E. coli: The ideal transport for next-gen vaccines?

University at Buffalo researchers experimenting with harmless strains of E. coli (the majority of E. coli are safe and important to healthy human digestion) are working toward that goal. They have developed an E. coli-based transport capsule designed to help next-generation vaccines do a more efficient and effective job than today’s immunizations.

The study highlights the capsule’s success in fighting pneumococcal disease, an infection that can result in pneumonia, sepsis, ear infections and meningitis.

“It’s a bit counterintuitive given what you hear about E. coli, but there are many strains of the bacteria, most of which are perfectly normal in the body, that have great potential to fight disease,” said Blaine A. Pfeifer, PhD, associate professor of chemical and biological engineering in the University at Buffalo School of Engineering and Applied Sciences.

Pfeifer is the study’s co-lead author along with his former student Charles H. Jones, PhD, who is leading efforts to commercialize the biotechnology as CEO and founder of Buffalo, New York-based startup Abcombi Biosciences.

Ecoli trasport capsule

The core of the transport capsule the team developed is harmless E. coli. Around the bacteria, the researchers wrapped a synthetic polymer that resembles a chain link fence. The positive-charged polymer, combined with the negative-charged bacteria cell wall, create a sort of hybrid capsule.

To test the capsule, the researchers then inserted a protein-based vaccine designed to fight pneumococcal disease. The results, when tested in mice, were impressive.

The capsule’s hybrid design provided:

  • Both passive and active targeting of specific immune cells called antigen-presenting cells that trigger an immune response.
  • Natural and multicomponent adjuvant properties, which enhance the body’s immune response.
  • Dual intracellular delivery mechanisms to direct a particular immune response.
  • Simultaneous production and delivery of the components (antigens) required for a vaccine.
  • Strong vaccination protection capabilities against pneumococcal disease.

It’s also relatively inexpensive to create and flexible in terms of use. For example, the capsule could be used as a delivery device for therapies that target cancer, viral-based infectious disease and other illnesses

[Via: buffalo.edu | doi:10.1126/sciadv.1600264]

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