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Ultrasmall dual-modality silica nanoparticle drug conjugates: Design, synthesis, and characterization. | LitMetric

Ultrasmall dual-modality silica nanoparticle drug conjugates: Design, synthesis, and characterization.

Bioorg Med Chem

Department of Radiology, Sloan Kettering Institute for Cancer Research, New York, NY 10065, United States; Molecular Pharmacology and Chemistry Program, Sloan Kettering Institute for Cancer Research, New York, NY 10065, United States. Electronic address:

Published: November 2015

AI Article Synopsis

  • Designing effective nanotherapeutic agents for cancer treatment involves ensuring optimal delivery and minimal toxicity, which is complex and challenging.
  • This research focuses on creating dual-modality nanoparticle drug conjugates (NDCs) that use special linkers to attach drugs and imaging labels to small silica nanoparticles (C' dots).
  • The NDCs show promising results with rapid drug release in the presence of specific enzymes and have demonstrated efficacy in reducing cancer-related protein levels in human tumor cells, indicating their potential for further development in cancer therapy.

Article Abstract

The physicochemical design and synthesis of effective cancer-directed and particle-based nanotherapeutic imaging agents remains a challenging task. Of critical importance is the ability to demonstrate maximum delivery, retention, and treatment efficacy for platforms designed to deposit their cargo at sites of disease without attendant dose-limiting toxicity. In this work, we describe dual-modality nanoparticle drug conjugates (NDCs) which utilize protease sensitive linkers to attached drug compounds and imaging labels to a clinically translated class of ultrasmall silica nanoparticle (C' dots). We describe the synthesis and characterization of these linker-drug constructs. Linkers incorporating dipeptide enzyme substrates are attached to analogs of a prototypical epidermal growth factor receptor tyrosine kinase inhibitor (EGFR-TKI), through a cleavable amide bond or para-aminobenzyloxycarbonyl (PABC) group. These constructs are conjugated onto C' dots leading to the desired NDCs. These NDCs exhibit fast and predictable release kinetics in the presence of model proteases, and are stable in various biological media. Finally, in vitro assays show NDCs to be highly active in reducing phosphorylated EGFR levels in H1650 cells, a human tumor-derived cell line. The data suggests that NDCs exhibit desirable properties that warrant further development toward oncological therapy.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4842310PMC
http://dx.doi.org/10.1016/j.bmc.2015.09.050DOI Listing

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