To circumvent cell wall retention commonly associated to Saccharomyces cerevisiae when used as a host for heterologous protein production, we have created a translational fusion of human interleukin-1β (IL-1β) to the Pir4 cell wall protein, so as to drive the secretion of the recombinant product to the growth medium. The auxotrophic S. cerevisiae BY4741 was used as host to express the Pir4-IL1β fusion protein. Once it was ascertained that the fusion protein was secreted to the culture medium andbehaved as a growth-linked product, S. cerevisiae BY4741 [PIR4-IL1β] was cultured in an aerated fed-batch reactor to achieve high cell density and, consequently, high product concentration in the medium. Two cultivation media were employed, a rich complex and a defined mineral medium, the latter suitably supplemented with bacto-casamino acids as ACA (auxotrophy-complementing amino acid) source. The rich complex medium allowed a good performance of the producer strain only during batch growth, but was revealed to be inadequate for long-term fed-batch operations. The defined mineral medium ensured a better performance, even though not yet satisfactory in spite of a proper ACA supplementation. The behaviour of BY4741 was attributed to an intrinsic sensitivity of the producerstrain to long-term aerated fed-batch operations.
Expression of human interleukin-1β in Saccharomyces cerevisiae using PIR4 as fusion partner and production in aerated fed-batch reactor.
PACIELLO, LUCIA;PARASCANDOLA, Palma
2010-01-01
Abstract
To circumvent cell wall retention commonly associated to Saccharomyces cerevisiae when used as a host for heterologous protein production, we have created a translational fusion of human interleukin-1β (IL-1β) to the Pir4 cell wall protein, so as to drive the secretion of the recombinant product to the growth medium. The auxotrophic S. cerevisiae BY4741 was used as host to express the Pir4-IL1β fusion protein. Once it was ascertained that the fusion protein was secreted to the culture medium andbehaved as a growth-linked product, S. cerevisiae BY4741 [PIR4-IL1β] was cultured in an aerated fed-batch reactor to achieve high cell density and, consequently, high product concentration in the medium. Two cultivation media were employed, a rich complex and a defined mineral medium, the latter suitably supplemented with bacto-casamino acids as ACA (auxotrophy-complementing amino acid) source. The rich complex medium allowed a good performance of the producer strain only during batch growth, but was revealed to be inadequate for long-term fed-batch operations. The defined mineral medium ensured a better performance, even though not yet satisfactory in spite of a proper ACA supplementation. The behaviour of BY4741 was attributed to an intrinsic sensitivity of the producerstrain to long-term aerated fed-batch operations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.