We have designed an advanced delta-integration system (integration of genes into the delta-sequence of yeast retrotransposon Ty) and used it for secretion of human nerve growth factor (hNGF) from Saccharomyces cerevisiae. The expression and secretion of hNGF was directed by the PGK promoter and MF alpha 1 prepro-signal. Using two selectable markers (URA3 and leu2-d), haploid yeast strains were constructed with approximately 20 copies of a delta-integrated hNGF expression cassette on four chromosomes. The strain secreted hNGF at levels 3-4 fold higher than a 2 micron-based plasmid. Northern and Western analyses revealed that the oversecretion was caused by an increased amount of mRNA. We also detected an unusual processing of the MF alpha 1 prepro-hNGF fusion protein that required the pep4 mutation. Application of this system for industrial purposes is discussed.
Nerve growth factor (NGF) is a trophic agent that is essential for the development and survival of sympathetic and sensory nerves. A chemically-synthesized DNA fragment encoding human NGF (hNGF) and a cDNA encoding mouse NGF (mNGF) were engineered for expression in the yeast, Saccharomyces cerevisiae. Expression and secretion of hNGF and mNGF was attempted under the direction of the yeast PGK promoter and with various leader sequences. Among the leader sequences tested, that of the yeast alpha-factor successfully directed secretion of both hNGF and mNGF that were correctly processed. The content of the recombinant NGF (reNGF) in the culture supernatant was estimated to be 1 microgram/ml. The yeast-produced reNGF was able to bind to NGF receptors in rat pheochromocytoma (PC12) cells as efficiently as the standard mNGF, and partially purified reNGF could induce neurite outgrowth of PC12 cells. Thus, we have demonstrated that biologically active human and mouse reNGF can be produced in yeast cells.
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