Human Auto-IgG Purification from High Volume Serum Sample by Protein G Affinity Purification.

Abstract

Immunoglobulins are proteins produced by the immune system, which bind specifically to the antigen that induced their formation and target it for destruction. Highly purified human immunoglobulins are commonly used in research laboratories for several applications, such as in vitro to obtain hybridomas and in vivo animal immunisation. Several affinity purification methods are used to purify immunoglobulins from human serum, such as protein A/G Sepharose beads, polyethylene glycol, and caprylic acid ammonium sulphate precipitation. Here, we provide a detailed protocol for purification of high-quality IgG from human serum, using affinity chromatography with protein G. The protocol is divided into four main steps (column preparation, serum running, wash, and elution) for IgG purification, and two extra steps (protein dialysis and sucrose concentration) that should be performed when buffer exchange and protein concentration are required. Several IgG affinity purification methods using protein A or G are available in the literature, but protein A has a higher affinity for rabbit, pig, dog, and cat IgG, while protein G has a higher affinity for mouse and human IgG. This affinity-based purification protocol uses protein G for a highly specific purification of human IgG for animal immunization, and it is particularly useful to purify large amounts of human IgG. This protocol was validated in: Pain (2019), DOI: 10.1097/j.pain.0000000000001662 Graphical abstract IgG purification protocol. The IgG purification protocol consists of four main steps (column preparation, serum running, wash, and elution) and two extra steps (protein dialysis and concentration). a. Diluted serum is added to the protein G beads and IgG binds to the Fc receptors on protein G beads. b. Beads are washed in Hartman's solution to fully remove the complex protein mixture (multicolour shapes, as depicted in the graphical abstract). c. IgG (orange triangles, as depicted in the graphical abstract) are removed from protein G with glycine and collected in Tris buffer. d. The IgG is transferred into a semi-permeable membrane ('snake skin') and allowed to dialyse overnight for buffer exchange with a physiological solution (Hartmann's).