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Design and Generation of Self-Assembling Peptide Virus-like Particles with Intrinsic GPCR Inhibitory Activity

  1. Author:
    Tarasov,Sergey
    Dyba,Marzena
    Yu, Joshua
    Tarasova,Nadya

  2. Author Address

    Structural Biophysics Laboratory, National Cancer Institute, Frederick, MD, USA., Basic Science Program, Frederick National Laboratory for Cancer Research, Frederick, MD, USA., Laboratory of Cancer Immunometabolism, National Cancer Institute, Frederick, MD, USA., Laboratory of Cancer Immunometabolism, National Cancer Institute, Frederick, MD, USA. Nadya.Tarasova@nih.gov.,
    1. Year: 2021
    1. 2208
    2. Pages: 135-148
  3. Type of Article: Book Chapter
  1. Abstract:

    Synthetic analogs of the second transmembrane domain (TM) containing a portion of the extracellular loop 1 of G-protein-coupled receptors (GPCR) can serve as biased antagonists of the corresponding receptor. Analogs with negative charges added to the extracellular end self-assemble into round structures. Addition of polyethylene glycol chains of defined length to the C-terminus of the peptides prevents super aggregation and results in highly uniform particles that can fuse with cell membranes spontaneously. Added PEG chains slow down cell fusion, while attachment of receptor ligands to the surface of particles results in receptor-mediated membrane fusion and cell-selective delivery. Critical assembly concentration of TM peptide particles is in the nanomolar range and thus requires nontraditional methods of determination. In this chapter, we outline sequence selection and design of self-assembling GPCR antagonists, methods of the preparation of the nanoparticles, and biophysical methods of particle characterization. The protocols allow for straightforward rational design, generation, and characterization of self-assembling GPCR antagonists for a variety of applications.

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  2. DOI: 10.1007/978-1-0716-0928-6_9
  3. PMID: 32856260

Library Notes

  1. Fiscal Year: FY2020-2021
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