PLoS ONE (Jan 2017)

Increasing vaccine production using pulsed ultrasound waves.

  • Jida Xing,
  • Shrishti Singh,
  • Yupeng Zhao,
  • Yan Duan,
  • Huining Guo,
  • Chenxia Hu,
  • Allan Ma,
  • Rajan George,
  • James Z Xing,
  • Ankarao Kalluri,
  • Isaac Macwan,
  • Prabir Patra,
  • Jie Chen

DOI
https://doi.org/10.1371/journal.pone.0187048
Journal volume & issue
Vol. 12, no. 11
p. e0187048

Abstract

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Vaccination is a safe and effective approach to prevent deadly diseases. To increase vaccine production, we propose that a mechanical stimulation can enhance protein production. In order to prove this hypothesis, Sf9 insect cells were used to evaluate the increase in the expression of a fusion protein from hepatitis B virus (HBV S1/S2). We discovered that the ultrasound stimulation at a frequency of 1.5 MHz, intensity of 60 mW/cm2, for a duration of 10 minutes per day increased HBV S1/S2 by 27%. We further derived a model for transport through a cell membrane under the effect of ultrasound waves, tested the key assumptions of the model through a molecular dynamics simulation package, NAMD (Nanoscale Molecular Dynamics program) and utilized CHARMM force field in a steered molecular dynamics environment. The results show that ultrasound waves can increase cell permeability, which, in turn, can enhance nutrient / waste exchange thus leading to enhanced vaccine production. This finding is very meaningful in either shortening vaccine production time, or increasing the yield of proteins for use as vaccines.