Interferon-gamma receptor 2 is a cell-surface receptor that is required for interferon-gamma signalling and therefore plays a critical immunoregulatory role in innate and adaptive immunity against viral and also bacterial and protozoal infections. A crystal structure of the extracellular part of human interferon-gamma receptor 2 (IFN gamma R2) was solved by molecular replacement at 1.8 angstrom resolution.
Similar to other class 2 receptors, IFN gamma R2 has two fibronectin type III domains. The characteristic structural features of IFN gamma R2 are concentrated in its N-terminal domain: an extensive pi-cation motif of stacked residues KWRWRH, a NAGW-NAG sandwich ( where NAG stands for N-acetyl-d-glucosamine) and finally a helix formed by residues 78-85, which is unique among class 2 receptors.
Mass spectrometry and mutational analyses showed the importance of N-linked glycosylation to the stability of the protein and confirmed the presence of two disulfide bonds. Structure-based bioinformatic analysis revealed independent evolutionary behaviour of both receptor domains and, together with multiple sequence alignment, identified putative binding sites for interferon-gamma and receptor 1, the ligands of IFN gamma R2.