Accéder au contenu
Merck

Suppression of the cellular adjuvanticity of lipophilic amines by a polyanion.

International archives of allergy and applied immunology (1986-01-01)
L A Hilgers, H Snippe, K E van Vliet, M Jansze, J M Willers
RÉSUMÉ

Modulation of delayed-type hypersensitivity reaction (DTH) in mice by synthetic adjuvants and the mode of their action were investigated. Intracutaneous injection of azobenzenearsonate coupled to phosphatidylethanolamine (A-PE) without adjuvant did not induce DTH. Administration of A-PE with the quaternary amines dimethyldioctadecylammonium bromide (DDA) or N,N-dioctadecyl-N',N'-bis(2-hydroxyethyl)propane diamine (CP-20,961) induced a strong response. Other surfactants, dextran sulfate (DXS) and dextran were not effective. In combination with 200 nmol DDA the optimal dose of antigen was 5 nmol A-PE, while at higher antigen doses DTH was diminished. Responses on combination of two adjuvants and A-PE revealed that DXS counteracted the stimulatory effects of both DDA and CP-20,961. In vitro, DDA formed insoluble complexes with 14C-A-PE and at optimal antigen concentration more than 90% of the antigen was bound to the adjuvant. The percentage of 14C-A-PE bound to 200 nmol DDA decreased with increasing doses of 14C-A-PE. Addition of DXS to the mixture of 14C-A-PE and DDA reduced the percentage of 14C-A-PE bound to DDA. Dose-response curves demonstrated a close relationship between the inhibitory effects of DXS on the DTH and the A-PE/DDA complex formation. Nonsulfated dextran affected neither the DTH nor the formation of complexes in vitro. In conclusion, cellular adjuvanticity of DDA for the lipophilic antigen A-PE is probably the result of formation of insoluble complexes with the antigen. Free A-PE suppresses the cellular response to A-PE/DDA complexes. The adjuvant DXS inhibits DTH by reducing the amount of immunogenic A-PE/DDA complexes and thus increasing the amount of free, immunosuppressive A-PE.