Genetic Control of the Immune Response: in Vitro Stimulation of Lymphocytes by (T,G)-A--L, (H,G)-A--L, and (Phe,G)-A--L

Overview

Journal J Exp Med

Specialties Allergy & Immunology
General Medicine

Date 1974 Oct 1

PMID 4547782

Citations 16

Authors

P Lonai

H O McDevitt

Affiliations

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Abstract

In vitro antigen-induced tritiated thymidine uptake has been used to study the response of sensitized lymphocytes to (T,G)-A--L, (H,G)-A--L, and (Phe,G)-A--L in responder and nonresponder strains of mice. The reaction is T-cell and macrophage dependent. Highly purified T cells (91% Thy 1.2 positive) are also responsive, suggesting that this in vitro lymphocyte transformation system is not B-cell dependent. Lymphocytes from high and low responder mice stimulated in vitro react as responders and nonresponders in a pattern identical to that seen with in vivo immunization. Stimulation occurs only if soluble antigen is added at physiological temperatures; antigen exposure at 4 degrees C followed by washing and incubation at 37 degrees C fails to induce lymphocyte transformation. Stimulation is specific for the immunizing antigen and does not exhibit the serologic cross-reactivity which is characteristic of these three antigens and their respective antisera. The reaction can be inhibited by anti-H-2 sera but not by anti-immunoglobulin sera. The anti-immunoglobulin sera did, however, inhibit lipopolysaccharide or pokeweed mitogen stimulation. These results suggest that the Ir-1A gene(s) are expressed in T cells, and that there are fundamental physiologic differences between T- and B-cell antigen recognition.

Citing Articles

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Antigen-specific HLA-restricted human T-cell lines. I. An MT3-like restriction determinant distinct from HLA-DR.

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I-region genes are expressed on T and B lymphocytes. Studies of the mixed lymphocyte reaction (MLR).

Lonai P, McDevitt H J Exp Med. 1974; 140(5):1317-23.

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