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Creators/Authors contains: "Shieh, Aileen"

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  1. ; ; ; ; ; (, Organic & Biomolecular Chemistry)
    Nano-formulated, combinatory therapeutics that control the spatiotemporal aspects of drug release have potential to overcome many of the challenges faced in cancer therapy. Herein, we describe a peptide nanotube functionalized with two anticancer drugs, 5-fluoruracil (5-FU) and camptothecin (CPT). The nanotube was formed via peptide self-assembly, which positioned 5-FU on the surface at the aqueous interface; whereas, CPT was sequestered within the hydrophobic walls. Thus, two different release profiles were observed: rapid release of 5-FU, followed by slower, sustained production of CPT. This profile emerged from the rapid hydrolytic cleavage of 5-FU at the aqueous/nanotube interface, which produced a smaller nanotube comprised of the peptide fragment. 
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  2. ; ; ; (, Chemical Communications)
    null (Ed.)
    The self-assembly and covalent crosslinking of a camptothecin (CPT) tetrapeptide nanotube is reported. Intermolecular disulfide bond formation of a self-assembled CPT-peptide reversibly stabilized the nanotubes toward dissociation at low concentrations, resulting in inhibited release of CPT. In the presence of dithiothreitol (DTT), the release of CPT was significantly accelerated. The crosslinked nanotubes also exhibited in vitro cytotoxicity against human non-small cell lung cancer cell lines A549 and H460. 
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  3. ; ; ; ; (, Chemical Communications)
    This work demonstrates that sonication, followed by polymer-wrapping, is an effective strategy to modulate the length of self-assembled nanotubes. The length distributions of the nanotubes were controlled by varying the amplitude of sonication. Wrapping the nanotubes with ionic polymers suspended the propensity of the nanotube fragments to re-assemble over time into their elongated precursors. 
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  4. ; ; ; ; ; ; ; (, Bioorganic & Medicinal Chemistry Letters)
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  5. ; ; ; ; ; ; (, Chemical Communications)
    null (Ed.)
    The self-assembly of 5-fluorouracil dilysine conjugates into self-supporting hydrogels, comprised of entangled nanofibers or rigid nanotubes with diameters of 10 and 16 nm, respectively, is reported. The rate of release of 5-Fu from the conjugates was highly dependent on concentration in solution, whereas, release from the fully formed hydrogels was significantly slower. The 5-Fu conjugate also exhibited promising in vitro cytotoxicity against human tumor cell lines A549, H460 and H23. 
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