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Developing a Dissociative Nanocontainer for Peptide Drug Delivery

Author

Listed:
  • Patrick Kelly

    (Hunter College and The Graduate Center, City University of New York, Belfer Research Building, 413 E. 69th Street, New York, NY 10021, USA)

  • Prachi Anand

    (Hunter College and The Graduate Center, City University of New York, Belfer Research Building, 413 E. 69th Street, New York, NY 10021, USA)

  • Alexander Uvaydov

    (Hunter College and The Graduate Center, City University of New York, Belfer Research Building, 413 E. 69th Street, New York, NY 10021, USA)

  • Srinivas Chakravartula

    (Hunter College and The Graduate Center, City University of New York, Belfer Research Building, 413 E. 69th Street, New York, NY 10021, USA)

  • Chhime Sherpa

    (Hunter College and The Graduate Center, City University of New York, Belfer Research Building, 413 E. 69th Street, New York, NY 10021, USA)

  • Elena Pires

    (Hunter College and The Graduate Center, City University of New York, Belfer Research Building, 413 E. 69th Street, New York, NY 10021, USA)

  • Alison O’Neil

    (Stem Cell and Regenerative Biology Department, Harvard University, 7 Divinity Ave, Cambridge, MA 02138, USA)

  • Trevor Douglas

    (Department of Chemistry, Indiana University, 800 E. Kirkwood Ave., Bloomington, IN 47405, USA)

  • Mandë Holford

    (Hunter College and The Graduate Center, City University of New York, Belfer Research Building, 413 E. 69th Street, New York, NY 10021, USA
    The American Museum of Natural History, Central Park West & 79th Street, New York, NY 10024, USA)

Abstract

The potency, selectivity, and decreased side effects of bioactive peptides have propelled these agents to the forefront of pharmacological research. Peptides are especially promising for the treatment of neurological disorders and pain. However, delivery of peptide therapeutics often requires invasive techniques, which is a major obstacle to their widespread application. We have developed a tailored peptide drug delivery system in which the viral capsid of P22 bacteriophage is modified to serve as a tunable nanocontainer for the packaging and controlled release of bioactive peptides. Recent efforts have demonstrated that P22 nanocontainers can effectively encapsulate analgesic peptides and translocate them across blood-brain-barrier (BBB) models. However, release of encapsulated peptides at their target site remains a challenge. Here a Ring Opening Metathesis Polymerization (ROMP) reaction is applied to trigger P22 nanocontainer disassembly under physiological conditions. Specifically, the ROMP substrate norbornene (5-Norbornene-2-carboxylic acid) is conjugated to the exterior of a loaded P22 nanocontainer and Grubbs II Catalyst is used to trigger the polymerization reaction leading to nanocontainer disassembly. Our results demonstrate initial attempts to characterize the ROMP-triggered release of cargo peptides from P22 nanocontainers. This work provides proof-of-concept for the construction of a triggerable peptide drug delivery system using viral nanocontainers.

Suggested Citation

  • Patrick Kelly & Prachi Anand & Alexander Uvaydov & Srinivas Chakravartula & Chhime Sherpa & Elena Pires & Alison O’Neil & Trevor Douglas & Mandë Holford, 2015. "Developing a Dissociative Nanocontainer for Peptide Drug Delivery," IJERPH, MDPI, vol. 12(10), pages 1-13, October.
  • Handle: RePEc:gam:jijerp:v:12:y:2015:i:10:p:12543-12555:d:56852
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    More about this item

    Keywords

    peptide therapeutics; nanocontainers; drug delivery; P22 bacteriophage; viral capsid; ROMP; controlled disassembly; triggered release; Grubbs catalyst; venom peptides;
    All these keywords.

    JEL classification:

    • P22 - Political Economy and Comparative Economic Systems - - Socialist and Transition Economies - - - Prices

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