Identification of two regions within the cytoplasmic domain of the human interferon-gamma receptor required for function.

Functionally active human interferon-gamma (IFN gamma) receptors require the presence of at least two polypeptides: the IFN gamma receptor and an accessory molecule encoded by a gene on human chromosome 21. Here we have used a murine L cell line that stably contains human chromosome 21 (SCC16-5) to determine whether the receptor's cytoplasmic domain is important for receptor function. SCC16-5 stably transfected with the full-length human IFN gamma receptor cDNA bound, internalized, and responded to human IFN gamma. In contrast, SCC16-5 expressing human IFN gamma receptors lacking a cytoplasmic domain bound human IFN gamma but did not internalize or respond to it. Using a family of IFN gamma receptor deletion mutants, two functionally important regions within the intracellular domain were identified: (a) a membrane proximal region (residues 256-303) required for ligand processing and biologic responsiveness and (b) the carboxyl-terminal 39 amino acids (residues 434-472) needed exclusively for biologic responses.