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Surface chemistry governs cellular tropism of nanoparticles in the brain

Author

Listed:
  • Eric Song

    (Malone Engineering Center, Yale University)

  • Alice Gaudin

    (Malone Engineering Center, Yale University)

  • Amanda R. King

    (Malone Engineering Center, Yale University)

  • Young-Eun Seo

    (Malone Engineering Center, Yale University)

  • Hee-Won Suh

    (Malone Engineering Center, Yale University)

  • Yang Deng

    (Malone Engineering Center, Yale University)

  • Jiajia Cui

    (Malone Engineering Center, Yale University)

  • Gregory T. Tietjen

    (Malone Engineering Center, Yale University)

  • Anita Huttner

    (Yale University)

  • W. Mark Saltzman

    (Malone Engineering Center, Yale University)

Abstract

Nanoparticles are of long-standing interest for the treatment of neurological diseases such as glioblastoma. Most past work focused on methods to introduce nanoparticles into the brain, suggesting that reaching the brain interstitium will be sufficient to ensure therapeutic efficacy. However, optimized nanoparticle design for drug delivery to the central nervous system is limited by our understanding of their cellular deposition in the brain. Here, we investigated the cellular fate of poly(lactic acid) nanoparticles presenting different surface chemistries, after administration by convection-enhanced delivery. We demonstrate that nanoparticles with ‘stealth’ properties mostly avoid internalization by all cell types, but internalization can be enhanced by functionalization with bio-adhesive end-groups. We also show that association rates measured in cultured cells predict the extent of internalization of nanoparticles in cell populations. Finally, evaluating therapeutic efficacy in an orthotopic model of glioblastoma highlights the need to balance significant uptake without inducing adverse toxicity.

Suggested Citation

  • Eric Song & Alice Gaudin & Amanda R. King & Young-Eun Seo & Hee-Won Suh & Yang Deng & Jiajia Cui & Gregory T. Tietjen & Anita Huttner & W. Mark Saltzman, 2017. "Surface chemistry governs cellular tropism of nanoparticles in the brain," Nature Communications, Nature, vol. 8(1), pages 1-14, August.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms15322
    DOI: 10.1038/ncomms15322
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    Cited by:

    1. Shelei Pan & Peter H. Yang & Dakota DeFreitas & Sruthi Ramagiri & Peter O. Bayguinov & Carl D. Hacker & Abraham Z. Snyder & Jackson Wilborn & Hengbo Huang & Gretchen M. Koller & Dhvanii K. Raval & Gra, 2023. "Gold nanoparticle-enhanced X-ray microtomography of the rodent reveals region-specific cerebrospinal fluid circulation in the brain," Nature Communications, Nature, vol. 14(1), pages 1-16, December.

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