Fountoulakis M, Schlaeger E J, Gentz R, Juranville J F, Manneberg M, Ozmen L, Garotta G
Hoffmann-La Roche Ltd, Central Research Unit, Basel, Switzerland.
Eur J Biochem. 1991 Jun 1;198(2):441-50. doi: 10.1111/j.1432-1033.1991.tb16034.x.
The extracellular domain of the mouse interferon gamma receptor comprising amino acids 17-243 of the protein was produced in Spodoptera frugiperda cells infected with a recombinant baculovirus. The receptor was mainly secreted into the culture medium and was purified to homogeneity in several hundred milligram amounts. The purification procedure involved four chromatography steps and delivered a soluble and active receptor with an overall recovery of 30%. From each purification run, two pools of soluble receptor with the same interferon gamma binding capacity were isolated. Under reducing electrophoretic conditions the protein of pool I migrates as two bands of molecular masses 32 and 34 kDa and of pool II as two bands of 30 and 32 kDa. The soluble receptor of both pools carries a heterogeneous glycosylation. After deglycosylation it appears as one protein band of 27 kDa. N-linked carbohydrates contribute about 6 kDa and O-linked carbohydrates 1 kDa to its molecular mass. The nonreduced protein specifically binds interferon gamma on ligand blots and in a solid-phase binding system and competes for the binding of radiolabeled interferon gamma to the cell surface receptor. The soluble mouse interferon gamma receptor exists as a monomer in physiological buffer and binds interferon gamma in its dimeric form. It is stable at room temperature and against tryptic digestion, but is very sensitive to proteinase K digestion. The soluble mouse interferon gamma receptor produced in the insect/baculovirus expression system may prove useful to study the function of interferon gamma receptor as an antagonist of endogenous interferon gamma in the treatment of immunological and inflammatory disorders.
小鼠干扰素γ受体的细胞外结构域(由该蛋白的第17至243个氨基酸组成)是在感染重组杆状病毒的草地贪夜蛾细胞中产生的。该受体主要分泌到培养基中,并以几百毫克的量纯化至同质。纯化过程包括四个色谱步骤,得到了一种可溶性且有活性的受体,总回收率为30%。每次纯化过程中,分离出两池具有相同干扰素γ结合能力的可溶性受体。在还原电泳条件下,I池的蛋白迁移为两条分子量分别为32 kDa和34 kDa的条带,II池的蛋白迁移为两条分子量分别为30 kDa和32 kDa的条带。两池的可溶性受体都带有异质性糖基化。去糖基化后,它呈现为一条27 kDa的蛋白条带。N-连接的碳水化合物对其分子量贡献约6 kDa,O-连接的碳水化合物贡献1 kDa。未还原的蛋白在配体印迹和固相结合系统中特异性结合干扰素γ,并竞争放射性标记的干扰素γ与细胞表面受体的结合。可溶性小鼠干扰素γ受体在生理缓冲液中以单体形式存在,并以其二聚体形式结合干扰素γ。它在室温下稳定,对胰蛋白酶消化有抗性,但对蛋白酶K消化非常敏感。在昆虫/杆状病毒表达系统中产生的可溶性小鼠干扰素γ受体可能有助于研究干扰素γ受体作为内源性干扰素γ拮抗剂在治疗免疫和炎症性疾病中的功能。