Edwin H. Beachey

Epitope specific immunity elicited by a synthetic streptococcal antigen without carrier or adjuvant

A polypeptide fragment of type 24 streptococcal M protein (pep M24) has been shown to raise protective anti-streptococcal antibodies in rabbits and humans when administered with adjuvants. More recently, such protective antibodies were shown to be evoked by a synthesized 35-residue sub-peptide fragment (S-CB7 synthetic cyanogen bromide fragment 7) of pep M24. We now show that the weak pep M24 immunogen induces high titers of long lasting antibodies when associated with murabutide, a synthetic derivative of MDP (NAcMur-L-Ala-D-Gln-n-butyl-ester) which is currently undergoing clinical trials. We demonstrate also that the polymerized synthetic S-CB7 administered without adjuvant or carrier evokes a strong epitope specific, protective immune response in mice primed with the parent pep M24. A booster dose of polymerized S-CB7 induced antibodies directed specifically against the S-CB7 structure whereas a booster dose of pep M24 evoked antibodies recognizing additional determinants of the whole pep M24 molecule.

Antibody responses elicited by a polyvalent vaccine containing synthetic diphtheric, streptococcal and hepatitis peptides coupled to the same carrier

Three synthetic peptides copying fragments of the diphtheria toxin, the M protein of the streptococcus type 24 and the hepatitis B virus surface antigen (HBs) have been conjugated together to the tetanus toxoid. This polyvalent vaccine has been administered to mice. High antibody titers were obtained against the three antigens. No cross-reactivity could be observed between them as demonstrated by the ability of each peptide to inhibit only the antibodies against the natural M protein and the synthetic M protein peptide indicated that the avidity of the antibodies raised against a monovalent streptococcal vaccine were identical to those raised following injection of the polyvalent vaccine. Antibodies raised against the polyvalent streptococcal vaccine were also protective as shown by opsonophagocytic assays.

Differential signal requirements in T-cell activation by mitogen and superantigen

The requirement for co-stimulatory molecules in T-cell stimulation by mitogens and superantigens in the absence of antigen-presenting cells (APC) was investigated. Phytohemagglutinin (PHA) induced interleukin (IL)-2 receptor (IL-2R) expression on purified T-cells, but proliferation occurred only when exogenous IL-2 was added. In contrast, the proliferative response to a pepsin-extracted type 5 M-protein from Streptococcus pyogenes (pep M5), a recently identified superantigen, required signals provided by phorbol 12-myristate 13-acetate (PMA), IL-1 and IL-6. pep M5 alone did not induce IL-2R expression; however, when combined with PMA, IL-1 and IL-6, IL-2R was expressed. Differences were also observed in the response of the leukemic T-cell line, Jurkat, to PHA and pep M5. Soluble PHA, but not pep M5, induced IL-2 production by these cells in the presence of PMA. Cross-linking by its specific antibody or adsorption of pep M5 to microtiter plates was required to activate Jurkat cells. Both PHA and pep M5 induced Ca2+ mobilization in Jurkat cells; however, only PHA induced a rise in intracellular Ca2+ in purified T-cells, whereas pep M5 was unable to induce this activity unless IL-1, IL-6 and PMA were added. Our data provide biochemical evidence that mitogenic and superantigenic stimulation of T-cells is different.

Identification of functional epitopes of Pseudomonas aeruginosa exotoxin A using synthetic peptides and subclone products

The structure-function relationship of P. aeruginosa exotoxin A (ETA) was examined using synthetic peptides and genetically engineered ETA deletion mutants. Antibodies directed against synthetic peptides have allowed the identification of three ETA epitopes, two within domain I and one within the last 33 amino acids of domain III. In addition two distinct neutralizing determinants have been identified by antibodies directed against subclone products. One was associated with the amino-terminal half of ETA, the proposed receptor binding region. The second was associated with the carboxy-terminal half of ETA, a region previously not associated with receptor-binding. The amino-terminal subclone also offers potential as an ETA vaccine, since it produces a stable, non-enzymatically active product, effective in inducing ETA neutralizing antibodies. Data derived from these studies were used in a re-evaluation of structure-function relationships between ETA and diphtheria toxin.

Influence of CONH2 or COOH as C-terminus groups on the antigenic characters of immunogenic peptides.

The influence of the presence of a terminal COOH or CONH2 on the antigenic characters of synthetic immunogenic peptides has been studied on a streptococcal synthetic vaccine model. The obtained results show that when a peptide amide is used, the antibodies raised specifically against the amide group recognize neither free COOH nor the parent protein. The carboxamide group is thus unsuitable as was postulated for raising antibodies which recognize the peptide bond.

Serine and tyrosine phosphorylation of 28- and 35-kDa proteins of human T lymphocytes stimulated by streptococcal M protein

Purified polypeptide fragments of certain surface M proteins of group A streptococci stimulate blastogenesis and the differentiation of cytotoxic T lymphocytes of normal human lymphocytes. The biochemical basis of lymphocyte stimulation by a type M5 protein polypeptide fragment (pep M5) was investigated. Optimal blastogenic doses of pep M5 or phytohemagglutinin stimulated the phosphorylation of several cellular proteins. However, pep M5 but not phytohemagglutinin induced the phosphorylation of 28- and 35-kDa proteins. The 28-kDa protein was shown to be phosphorylated only at serine residues, whereas the 35-kDa protein was phosphorylated only at tyrosine residues. Stimulation of peripheral blood lymphocytes with pep M5 caused a two-fold increase in the CD8+ and CD4+ 4B4+ subpopulations of T lymphocytes. The phosphorylation of the 28-kDa protein appeared to be confined to the CD4+ T cell subpopulation.