Frontiers in Immunology (Nov 2020)

Shaping Modern Vaccines: Adjuvant Systems Using MicroCrystalline Tyrosine (MCT®)

  • Matthew D. Heath,
  • Matthew D. Heath,
  • Mona O. Mohsen,
  • Mona O. Mohsen,
  • Pieter-Jan de Kam,
  • Thalia L. Carreno Velazquez,
  • Simon J. Hewings,
  • Simon J. Hewings,
  • Matthias F. Kramer,
  • Matthias F. Kramer,
  • Thomas M. Kündig,
  • Martin F. Bachmann,
  • Martin F. Bachmann,
  • Murray A. Skinner,
  • Murray A. Skinner

DOI
https://doi.org/10.3389/fimmu.2020.594911
Journal volume & issue
Vol. 11

Abstract

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The concept of adjuvants or adjuvant systems, used in vaccines, exploit evolutionary relationships associated with how the immune system may initially respond to a foreign antigen or pathogen, thus mimicking natural exposure. This is particularly relevant during the non-specific innate stage of the immune response; as such, the quality of this response may dictate specific adaptive responses and conferred memory/protection to that specific antigen or pathogen. Therefore, adjuvants may optimise this response in the most appropriate way for a specific disease. The most commonly used traditional adjuvants are aluminium salts; however, a biodegradable adjuvant, MCT®, was developed for application in the niche area of allergy immunotherapy (AIT), also in combination with a TLR-4 adjuvant—Monophosphoryl Lipid A (MPL®)—producing the first adjuvant system approach for AIT in the clinic. In the last decade, the use and effectiveness of MCT® across a variety of disease models in the preclinical setting highlight it as a promising platform for adjuvant systems, to help overcome the challenges of modern vaccines. A consequence of bringing together, for the first time, a unified view of MCT® mode-of-action from multiple experiments and adjuvant systems will help facilitate future rational design of vaccines while shaping their success.

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