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Improving Influenza HA-Vlps Production in Insect High Five Cells via Adaptive Laboratory Evolution

Ricardo Correia, Bárbara Fernandes, Paula M. Alves, Manuel J.T. Carrondo, António Roldão

2020Vaccines24 citationsDOIOpen Access PDF

Abstract

The use of non-standard culture conditions has proven efficient to increase cell performance and recombinant protein production in different cell hosts. However, the establishment of high-producing cell populations through adaptive laboratory evolution (ALE) has been poorly explored, in particular for insect cells. In this study, insect High Five cells were successfully adapted to grow at a neutral culture pH (7.0) through ALE for an improved production of influenza hemagglutinin (HA)-displaying virus-like particles (VLPs). A stepwise approach was used for the adaptation process, in which the culture pH gradually increased from standard 6.2 to 7.0 (ΔPh = 0.2-0.3), and cells were maintained at each pH value for 2-3 weeks until a constant growth rate and a cell viability over 95% were observed. These adapted cells enabled an increase in cell-specific HA productivity up to three-fold and volumetric HA titer of up to four-fold as compared to non-adapted cells. Of note, the adaptation process is the element driving increased specific HA productivity as a pH shift alone was inefficient at improving productivities. The production of HA-VLPs in adapted cells was successfully demonstrated at the bioreactor scale. The produced HA-VLPs show the typical size and morphology of influenza VLPs, thus confirming the null impact of the adaptation process and neutral culture pH on the quality of HA-VLPs produced. This work strengthens the potential of ALE as a bioprocess engineering strategy to improve the production of influenza HA-VLPs in insect High Five cells.

Topics & Concepts

Hemagglutinin (influenza)BioprocessBiologyCell cultureBioreactorChemistryCell biologyVirusVirologyBotanyGeneticsPaleontologyViral Infectious Diseases and Gene Expression in InsectsCRISPR and Genetic EngineeringMicrobial Metabolic Engineering and Bioproduction
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