The TCR consists of at least seven transmembrane chains: the clonotypic disulfide-linked alpha- and beta-chains, the invariant gamma-, delta-, and epsilon-chains, termed the CD3 complex, and the zeta-zeta homodimer. We have recently described an additional 26-kDa protein, which is transiently associated with newly synthesized mouse CD3 chains in the endoplasmic reticulum. The exact function of this protein, which we called TRAP (for TCR-associated protein) is not yet known; studies suggest however, that it may play a role in the assembly of the TCR complex. Here we report the properties of another protein which has a Mr of 16,000 and, like TRAP, can be coimmunoprecipitated from metabolically labelled murine T cells with antibodies against the chains of the CD3 complex. Kinetic analysis suggests a precursor-product relationship between TRAP and the 16-kDa protein: the latter starts appearing once TRAP begin to disappear. Having reached a maximal level at approximately 1 h after biosynthesis, it is rapidly lost. Agents that slow or block the disappearance of TRAP, delay or prevent the appearance and eventual disappearance of the 16-kDa protein. Incubation of immunoprecipitates containing gamma, epsilon, and TRAP in vitro at 37 degrees C results in the appearance of the 16-kDa protein. Employing HPLC peptide mapping we demonstrate that this 16-kDa protein is structurally related to TRAP. These results suggest that the removal of TRAP from the newly synthesized CD3 chains is accompanied by its proteolytic cleavage in a pre-Golgi compartment.