The human granulocyte colony-stimulating factor (G-CSF) is one of the hematopoietic growth factors administered for chemotherapy induced neutropenia and is currently produced through recombinant route in Escherichia coli. The methylotrophic unicellular yeast Pichia pastoris (syn. Komagataella phaffii) makes a good host for production of human therapeutics as the proteins are low-mannose glycosylated, disulfide bonded and correctly folded on their way to the cell exterior. Given the low level of production of G-CSF in P. pastoris, the present study examined modification of the Saccharomyces cerevisiae derived α-mating type secretory signal sequence to enhance its production. The substitution of Glu, at the P1' position of the Kex2 cleavage site, by Val/Ala led to extracellular production of ~ 60mg/L of G-CSF in the extracellular medium. Production was further increased to ~ 100mg/L by putting these mutations against rarely occurring methanol slow utilization P. pastoris X-33 host. Analysis of the modelled structure of the signal peptide indicated exposed loop structures, created by presence of Val/Ala, that favour cleavage by the Kex2 peptidase thereby leading to enhanced production of G-CSF. The conformational changes, induced on account of binding between the signal sequence and the cargo protein (G-CSF), also appear to play an important role in the final yield of the extracellular protein.
Read full abstract