Two populations of guinea pig erythrocyte-rosetting cells in the cat: Evidence for their T-helper function in mitogen-induced synthesis of Ig and interleukin-2

Abstract

Studies in our laboratory have shown that T-helper (T-H) and T-suppressor (T-S) cells in cat peripheral blood leukocytes (PBL) rosette with guinea pig (GP) and gerbil (G) erythrocytes (E), respectively. Removal of GE-rosetting cells leads to an enhanced (two- to threefold) synthesis of Ig in a pokeweed mitogen (PWM)-driven system as measured by plaque-forming cells (PFC) to protein A-coated sheep RBC, while depletion of GPE-rosetting cells yields a PFC response only 10–15% of the control. Surprisingly, removal of both GE- and GPE-rosetting cells gave a response equivalent to 40–100% of the control PBL. Analysis of the mixed GE/GPE rosette depleted cultures revealed the reappearance of GPE- but not GE-rosetting cells, reaching maximum values within 12–18 hr after in vitro culture. Cultures of control PBL and those following the mixed rosette depletion showed two populations of GPE-rosetting cells; the GPE-1 cells, present on Day 0 before culture, and the GPE-2 cells, those appearing on Day 1. Addition of cycloheximide prevented development of the GPE receptor while colchicine and mitomycin C were without effect. The development of PFC after the mixed GE/GPE rosette depletion was interpreted as being due to the GPE-2 cells functioning as T-H cells in the absence of any T-S (GE-rosetting) cells. This thesis was supported by showing a marked decrease in the PWM-induced Ig response when both the GPE-1 and GPE-2 populations were removed on Day 1. Additional evidence for functional T-H cells in the GPE-rosetting population was obtained by analyzing interleukin-2 (IL-2) production. Removal of the GPE-rosetting cells (GPE-1 and/or GPE-2) from PBL led to a marked decrease in Con A-induced IL-2 synthesis while removal of the GE-rosetting cells yielded a normal or slightly greater than normal response.