Abstract: Disclosed is a method of producing increased amounts of a protein of interest in a cell by induction. The method includes transfecting a cell with multiple copies of an expression vector, each copy of which includes an expressible gene encoding an enzymatically functional dihydrofolate reductase (DHFR) and an expressible gene encoding a protein of interest. Transfected cells are cultured in the presence of methotrexate (MTX) to produce a plurality of clones. A clone containing plural copy number of the vectors which co-express DHFR and the protein of interest is then selected and cultured. The cultured clone is treated with MTX to enhance the expression of the protein of interest by inducing an increase in transcription without substantially amplifying the genes encoding the protein of interest and DHFR.
Abstract: Disclosed are methods of producing fusion proteins including those with dual biological activities. These methods include the provision of a first and second DNA sequence encoding a first and second polypeptide, repectively, the digestion of the first DNA sequence at a restriction site adjacent its 3' or 5' terminus, and the ligation of a linker/adapter sequence (l/a) to the restricted end of the first DNA sequence, thereby forming a cassette. The l/a includes, at one end, that portion of the first DNA sequence extending from its terminus nearest the restriction site to the restriction site, and at the other end, one side of a splice site. A eucaryotic host cell is transfected with the cassette and the second DNA sequence having, at one end, one side of a splice site compatible with the side of the splice site on the l/a. The transfected host cell is cultured to express the transfected DNA as a single chain fusion protein.
Abstract: Disclosed is a method of increasing production of proteins, e.g., human tPA, in mammalian cells which normally secrete immunoglobulins. Degradation of mRNA transcribed from recombinant DNA is decreased by decreasing the length of the untranslated region of the mRNA. The untranslated region of DNA encoding a protein of interest is altered to produce a shorter recombinant DNA having an untranslated region comprising a poly A addition signal (AATAAA) and less than about 300 nucleotide bases interposed between said poly A signal and the stop codon 3' of the coding region of the gene of interest. The mammalian cell line is transfected and cultured to produce greater amounts of the protein of interest than the same cell line transfected with the unaltered DNA.