Nagaraj Govindappa

PMT1 gene plays a major role in O-mannosylation of insulin precursor in Pichia pastoris

Protein mannosyltransferases (PMTs) catalyze the O-mannosylation of serine and threonine residues of proteins in the endoplasmic reticulum. The five PMT genes coding for protein mannosyltransferases, designated as PMT1, 2, 4, 5 and 6, were identified from Pichia pastoris genome based on the homology to PMT genes in Saccharomyces cerevisiae genome, which has seven PMT genes. The homologues of S. cerevisiae PMT 3 &7 genes are absent in P. pastoris genome. Approximately 5% of the recombinant insulin precursor expressed in P. pastoris is O-mannosylated. In this study, we attempted to prevent O-mannosylation of insulin precursor in vivo, through inactivation of the Pichia PMT genes. Since multiple PMTs are found to be expressed, it was important to understand which of these are involved in O-mannosylation of the insulin precursor. The genes encoding PMT1, 4, 5 and 6 were knocked out by insertional inactivation method. Inactivation of PMT genes 4, 5 and 6 showed ∼16-28% reductions in the O-mannosylation of insulin precursor. The PMT1 gene disrupted Pichia clone showed ∼60% decrease in O-mannosylated insulin precursor, establishing its role as an important enzyme for insulin precursor O-mannosylation.

Identification of the dipeptidyl aminopeptidase responsible for N-terminal clipping of recombinant Exendin-4 precursor expressed in Pichia pastoris

Exendin-4 is a naturally occurring 39 amino acid peptide that is useful for the control of Type 2 diabetes. Recombinant Exendin-4, with an extra glycine at the carboxy-terminus (Exdgly), was expressed in the methylotropic yeast Pichia pastoris. A high proportion of the Exdgly molecules secreted into medium were found to be clipped, lacking the first two amino acids (His-Gly) from the N-terminus. Disruption of the P. pastoris homolog of the Saccharomyces cerevisiae dipeptidyl aminopeptidase (STE13) gene in Pichia genome resulted in a clone that expressed N-terminally intact Exdgly. Elimination of N-terminal clipping enhanced the yield and simplified the purification of Exdgly from P. pastoris culture supernatant.

Isolation, characterization and evaluation of the Pichia pastoris sorbitol dehydrogenase promoter for expression of heterologous proteins.

Sorbitol is used as a non-repressive carbon source to develop fermentation process for Mut(s) recombinant clones obtained using the AOX1 promoter in Pichia pastoris. Sorbitol dehydrogenase is an enzyme in the carbohydrate metabolism that catalyzes reduction of D-fructose into D-sorbitol in the presence of NADH. The small stretch of 211bps upstream region of sorbitol dehydrogenase coding gene has all the promoter elements like CAAT box, GC box, etc. It is able to promote protein production under repressive as well as non-repressive carbon sources. In this study, the strength of the sorbitol dehydrogenase promoter was evaluated by expression of two heterologous proteins: human serum albumin and erythrina trypsin inhibitor. Sorbitol dehydrogenase promoter allowed constitutive expression of recombinant proteins in all carbon sources that were tested to grow P. pastoris and showed activity similar to GAP promoter. The sorbitol dehydrogenase promoter was active in all the growth phases of the P. pastoris.