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Fabrication of highly uniform nanoparticles from recombinant silk-elastin-like protein polymers for therapeutic agent delivery.


ABSTRACT: Here we generate silk-elastin-like protein (SELP) polymeric nanoparticles and demonstrate precise control over their dimensions using an electrospray differential mobility analyzer (ES-DMA). Electrospray produces droplets encompassing several polymer strands. Evaporation ensues, leading polymer strands to accumulate at the droplet interface, forming a hollow nanoparticle. The resulting nanoparticle size distributions, which govern particle yield, depend on buffer concentration to the -1/3 power, polymer concentration to the 1/3 power, and ratio of silk-to-elastin blocks. Three recombinantly tuned ratios of 8:16, 4:8, and 4:16, respectively named SELP-815K, SELP-47K, and SELP-415K, are employed, with the latter ratio resulting in a thinner shell and larger diameter for the nanoparticles than the former. The DMA narrows the size distribution by electrostatically classifying the aerosolized nanoparticles. These highly uniform nanoparticles have variations of 1.2 and 1.4 nm for 24.0 and 36.0 nm particles, respectively. Transmission electron microscopy reveals the nanoparticles to be faceted, as a buckling instability releases compression energy arising from evaporation after the shell has formed by bending it. A thermodynamic equilibrium exists between compression and bending energies, where the facet length is half the particle diameter, in agreement with experiments. Rod-like particles also formed from polymer-stabilized filaments when the viscous length exceeds the jet radius at higher solution viscosities. The unusual uniformity in composition and dimension indicates the potential of these nanoparticles to deliver bioactive and imaging agents.

SUBMITTER: Anumolu R 

PROVIDER: S-EPMC3860367 | biostudies-literature | 2011 Jul

REPOSITORIES: biostudies-literature

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Fabrication of highly uniform nanoparticles from recombinant silk-elastin-like protein polymers for therapeutic agent delivery.

Anumolu Rajasekhar R   Gustafson Joshua A JA   Magda Jules J JJ   Cappello Joseph J   Ghandehari Hamidreza H   Pease Leonard F LF  

ACS nano 20110705 7


Here we generate silk-elastin-like protein (SELP) polymeric nanoparticles and demonstrate precise control over their dimensions using an electrospray differential mobility analyzer (ES-DMA). Electrospray produces droplets encompassing several polymer strands. Evaporation ensues, leading polymer strands to accumulate at the droplet interface, forming a hollow nanoparticle. The resulting nanoparticle size distributions, which govern particle yield, depend on buffer concentration to the -1/3 power,  ...[more]

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