A point mutation that decreases the thermal stability of human interferon {gamma}

We have identified a mutation of human gamma-interferon (IFN)causing a temperature-sensitive phenotype. We used a randomizedoligonucleotide to mutagenize a synthetic human IFN gene, thenscreened the resulting mutants produced in Escherichia colifor proteins with altered biological activity. One mutant proteinselected for detailed characterization exhibited < 0.3% ofthe specific biological activity of native IFN in an antiviralactivity assay performed at 37°C. However, the protein boundthe human IFN receptor with native efficiency at 4°C. Sequencingthe plasmid DNA encoding this protein snowed that the mutationchanged the lysine residue at amino acid 43 to glutamic acid(IFN/K43E). Site-specific mutagenesis at amino acid 43 showedthat this protein's phenotype resulted from positioning a negativecharge at position 43. Structural characterization of IFN/K43Eusing CD demonstrated that the protein had native conformationat 25°C, but assumed an altered conformation at 37°C.IFN/K43E in this altered conformation bound poorly to the IFNreceptor at 37°C, providing a rationale for the mutant'sdecreased antiviral activity.