Construction of immunoglobulin fusion proteins.

Recombinant DNA technology has allowed the preparation of chimeric genes encoding proteins with novel properties. This unit describes the construction and subsequent testing of genes encoding immunoglobulin chimeras. The first protocol details fusion of a protein (or protein fragment) of interest onto an immunoglobulin constant region using a modified version of the expression vector pCDM8.

Use of monoclonal antibodies for expression cloning.

This unit details the use of transient expression in mammalian cells to screen cDNA libraries with monoclonal antibodies (MAb) to isolate cDNA clones encoding cell-surface and intracellular proteins. The first protocol in this unit describes the cloning of cDNAs encoding cell-surface antigens. Several steps in this protocol involve transfection procedures that are described in greater detail elsewhere in this volume.

Transient expression of proteins using COS cells.

This unit describes the use of COS cells to efficiently produce a desired protein in a short period of time. These cells express high levels of the SV40 large tumor (T) antigen, which is necessary to initiate viral DNA replication at the SV40 origin. Each COS cell transfected with DNA encoding a cell-surface antigen (in the appropriate vector) or cytoplasmic protein will express several thousand to several hundred thousand copies of the protein 72 hr posttransfection.

Anti-CD40 therapy extends renal allograft survival in rhesus macaques.

Background: Organ transplant recipients currently require lifetime immunosuppressive therapy, with its accompanying side effects. Biological agents that block T-cell costimulatory pathways are important components of strategies being developed to induce transplantation tolerance. The aim of this study was to test the effect of a novel chimeric anti-human CD40 monoclonal antibody (Chi 220), either alone or in combination with CTLA4-Ig, on the survival of renal allografts in a nonhuman primate model.