Aims: To design and investigate a recombinant expression system producing a therapeutically important glycoprotein, human erythropoietin (rHuEPO), by Pichia pastoris. Methods and Results: EPO cDNA was cloned into pPICZaA for expression under control of AOX1 promoter and fused, on the amino-terminal end, with a polyhistidine tag for rapid purification. A target site for factor Xa protease was also introduced, such that cleavage in vitro produced a mature form of rHuEPO having the native N-and C-termini. RHuEPO was characterized as to the extent and nature of N-linked glycosylation using matrix-assisted laser desorption ⁄ ionization time-of-flight mass spectrometry and western blotting. The rHuEPO produced was approximately 30 kDa. All three N-linked glycosylation sites were occupied dominantly by Man 17 (GlcNAc) 2 . N-glycanase-treated rHuEPO purified but not digested with factor-Xa-protease, showed a spectral peak centered about m ⁄ z 20400 Da. Conclusions: The native polypeptide form of human EPO (c. 18 kDa) was obtained for the first time in P. pastoris expression system, after affinity purification, deglycosylation and factor-Xa-protease digestion. The amount of sodium dodecyl sulfate used prior to deglycosylation was found to be crucial in determining the dominant form of glycan in glycoproteins. Significance and Impact of the Study: The novel approaches to protein expression and purification system and structural analysis presented, would be important especially for therapeutic proteins expressed in P. pastoris.
Four different forms of human epidermal growth factor (h-EGF) are found in the culture medium of a recombinant strain of Saccharomyces cerevisiae. These forms were characterized after purification using reverse-phase high-performance liquid chromatography. The most abundant form of secreted recombinant h-EGF has leucine at the carboxyl terminus and is identical with gamma-urogastrone. A second species is identical with the most abundant form except that it lacks the carboxyl-terminal leucine. This form appears to be the product of a carboxypeptidase found in the growth medium. The other two forms of recombinant h-EGF are the respective oxidation products of the above where the single methionine residue has been converted to methionine sulfoxide. These four forms of recombinant h-EGF are fully active; they bind to the EGF receptor of A431 cells as well as stimulate mitotic activity of human foreskin fibroblasts with equal specific activity. The location of the disulfide bonds in the predominant form of recombinant h-EGF was determined following digestion with thermolysin. The amino acid compositions of the resulting peptides showed that the placement of disulfide bonds in recombinant h-EGF is identical with that in murine EGF.
An expression system in Pichia pastoris for the production and purification of recombinant human growth hormone (rHGH) was designed and implemented. hGH cDNA sequence was cloned into pPICZRA vector under the control of AOX1 promoter, which included a polyhistidinetag on the amino terminal end to enable affinity purification and a target site for Factor Xa protease such that protease cleavage in vitro would produce rhGH without any non-native Nand C-termini. Analyses of the affinity-purified rhGH product by matrix-assisted laser desorption/ ionization time-of-flight mass spectrometry (MALDI-TOF MS) showed a spectral peak at m/z 23699. Purified product digested with Factor Xa protease had a molecular mass of 22132 kDa. The molecular mass difference before and after Factor Xa protease digestion expectedly corresponds to the 12 amino acids in the rhGH amino terminus, which includes the EcoRI digestion site (Glu-Phe), the 6xHis tag for affinity purification, and the Factor Xa protease recognition sequence (Ile-Glu-Gly-Arg), a result that also indicates that the signal peptide was properly processed by P. pastoris. N-Terminal sequence analysis of the Factor Xa protease trimmed recombinant product confirmed the mature hGH sequence. Thus, the system designed functioned with its intended purpose effectively in expression, cleavage, and purification of the recombinant product.
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