-S epitopes mimicked by these peptides without having to consider the influence of carriers or of S protein. The results presented here show that inbred mouse strains can be ranked according to their antibody responses to the synthetic peptide pre-S(120-145) as follows: A/J[a] approximately equal to SWR/J[q] greater than C57BL/6J[b] approximately equal to AKR/J[k] approximately equal to SJL/J[s] much greater than DBA/2J[d] greater than BALB/cJ[d]. Only SJL/J[s] mice responded well to another synthetic peptide pre-S (12-32). Thus, H-2-linked genes regulating the immune response to S protein and to epitopes on pre-S-coded sequences are distinct. Anti-pre-S(120-145) responses in S protein-nonresponders circumvent this nonresponsiveness. This should be considered in the design of hepatitis B vaccines.

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H‐2 linked genetic control of immune responsiveness to hepatitis B surface antigen (HBsAg) in mice

Stark

Strick

et al. 1983

Journal of Medical Virology

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Recent data suggest that genes involved in the control of (1) immune responses of humans to HBsAg and (2) the susceptibility to the development of chronic hepatitis B are linked to the major HLA histocompatibility complex. Studies on the genetic regulation of anti-HBs responses and on the possible abrogation of nonresponsiveness to HBsAg in humans are difficult. In an attempt to develop a relevant animal model system, the anti-HBs response of inbred and congenic strains of mice was investigated. A great variation in anti-HBs responses among individual mice belonging to the same strains was observed. Nevertheless, it was possible to rank the inbred mouse strains studied according to their decreasing anti-HBs responses as follows: BALB/c[d] congruent to SWR/J[q] greater than C57BL/6J[b] congruent to DBA/2J[a] greater than AKR/J[k] greater than A/J[a] greater than CBA/CaJ[k] greater than SJL/J[s]. (Letters in brackets indicate H-2 haplotype). Only a small proportion of SJL mice had an anti-HBs response. Therefore, this strain may serve as a model for human nonresponders. Studies with the congenic strains B10.D2[d] and B10.S[s] indicated that genes conferring responsiveness to HBsAg are linked to the H-2 histocompatibility complex. However, genes not linked to H-2 also probably play a role in regulating anti-Hbs responses.

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The Importance of Animals in Biomedical Research

Leader¹,

Stark²

1987

pbm

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A battery of potential alternatives to the Draize test: Uridine uptake inhibition, morphological cytotoxicity, macrophage chemotaxis and exfoliative cytology

Shopsis

Borenfreund

Walberg

et al. 1985

Food and Chemical Toxicology

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Dennis Stark

Progress and problems in evaluating and validating alternative assays in toxicology

Genetic restriction of immune responsiveness to synthetic peptides corresponding to sequences in the pre‐S region of the hepatitis B virus (HBV) envelope gene

H‐2 linked genetic control of immune responsiveness to hepatitis B surface antigen (HBsAg) in mice

The Importance of Animals in Biomedical Research

A battery of potential alternatives to the Draize test: Uridine uptake inhibition, morphological cytotoxicity, macrophage chemotaxis and exfoliative cytology

Contact Info

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