K A Fitzgerald

An alternative pathway of T-cell activation: A functional role for the 50 kd T11 sheep erythrocyte receptor protein

A series of seven monoclonal antibodies was produced against the T-lineage-specific 50 kd T11 sheep erythrocyte rosette (SRBC) receptor protein in order to define the function of the molecule. Three distinct epitopes were detected: T11(1), the SRBC binding site expressed on all T lymphocytes and thymocytes; T11(2), an epitope unrelated to the SRBC binding site but with a similar distribution; and T11(3), a neo-epitope expressed only upon T-cell activation. Simultaneous triggering of T11(2) and T11(3) epitopes by monoclonal antibodies induces T lymphocytes to proliferate and mediate their functional programs in the absence of antigen and/or antigen-presenting cells. This antigen-independent mode of triggering is distinct from that involving the T3-Ti antigen receptor complex and represents an alternate pathway of T-cell activation. Given that T11 is the earliest T-lineage surface glycoprotein to appear in thymic ontogeny and is thus expressed before T3-Ti, the former may be involved in clonal expansion and/or differentiation during early development.

Antigen recognition by human T lymphocytes is linked to surface expression of the T3 molecular complex

Four distinct surface molecules on human T cells are defined by the monoclonal antibodies anti-T1, anti-T3 (anti-T3A), anti-T11 and anti-T12. Following cell binding, anti-T3 (anti-T3A) and anti-T1 induce independent modulation of their respective ligands, whereas anti-T11 and anti-T12 do not. To explore the biological consequences of this modulation, we used cloned populations of T4 and T8 cytotoxic T lymphocytes. Anti-T3 (anti-T3A), but not anti-T1, inhibits cytotoxic T lymphocyte effector function by T4 and T8 clones as well as antigen-specific T cell recognition. The latter is not secondary to a generalized inhibitory effect since responsiveness to interleukin 2 is maintained. Moreover, after modulation, cytotoxic T lymphocytes recover cytolytic function in parallel with reexpression of surface T3 molecules. We provide evidence for a direct linkage between antigen recognition by T lymphocytes and surface expression of the T3 molecular complex.

The human T cell receptor: appearance in ontogeny and biochemical relationship of α and β subunits on IL-2 dependent clones and T cell tumors

Abstract The human T cell receptor for antigen (Ti) has recently been identified on IL-2 dependent T cell clones as a 90 kd disulfide-linked heterodimer comprised of one 49–51 kd alpha (α) and one 43 kd beta (β) chain. These subunits are noncovalently associated with a monomorphic 20–25 kd T3 molecule. Here, we produce monoclonal antibodies to a human tumor (REX) derived from an earlier stage of thymic differentiation in order to determine whether clonotypic structures are expressed and to define the ontogeny of Ti. The results of SDS-PAGE and peptide map analyses indicate that an homologous T3-associated heterodimer is synthesized and expressed by REX. This glycoprotein shares several peptides in common with clonotypic structures on an IL-2 dependent T cell clone. In addition, similar Ti related molecules appear during intrathymic ontogeny in parallel with surface T3 expression. The latter findings provide the structural basis for the immunological competence observed exclusively within the T3+ thymocyte compartment.