A Synthetic Peptide Corresponding to a Critical Intracellular Signaling Region of the Human IL-4 Receptor Inhibits IL-4-Induced Proliferation

Abstract We have previously identified a critical region for growth signal transduction in the cytoplasmic domain of the human IL-4 receptor (hIL-4R). Since the entire cytoplasmic domain of this receptor lacks known catalytic activities such as the tyrosine kinase domain, it is likely that the IL-4R associates with other signal-transducing molecules through this critical cytoplasmic region. We test here whether a synthetic peptide corresponding to this critical cytoplasmic region, designated SP-1, interferes with IL-4-induced proliferation by competing with the IL-4R for binding to intracellular signal-transducing molecules. Our data indicated that 100 μmg/ml SP-1 peptide completely inhibits human IL4 (hIL-4)-induced proliferation of Ba/F3 transfectants expressing the full-length hIL-4R (hIL-4R-Ba/F3 transfectants). In contrast, a wide concentration range of an unrelated synthetic peptide, designated SP-2, did not affect hIL-4-induced proliferation of hIL-4R-Ba/F3 transfectants. This difference between SP-1 and SP-2 peptides was not due to their differential uptake by cell, since approximately 100 times more SP-2 peptide could be found in cytoplasmic extracts than SP-1 peptide in experiments using radiolabeled peptides. The specificity of SP-1-mediated inhibition of IL-4-induced proliferation was supported by the fact that the SP-1 peptide had no effect on IL-3-induced proliferation of the same hIL-4-Ba/F3 transfectants. In addition, the SP-1 peptide did not affect either IL-2-induced proliferation of Ba/F3 transfectants expressing the human IL-2 receptor β chain (hIL-2Rβ) or hIL-4-induced proliferation of Ba/F3 transfectants expressing a chimeric receptor consisting of the hIL-4R extracellular domain and the hIL-2Rβ cytoplasmic domain. SP-1 was unable to inhibit IL-4-induced proliferation of other IL-4-responsive cell lines such as human erythroleukemic cell line TF-1 and mouse T cell lines HT2 and CTLL-2. In addition, SP-1 caused only a 50% inhibition of Ba/F3 cell proliferation induced by mouse IL-4. The failure of SP-1 to-inhibit IL-4-induced proliferation in these various cell lines while producing excellent inhibition of hIL-4-induced proliferation of hIL-4R-Ba/F3 transfectants appeared to be related to the number of IL-4Rs expressed on each cell type, Since only trace amounts of SP-1 were taken up by each of these cells, it is possible that peptide modifications which lead to improved cellular uptake may extend the range of cell targets that can be regulated by this IL-4 antagonist.