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Enhanced Recombinant Protein Expression in Insect Cells by Natural and Recombinant Components of Lepidoptera Hemolymph.

Javier López-VidalSusana Martínez-PulgarínDiego Martínez-AlonsoMiguel CidJosé M Escribano
Published in: Viruses (2024)
Prior research has established the anti-apoptotic effects in insect cell cultures of Bombyx mori ( B. mori ) hemolymph, as well as the heightened production yields of recombinant proteins facilitated by baculovirus vectors in insect cells cultivated in media supplemented with this hemolymph. In this study, we investigated the hemolymph of another Lepidoptera species, Trichoplusia ni ( T. ni ), and observed similar beneficial effects in insect cells cultivated in media supplemented with this natural substance. We observed enhancements in both production yield (approximately 1.5 times higher) and late-stage cell viabilities post-infection (30-40% higher). Storage-protein 2 from B. mori (SP2Bm) has previously been identified as one of the abundant hemolymph proteins potentially responsible for the beneficial effects observed after the use of B. mori hemolymph-supplemented cell culture media. By employing a dual baculovirus vector that co-expresses the SP2Bm protein alongside the GFP protein, we achieved a threefold increase in reporter protein production compared to a baculovirus vector expressing GFP alone. This study underscores the potential of hemolymph proteins sourced from various Lepidoptera species as biotechnological tools to augment baculovirus vector productivities, whether utilized as natural supplements in cell culture media or as hemolymph-derived recombinant proteins co-expressed by baculovirus vectors.
Keyphrases
  • induced apoptosis
  • cell cycle arrest
  • cell death
  • amino acid
  • single cell
  • cell free
  • stem cells
  • aedes aegypti
  • oxidative stress
  • mesenchymal stem cells
  • crispr cas
  • mass spectrometry
  • risk assessment
  • cell proliferation