Recombinant protein purification in baculovirus-infected Rachiplusia nu larvae: An approach towards a rational design of downstream processing strategies based on chromatographic behavior of proteins.

Expression of recombinant proteins with baculovirus-infected insect larvae is a scarcely investigated alternative in comparison to that in insect cell lines, a system with growing popularity in the field of biotechnology. The aim of this study was to investigate the chromatographic behavior and physicochemical properties of the proteome of Rachiplusia nu larvae infected with recombinant Autographa californica multiple nucleopolyhedrosis virus (AcMNPV), in order to design rational purification strategies for the expression of heterologous proteins in this very complex and little-known system, based on the differential absorption between target recombinant proteins and the system's contaminating ones. Two-dimensional (2D) gel electrophoresis showed differences in the protein patterns of infected and non-infected larvae. Hydrophobic interaction matrices adsorbed the bulk of larval proteins, thus suggesting that such matrices are inappropriate for this system. Only 0.03% and 2.9% of the total soluble protein from the infected larval extract was adsorbed to CM-Sepharose and SP-Sepharose matrices, respectively. Immobilized metal ion affinity chromatography represented a solid alternative because it bound only 1.4% of the total protein, but would increase the cost of the purification process. We concluded that cation-exchange chromatography is the best choice for easy purification of high-isoelectric-point proteins and proteins with arginine tags, since very few contaminating proteins co-eluted with our target protein.

Recombinant peroxidase production in species of lepidoptera frequently found in Argentina.

Horseradish peroxidase isozyme C (HRPC) is an important commercial biocatalyst. In this study, a screening of different lepidopteran species frequently found in Argentina to produce this protein was carried out. Two recombinant viruses were constructed: AcMNPV HRPC polyhedrin-minus (occ-), an intrahemocelical infective virus; and AcMNPV HRPC polyhedrin-plus (occ+), to achieve an oral infective baculovirus. Each lepidopteran species was infected either with AcMNPV HRPC occ- or AcMNPV HRPC occ+ and the harvesting days post-infection (dpi) were optimized. All species were susceptible to AcMNPV HRPC occ- infection, giving Spodoptera frugiperda the best yield: 41 µg per larva. Rachiplusia nu was highly susceptible to oral infection, reaching 22 µg per larva at 4 dpi. HRPC was purified by IMAC from S. frugiperda extracts with a yield of 86% and a purification factor of 29.