Intranasal delivery of deferoxamine reduces spatial memory loss in APP/PS1 mice

Intranasal administration, which bypasses the blood–brain barrier and minimizes systemic exposure, is a non-invasive alternative for targeted drug delivery to the brain. While identification of metal dysregulation in Alzheimer’s brain has led to the development of therapeutic metal-binding agents, t...

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Veröffentlicht in:	Drug delivery and translational research 2012-06, Vol.2 (3), p.160-168
Hauptverfasser:	Hanson, Leah R., Fine, Jared M., Renner, Dan B., Svitak, Aleta L., Burns, Rachel B., Nguyen, Thuhien M., Tuttle, Nathan J., Marti, Dianne L., Panter, S. Scott, Frey, William H.
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creator	Hanson, Leah R. Fine, Jared M. Renner, Dan B. Svitak, Aleta L. Burns, Rachel B. Nguyen, Thuhien M. Tuttle, Nathan J. Marti, Dianne L. Panter, S. Scott Frey, William H.
description	Intranasal administration, which bypasses the blood–brain barrier and minimizes systemic exposure, is a non-invasive alternative for targeted drug delivery to the brain. While identification of metal dysregulation in Alzheimer’s brain has led to the development of therapeutic metal-binding agents, targeting to the brain has remained an issue. The purpose of this study was to both determine concentrations of deferoxamine (DFO), a high-affinity iron chelator, reaching the brains of mice after intranasal administration and to determine its efficacy in a mouse model of spatial memory loss. Intranasal administration of DFO (2.4 mg) labeled with 59 Fe (75 μCi) to C57 mice resulted in micromolar concentrations at 30 min within brain parenchyma. After 3 months of intranasal DFO treatment, 2.4 mg three times per week, 48-week-old APP/PS1 mice had significantly reduced escape latencies in Morris water maze compared to vehicle-treated mice. This is the first report that intranasal DFO improves spatial memory in a mouse model of Alzheimer’s disease and demonstrates that intranasal DFO reaches the brain in therapeutic doses.
doi_str_mv	10.1007/s13346-011-0050-2
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title	Intranasal delivery of deferoxamine reduces spatial memory loss in APP/PS1 mice
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