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Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium

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Zeitschriftentitel: Proceedings of the National Academy of Sciences
Personen und Körperschaften: Nociari, Marcelo M., Lehmann, Guillermo L., Perez Bay, Andres E., Radu, Roxana A., Jiang, Zhichun, Goicochea, Shelby, Schreiner, Ryan, Warren, J. David, Shan, Jufang, Adam de Beaumais, Ségolène, Ménand, Mickaël, Sollogoub, Matthieu, Maxfield, Frederick R., Rodriguez-Boulan, Enrique
In: Proceedings of the National Academy of Sciences, 111, 2014, 14
Format: E-Article
Sprache: Englisch
veröffentlicht:
Proceedings of the National Academy of Sciences
Schlagwörter:
Multidisciplinary
author_facet Nociari, Marcelo M.
Lehmann, Guillermo L.
Perez Bay, Andres E.
Radu, Roxana A.
Jiang, Zhichun
Goicochea, Shelby
Schreiner, Ryan
Warren, J. David
Shan, Jufang
Adam de Beaumais, Ségolène
Ménand, Mickaël
Sollogoub, Matthieu
Maxfield, Frederick R.
Rodriguez-Boulan, Enrique
Nociari, Marcelo M.
Lehmann, Guillermo L.
Perez Bay, Andres E.
Radu, Roxana A.
Jiang, Zhichun
Goicochea, Shelby
Schreiner, Ryan
Warren, J. David
Shan, Jufang
Adam de Beaumais, Ségolène
Ménand, Mickaël
Sollogoub, Matthieu
Maxfield, Frederick R.
Rodriguez-Boulan, Enrique
author Nociari, Marcelo M.
Lehmann, Guillermo L.
Perez Bay, Andres E.
Radu, Roxana A.
Jiang, Zhichun
Goicochea, Shelby
Schreiner, Ryan
Warren, J. David
Shan, Jufang
Adam de Beaumais, Ségolène
Ménand, Mickaël
Sollogoub, Matthieu
Maxfield, Frederick R.
Rodriguez-Boulan, Enrique
spellingShingle Nociari, Marcelo M.
Lehmann, Guillermo L.
Perez Bay, Andres E.
Radu, Roxana A.
Jiang, Zhichun
Goicochea, Shelby
Schreiner, Ryan
Warren, J. David
Shan, Jufang
Adam de Beaumais, Ségolène
Ménand, Mickaël
Sollogoub, Matthieu
Maxfield, Frederick R.
Rodriguez-Boulan, Enrique
Proceedings of the National Academy of Sciences
Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
Multidisciplinary
author_sort nociari, marcelo m.
spelling Nociari, Marcelo M. Lehmann, Guillermo L. Perez Bay, Andres E. Radu, Roxana A. Jiang, Zhichun Goicochea, Shelby Schreiner, Ryan Warren, J. David Shan, Jufang Adam de Beaumais, Ségolène Ménand, Mickaël Sollogoub, Matthieu Maxfield, Frederick R. Rodriguez-Boulan, Enrique 0027-8424 1091-6490 Proceedings of the National Academy of Sciences Multidisciplinary http://dx.doi.org/10.1073/pnas.1400530111 <jats:title>Significance</jats:title> <jats:p>Lipofuscin accumulation in the retinal pigment epithelium (RPE) is a hallmark of aging. High lipofuscin levels in the RPE have been associated with retinal degeneration and blindness in Stargardt disease patients and animal models. Currently, there is no treatment to prevent and/or revert lipofuscin-driven retinal degenerative changes. In this study, we report that beta cyclodextrins, cyclic sugars composed of seven glucose units, can bind retinal lipofuscin, prevent its oxidation and remove it from RPE. This study opens an avenue to develop small drugs against, currently untreatable, lipofuscin-associated blinding disorders.</jats:p> Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium Proceedings of the National Academy of Sciences
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title Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_unstemmed Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_full Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_fullStr Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_full_unstemmed Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_short Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_sort beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
topic Multidisciplinary
url http://dx.doi.org/10.1073/pnas.1400530111
publishDate 2014
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description <jats:title>Significance</jats:title> <jats:p>Lipofuscin accumulation in the retinal pigment epithelium (RPE) is a hallmark of aging. High lipofuscin levels in the RPE have been associated with retinal degeneration and blindness in Stargardt disease patients and animal models. Currently, there is no treatment to prevent and/or revert lipofuscin-driven retinal degenerative changes. In this study, we report that beta cyclodextrins, cyclic sugars composed of seven glucose units, can bind retinal lipofuscin, prevent its oxidation and remove it from RPE. This study opens an avenue to develop small drugs against, currently untreatable, lipofuscin-associated blinding disorders.</jats:p>
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author Nociari, Marcelo M., Lehmann, Guillermo L., Perez Bay, Andres E., Radu, Roxana A., Jiang, Zhichun, Goicochea, Shelby, Schreiner, Ryan, Warren, J. David, Shan, Jufang, Adam de Beaumais, Ségolène, Ménand, Mickaël, Sollogoub, Matthieu, Maxfield, Frederick R., Rodriguez-Boulan, Enrique
author_facet Nociari, Marcelo M., Lehmann, Guillermo L., Perez Bay, Andres E., Radu, Roxana A., Jiang, Zhichun, Goicochea, Shelby, Schreiner, Ryan, Warren, J. David, Shan, Jufang, Adam de Beaumais, Ségolène, Ménand, Mickaël, Sollogoub, Matthieu, Maxfield, Frederick R., Rodriguez-Boulan, Enrique, Nociari, Marcelo M., Lehmann, Guillermo L., Perez Bay, Andres E., Radu, Roxana A., Jiang, Zhichun, Goicochea, Shelby, Schreiner, Ryan, Warren, J. David, Shan, Jufang, Adam de Beaumais, Ségolène, Ménand, Mickaël, Sollogoub, Matthieu, Maxfield, Frederick R., Rodriguez-Boulan, Enrique
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description <jats:title>Significance</jats:title> <jats:p>Lipofuscin accumulation in the retinal pigment epithelium (RPE) is a hallmark of aging. High lipofuscin levels in the RPE have been associated with retinal degeneration and blindness in Stargardt disease patients and animal models. Currently, there is no treatment to prevent and/or revert lipofuscin-driven retinal degenerative changes. In this study, we report that beta cyclodextrins, cyclic sugars composed of seven glucose units, can bind retinal lipofuscin, prevent its oxidation and remove it from RPE. This study opens an avenue to develop small drugs against, currently untreatable, lipofuscin-associated blinding disorders.</jats:p>
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spelling Nociari, Marcelo M. Lehmann, Guillermo L. Perez Bay, Andres E. Radu, Roxana A. Jiang, Zhichun Goicochea, Shelby Schreiner, Ryan Warren, J. David Shan, Jufang Adam de Beaumais, Ségolène Ménand, Mickaël Sollogoub, Matthieu Maxfield, Frederick R. Rodriguez-Boulan, Enrique 0027-8424 1091-6490 Proceedings of the National Academy of Sciences Multidisciplinary http://dx.doi.org/10.1073/pnas.1400530111 <jats:title>Significance</jats:title> <jats:p>Lipofuscin accumulation in the retinal pigment epithelium (RPE) is a hallmark of aging. High lipofuscin levels in the RPE have been associated with retinal degeneration and blindness in Stargardt disease patients and animal models. Currently, there is no treatment to prevent and/or revert lipofuscin-driven retinal degenerative changes. In this study, we report that beta cyclodextrins, cyclic sugars composed of seven glucose units, can bind retinal lipofuscin, prevent its oxidation and remove it from RPE. This study opens an avenue to develop small drugs against, currently untreatable, lipofuscin-associated blinding disorders.</jats:p> Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium Proceedings of the National Academy of Sciences
spellingShingle Nociari, Marcelo M., Lehmann, Guillermo L., Perez Bay, Andres E., Radu, Roxana A., Jiang, Zhichun, Goicochea, Shelby, Schreiner, Ryan, Warren, J. David, Shan, Jufang, Adam de Beaumais, Ségolène, Ménand, Mickaël, Sollogoub, Matthieu, Maxfield, Frederick R., Rodriguez-Boulan, Enrique, Proceedings of the National Academy of Sciences, Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium, Multidisciplinary
title Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_full Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_fullStr Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_full_unstemmed Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_short Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_sort beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
title_unstemmed Beta cyclodextrins bind, stabilize, and remove lipofuscin bisretinoids from retinal pigment epithelium
topic Multidisciplinary
url http://dx.doi.org/10.1073/pnas.1400530111