Pharmaceuticals (Apr 2024)

Comprehensive Ocular and Systemic Safety Evaluation of Polysialic Acid-Decorated Immune Modulating Therapeutic Nanoparticles (PolySia-NPs) to Support Entry into First-in-Human Clinical Trials

  • Anitha Krishnan,
  • David G. Callanan,
  • Victor G. Sendra,
  • Amit Lad,
  • Sunny Christian,
  • Ravinder Earla,
  • Ali Khanehzar,
  • Andrew J. Tolentino,
  • Valory Anne Sarmiento Vailoces,
  • Michelle K. Greene,
  • Christopher J. Scott,
  • Derek Y. Kunimoto,
  • Tarek S. Hassan,
  • Mohamed A. Genead,
  • Michael J. Tolentino

DOI
https://doi.org/10.3390/ph17040481
Journal volume & issue
Vol. 17, no. 4
p. 481

Abstract

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An inflammation-resolving polysialic acid-decorated PLGA nanoparticle (PolySia-NP) has been developed to treat geographic atrophy/age-related macular degeneration and other conditions caused by macrophage and complement over-activation. While PolySia-NPs have demonstrated pre-clinical efficacy, this study evaluated its systemic and intraocular safety. PolySia-NPs were evaluated in vitro for mutagenic activity using Salmonella strains and E. coli, with and without metabolic activation; cytotoxicity was evaluated based on its interference with normal mitosis. PolySia-NPs were administered intravenously in CD-1 mice and Sprague Dawley rats and assessed for survival and toxicity. Intravitreal (IVT) administration in Dutch Belted rabbits and non-human primates was assessed for ocular or systemic toxicity. In vitro results indicate that PolySia-NPs did not induce mutagenicity or cytotoxicity. Intravenous administration did not show clastogenic activity, effects on survival, or toxicity. A single intravitreal (IVT) injection and two elevated repeat IVT doses of PolySia-NPs separated by 7 days in rabbits showed no signs of systemic or ocular toxicity. A single IVT inoculation of PolySia-NPs in non-human primates demonstrated no adverse clinical or ophthalmological effects. The demonstration of systemic and ocular safety of PolySia-NPs supports its advancement into human clinical trials as a promising therapeutic approach for systemic and retinal degenerative diseases caused by chronic immune activation.

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