Cell‐Mediated Immunity in Guinea Pig and Man to a Salmonella typhi Glycoprotein Complex Assessed by Migration Inhibition Methods

A Salmonella typhi glycoprotein preparation in concentrations of 5 to 10 μ g/ml strongly inhibited the migration of peritoneal exudate cells (PEC), obtained from guinea pigs immunized with S. typhi vaccine in Freund's complete adjuvant (FCA) PEC from animals injected with saline in FCA were also inhibited but to a lesser extent, whereas cells from guinea pigs that had received only S. typhi vaccine or normal guinea pigs showed variable and weaker inhibition. PEC from all guinea pigs receiving FCA were strongly inhibited by 5 to 15 μ g PPD/ml. These PPD concentrations had no inhibitory effect on exudate cells from guinea pigs receiving S. typhi vaccine only. The S.typhi glycoprotein concentration (5 and 10 μ g/ml) primarily used in the migration inhibition studies had negligible inhibitory effect on the phytohemagglutinin (PHA)‐induced DNA, RNA, and protein syntheses in guinea pig lymph node cells. In the human system only blood leukocytes of donors who had received their third or fourth booster of heat‐killed S. typhi vaccine within the latest 2 years were inhibited in their in vitro migration by the S. typhi glycoprotein complex.