Abstract
Cytotoxic cells were generated by immunizing one strain of mouse with cells from an allogeneic strain which carries the same H-2 region. The effector cells assayed in a 4 h 51Cr release assay were shown to be T cells and indistinguishable, except in specificity, from cytotoxic T cells directed at H-2 alloantigens. Although the genetic differences between responder and stimulator cells responsible for the immunization did not code in H-2, the H-2 complex did restrict susceptibility of target cells. For example, BALB.B cytotoxic cells (H-2b) immunized against and capable of lysing C57BL/6 cells (H-2b) would not lyse B6.C/H-2d target cells. C57BL/6 and B6.C/H-2d are congenic and differ in the H-2 region. Two hypotheses are considered to explain the H-2 restriction of susceptibility to cytotoxic T cells generated by an H-2 identical alloimmunization. (a) The dual (self) recognition hypothesis states that the cytotoxic cell has two recognition units, one for H-2-coded structures and another clonally restricted receptor for the minor alloantigen. (b) The interaction antigen hypothesis states that all the surface alloantigenic determinants recognized by cytotoxic T cells are the result of interaction between H-2- and non-H-2-coded gene products. Two lines of evidence, one with F1 effector cells and the other a cold target competition experiment, are presented which argue strongly in favor of the interaction antigen hypothesis. The regions of H-2 required to be histocompatible were mapped to the D region and to the left of IC, probably the K region. These results, and recent work on the response to virus-infected and TNP-modified syngeneic cells, suggest that cytotoxic cells are restricted in specificity to preferentially recognizing alterations in structures that are coded in the major histocompatibility complex.
Publisher
Rockefeller University Press
Subject
Immunology,Immunology and Allergy
Cited by
460 articles.
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