Jennifer L. Slack

T1/ST2 Signaling Establishes It as a Member of an Expanding Interleukin-1 Receptor Family

Through data base searches, we have discovered new proteins that share homology with the signaling domain of the type I interleukin-1 receptor (IL-1RI): human “randomly sequenced cDNA 786” (rsc786), murine MyD88, and two partial Drosophila open reading frames, MstProx and STSDm2245. Comparisons between these new proteins and known IL-1RI homologous proteins such as Toll, 18-Wheeler, and T1/ST2 revealed six clusters of amino acid similarity. We tested the hypothesis that sequence similarity between the signaling domain of IL-1RI and the three mammalian family members might indicate functional similarity. Chimeric IL-1RI receptors expressing the putative signaling domains of T1/ST2, MyD88, and rsc786 were assayed by three separate IL-1 responsive assays, NF-κB, phosphorylation of an epidermal growth factor receptor peptide, and an interleukin 8 promoter-controlled reporter construct, for their ability to transduce an IL-1-stimulated signal. All three assays were positive in response to the T1/ST2 chimera, while the MyD88 and rsc786 chimeras failed to respond. These data indicate that the sequence homology between IL-1RI and T1/ST2 indicates a functional homology as well.

Cloning of a Putative Ligand for the T1/ST2 Receptor

T1/ST2 is a receptor-like molecule homologous to the type I interleukin-1 receptor. Despite this sequence similarity, we have been unable to demonstrate binding of T1/ST2 to any of the three interleukin-1 species. In searching for a ligand for T1/ST2, we have cloned a cell surface protein to which it binds. This protein is unable to initiate signal transduction by the T1/ST2 receptor in several in vitro assays.

Monoclonal antibody 1994-01 (also known as ALVA 42) reported to recognize type II IL-1 receptor is specific for HLA-DR alpha and beta chains

Monoclonal antibody (MAb) 1994-01 has been reported to bind to the human type II Interleukin 1 (IL-1) receptor and in so doing block IL-1 binding in vitro and certain IL-1 mediated responses in vivo. While this antibody binds to a type II IL-1 receptor positive cell line, it can be shown that it does not bind to the type II IL-1 receptor. By direct expression cloning, we have identified two gene products, both of which are required for binding of this antibody. The two proteins are the alpha and beta subunits of the MHC class II antigen HLA-DR.

Molecular heterogeneity of interleukin-1 receptors

Previous studies have shown that binding of IL-1 to its receptor and intracellular processing of the IL-1/IL-1 receptor complex appear to be different in B- and T-cells. The current report summarizes recent studies from our laboratory that show that the murine and human IL-1 receptors present on T-cells and fibroblasts are identical in primary sequence within each species, and highly similar even when the two species are compared. At present no cDNA clones have been isolated for IL-1 receptors present on B-cells. However, a monoclonal antibody raised to the receptor on murine T-lineage cells did not bind to a pre-B-lymphoma cell line that displays IL-1 binding sites, nor would cDNA probes derived from a T-cell IL-1 receptor clone cross hybridize at high stringency to mRNA prepared from these cells. In addition the two receptors differ substantially in size, as determined by affinity crosslinking with radiolabeled IL-1 alpha. Taken together, these observations show that major structural differences exist between the IL-1 receptors on B and T lymphocytes, while the receptors on T-cells and fibroblasts are identical polypeptides. We propose that the T-cell/fibroblast receptor be called IL-1RI and the B-cell type IL-1RII.