D.M. Moran

Induction of T-Helper Cell Activity by Fragments of Rye Grass Pollen Extract Produced by Digestion with Chymotrypsin

Rye grass pollen extract was digested by chymotrypsin to produce fragments with a molecular weight below 10,000, as demonstrated by polyacrylamide gel electrophoresis. Chymotryptic fragments did not react with either human or mouse IgG antibodies specific for rye grass pollen, nor did they induce an antibody response in mice with specificity for the parent extract. However, macrophage-presented fragments retained the ability to react with rye-specific T cells in a lymphoproliferation assay. Furthermore, these fragments induced the development of splenocytes capable of supporting dinitrophenyl specific antibody production. This implies that the fragments still react with, and induce, rye grass pollen extract-specific T-helper cells. The possibility that such fragments might have potential for use in immunotherapy for the specific treatment of allergy is discussed.

T Cell Reactivity of Conjugates of N-Formyl-Methionyl-Leucyl-Phenylalanine and Rye-Grass Pollen Allergens

Conjugates of rye-grass pollen extract and N-formyl-methionyl-leucyl-phenylalanine were prepared using an activated form of the tripeptide. Introduction of the peptide into the extract brought about an extensive reduction of reactivity with grass-pollen-specific IgE, as measured by RAST inhibition. Despite this loss, guinea pig alveolar macrophages and murine splenic macrophages readily presented the conjugates to T lymphocytes specific for grass pollen allergens and caused their proliferation in vitro.

Adjuvant Properties of Hydrophobic Derivatives Prepared from L-Tyrosine

The capacity of various N-acyl, O-acyl, amide and ester derivatives of L-tyrosine to promote the induction of antibodies to grass pollen extracts has been studied in guinea pigs. Antibody production was generally found to be enhanced when these derivatised materials were used as adsorbate vehicles compared with either L-tyrosine or simple aqueous presentations. Increases in alkyl chain length were found to parallel increased adjuvant activity. Unlike L-tyrosine, however, these hydrophobic materials tended to produce tissue lesions in experimental animals at concentrations which displayed apparent adjuvant advantages.

Suppression of Murine IgE Responses with Amino Acid Polymer/Allergen Conjugates

Conjugates of poly-N-methylglycine (polysarcosine) and grass pollen allergen extracts, which have been previously shown to suppress murine IgE responses, were examined for their ability to modify lymphocyte activity in vitro. Allergen-specific T lymphocytes obtained from Balb/c mice gave a reduced response to syngeneic accessory cells pulsed with conjugates of polysarcosine-allergen compared with the response found using equivalent concentrations of native extract. Pretreatment of accessory cells with either polysarcosine or polysarcosine-allergen conjugates did not impair their subsequent ability to present grass pollen extract to immune T cells. Incubation of allergen-specific spleen cells with polysarcosine-allergen conjugates, but not with polysarcosine or allergen alone, resulted in specific cell-mediated suppression which significantly reduced proliferation in vitro. This activity was sensitive to treatment of cells with anti-T-lymphocyte antisera plus complement. Spleen cells obtained from animals immunised with allergen and taken 21 days after intravenous treatment with polysarcosine-allergen conjugates, a regimen that suppressed IgE antibody production, did not proliferate in the presence of grass pollen extract and failed to suppress a secondary lymphoproliferative response in vitro. Spleen cells obtained from similarly treated animals 3 days after the final polysarcosine-allergen injection responded to pollen extract in culture and, additionally, impaired a secondary response. The results suggest that the reduced IgE response found in animals treated with polysarcosine-allergen conjugates may be due, in part, to the generation of a short-lived antigen-specific T cell suppression.