Production of mouse epidermal growth factor in yeast: high-level secretion using Pichia pastoris strains containing multiple gene copies

We have constructed a synthetic secretion cassette encoding the α-factor prepro leader peptide from Saccharomyces cerevisiae fused to mouse epidermal growth factor (mEGF). This was used to compare the secretion of mEGF, a 53-amino acid polypeptide, in S. cerevisiae and Pichia pastoris. In both yeasts the leader sequence was accurately and efficiently cleaved showing that the S. cerevisiae-derived α-factor prepro region is correctly recognised and processed in P. pastoris. Of the total mEGF produced, over 90% was exported to the culture supernatant, although the final level of accumulation was dependent on the composition of the growth medium. With P. pastoris there was instability of the protein in minimal medium (yeast nitrogen base), probably caused by extracellular proteases. This was overcome by adding 1 % Casamino acids and buffering the medium to pH 6.0. To increase the level of secreted mEGF we have developed a method for rapidly screening large numbers of P. pastoris transformants for the presence of many copies of a foreign gene. Using this procedure we isolated a strain containing 19 integrated copies of the mEGF gene which secreted 450 μg/ml of mEGF in high-density fermentations. Characterisation of the yeast-derived mEGF showed the presence of truncated forms, mEGF1-51 and mEGF1-52, as was found with S. cerevisiae-secreted human EGF [George-Nascimento et al., Biochemistry 27 (1988) 797–802]. In addition, the full-length protein, mEGF 1-53, was secreted by P. pastoris.