Disulfide linkage of the zeta and eta chains of the T cell receptor. Possible identification of two structural classes of receptors

Abstract

The T cell antigen receptor (TCR) is a multisubunit membrane complex. It consists of two disulfide-linked polymorphic chains (either alpha-beta or gamma-delta heterodimers) which are noncovalently linked to five invariant chains. The CD3-gamma and CD3-delta chains bear N-linked carbohydrates and the CD3-epsilon and zeta chains are nongly-cosylated. Further analysis of the zeta chain in murine T cells demonstrates that it can exist as either a homodimer or disulfide linked to an additional protein with an apparent Mr of 22,000. The partial peptide map of this 22-kDa protein is different than zeta and all of the CD3 components. Like zeta, it has no apparent N-linked carbohydrate chains. We have chosen to refer to this subunit as the eta chain of the TCR. Ninety percent of zeta in cloned and nonclonal populations of T cells exist as a homodimer, and the remainder is found linked to the eta chain. The tight regulation of the zeta-zeta to zeta-eta ratio suggests an important functional role for these structural components of the TCR.