An in vitro amplification approach for the expression of recombinant proteins in mammalian cells.

Abstract

A method for the expression of recombinant DNA products in mammalian cells based on in vitro amplification of gene units is described. Gene cassettes containing either a selectable marker or the gene of interest are mixed at different molar ratios, and linear polymers are formed using forced head-to-tail ligation. After introduction of the polymers into mammalian cells, transformants with various amounts of the amplified gene unit are obtained. For a first characterization of the system, the gene coding for chloramphenicol acetyltransferase (CAT) has been used to produce polymers containing a single neomycin-resistance gene ligated to different numbers of CAT gene units and used for transfection into HeLa cells. All isolated G418 (gentamycin)-resistant cell transformants which received in vitro amplified DNA were found to express high levels of CAT activity in a stable manner. Southern-blot analysis of individual clones revealed multiple copies of the gene integrated head-to-tail in the genome. This system allowed us to express the gene coding for human prepro-endothelin-1 in A617 human vascular-smooth-muscle cells. The recombinant protein was shown to be correctly processed and biologically active endothelin-1.