Abstract
The bioactivity of tumor necrosis factor (TNF) is mediated by two TNF receptors (TNF-Rs), more particularly TNF-RI and TNF-RII. Although human TNF (hTNF) and murine TNF (mTNF) are very homologous, hTNF binds only to mTNF-RI. By measuring the binding of a panel of mTNF/hTNF chimeras to both mTNF-R, we pinpointed the TNF region that mediates the interaction with mTNF-RII. Using site-specific mutagenesis, we identified amino acids 71-73 and 89 as the main interacting residues. Mutein hTNF-S71D/T72Y/H73 Delta/T89E interacts with both types of mTNF-R and is active in CT6 cell proliferation assays mediated by mTNF-RII. Mutein mTNF-D71S/Y72T/Delta 73H/E89T binds to mTNF-RI only and is no longer active on CT6 cells. However, the L929s cytotoxicity of this mutein (an effect mediated by mTNF-RI triggering) was also 100-fold lower than that of wild-type mTNF due to enhanced dissociation during incubation at subnanomolar concentrations. The additional mutation of amino acid 102, resulting in the mutein mTNF-D71S/Y72T/Delta 73H/E89T/P102Q, restored the trimer stability, which led to an enhanced specific activity on L929s cells. Hence the specific activity of a TNF species is governed not only by its receptor binding characteristics but also by its trimer stability after incubation at subnanomolar concentrations. In conclusion, the mutation of TNF amino acids 71-73, 89, and 102 is sufficient to obtain a mTNF mutein selective for mTNF-RI and a hTNF mutein that, unlike wild-type hTNF, also acts on mTNF-RII.
Highlights
Tumor necrosis factor (TNF)1 is a pleiotropic cytokine with a wide range of biological activities including cytotoxicity, immune cell proliferation, and mediation of inflammatory responses [1,2,3]
Because human TNF (hTNF) binds to murine TNF (mTNF)-RI only, such chimeras were used to identify the part of the mTNF protein required for binding to mTNF-RII
The interaction of wild-type and chimeric TNF proteins with both types of mTNF-R was characterized in a direct in vitro binding assay
Summary
Tumor necrosis factor (TNF) is a pleiotropic cytokine with a wide range of biological activities including cytotoxicity, immune cell proliferation, and mediation of inflammatory responses [1,2,3]. Due to the high homology, chimeric TNF genes can be obtained by exchanging homologous regions between the hTNF and mTNF genes Bacterial expression of such in-frame chimeric genes results in chimeric TNF subunits that are able to trimerize into bioactive molecules. We obtained receptor-specific muteins by replacing murine amino acids in this region by their human counterparts and vice versa This resulted in a mTNFRI-specific mutein of mTNF and a hTNF mutein binding efficiently to mTNF-RII
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