Synthesis and characterization of poly(antioxidant β-amino esters) for controlled release of polyphenolic antioxidants

Paritosh P. Wattamwar; Dipti Biswal; David B. Cochran; Adam C. Lyvers; Richard E. Eitel; Kimberly W. Anderson; J. Zach Hilt; Thomas D. Dziubla

doi:10.1016/j.actbio.2012.03.022

Synthesis and characterization of poly(antioxidant β-amino esters) for controlled release of polyphenolic antioxidants

Paritosh P. Wattamwar, Dipti Biswal, David B. Cochran, Adam C. Lyvers, Richard E. Eitel, Kimberly W. Anderson, J. Zach Hilt, Thomas D. Dziubla

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

Attenuation of cellular oxidative stress, which plays a central role in biomaterial-induced inflammation, provides an exciting opportunity to control the host tissue response to biomaterials. In the case of biodegradable polymers, biomaterial-induced inflammation is often a result of local accumulation of polymer degradation products, hence there is a need for new biomaterials that can inhibit this response. Antioxidant polymers, which have antioxidants incorporated into the polymer backbone, are a class of biomaterials that, upon degradation, release active antioxidants, which can scavenge free radicals and attenuate oxidative stress, resulting in improved material biocompatibility. In this work, we have synthesized poly(antioxidant β-amino ester) (PAβAE) biodegradable hydrogels of two polyphenolic antioxidants, quercetin and curcumin. The degradation characteristics of PAβAE hydrogels and the antioxidant activity of PAβAE degradation products were studied. Treatment of endothelial cells with PAβAE degradation products protected cells from hydrogen-peroxide-induced oxidative stress.

Original language	English
Pages (from-to)	2529-2537
Number of pages	9
Journal	Acta Biomaterialia
Volume	8
Issue number	7
DOIs	https://doi.org/10.1016/j.actbio.2012.03.022
State	Published - Jul 2012

Bibliographical note

Funding Information:
We gratefully acknowledge Dr. James. W. Geddes for access to the fluorescent spectrophotometer and Ranjana Singh for her help with the instrument. We are also grateful to the Department of Chemistry NMR facility. This work was supported by the Office of Naval Research (ONR DEPSCoR).

Keywords

Antioxidant polymers
Biocompatibility
Curcumin
Oxidative stress
Polyphenols

ASJC Scopus subject areas

Biotechnology
Biomaterials
Biochemistry
Biomedical Engineering
Molecular Biology

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10.1016/j.actbio.2012.03.022

Cite this

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title = "Synthesis and characterization of poly(antioxidant β-amino esters) for controlled release of polyphenolic antioxidants",

abstract = "Attenuation of cellular oxidative stress, which plays a central role in biomaterial-induced inflammation, provides an exciting opportunity to control the host tissue response to biomaterials. In the case of biodegradable polymers, biomaterial-induced inflammation is often a result of local accumulation of polymer degradation products, hence there is a need for new biomaterials that can inhibit this response. Antioxidant polymers, which have antioxidants incorporated into the polymer backbone, are a class of biomaterials that, upon degradation, release active antioxidants, which can scavenge free radicals and attenuate oxidative stress, resulting in improved material biocompatibility. In this work, we have synthesized poly(antioxidant β-amino ester) (PAβAE) biodegradable hydrogels of two polyphenolic antioxidants, quercetin and curcumin. The degradation characteristics of PAβAE hydrogels and the antioxidant activity of PAβAE degradation products were studied. Treatment of endothelial cells with PAβAE degradation products protected cells from hydrogen-peroxide-induced oxidative stress.",

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author = "Wattamwar, {Paritosh P.} and Dipti Biswal and Cochran, {David B.} and Lyvers, {Adam C.} and Eitel, {Richard E.} and Anderson, {Kimberly W.} and Hilt, {J. Zach} and Dziubla, {Thomas D.}",

note = "Funding Information: We gratefully acknowledge Dr. James. W. Geddes for access to the fluorescent spectrophotometer and Ranjana Singh for her help with the instrument. We are also grateful to the Department of Chemistry NMR facility. This work was supported by the Office of Naval Research (ONR DEPSCoR). ",

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language = "English",

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AU - Wattamwar, Paritosh P.

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AU - Lyvers, Adam C.

AU - Eitel, Richard E.

AU - Anderson, Kimberly W.

AU - Hilt, J. Zach

AU - Dziubla, Thomas D.

N1 - Funding Information: We gratefully acknowledge Dr. James. W. Geddes for access to the fluorescent spectrophotometer and Ranjana Singh for her help with the instrument. We are also grateful to the Department of Chemistry NMR facility. This work was supported by the Office of Naval Research (ONR DEPSCoR).

PY - 2012/7

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N2 - Attenuation of cellular oxidative stress, which plays a central role in biomaterial-induced inflammation, provides an exciting opportunity to control the host tissue response to biomaterials. In the case of biodegradable polymers, biomaterial-induced inflammation is often a result of local accumulation of polymer degradation products, hence there is a need for new biomaterials that can inhibit this response. Antioxidant polymers, which have antioxidants incorporated into the polymer backbone, are a class of biomaterials that, upon degradation, release active antioxidants, which can scavenge free radicals and attenuate oxidative stress, resulting in improved material biocompatibility. In this work, we have synthesized poly(antioxidant β-amino ester) (PAβAE) biodegradable hydrogels of two polyphenolic antioxidants, quercetin and curcumin. The degradation characteristics of PAβAE hydrogels and the antioxidant activity of PAβAE degradation products were studied. Treatment of endothelial cells with PAβAE degradation products protected cells from hydrogen-peroxide-induced oxidative stress.

AB - Attenuation of cellular oxidative stress, which plays a central role in biomaterial-induced inflammation, provides an exciting opportunity to control the host tissue response to biomaterials. In the case of biodegradable polymers, biomaterial-induced inflammation is often a result of local accumulation of polymer degradation products, hence there is a need for new biomaterials that can inhibit this response. Antioxidant polymers, which have antioxidants incorporated into the polymer backbone, are a class of biomaterials that, upon degradation, release active antioxidants, which can scavenge free radicals and attenuate oxidative stress, resulting in improved material biocompatibility. In this work, we have synthesized poly(antioxidant β-amino ester) (PAβAE) biodegradable hydrogels of two polyphenolic antioxidants, quercetin and curcumin. The degradation characteristics of PAβAE hydrogels and the antioxidant activity of PAβAE degradation products were studied. Treatment of endothelial cells with PAβAE degradation products protected cells from hydrogen-peroxide-induced oxidative stress.

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KW - Oxidative stress

KW - Polyphenols

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Synthesis and characterization of poly(antioxidant β-amino esters) for controlled release of polyphenolic antioxidants

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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