Antimicrobial and antioxidant properties of photodegraded amorphous curcumin on silica nanoparticles.

Antimicrobial and antioxidant properties of photodegraded amorphous curcumin on silica nanoparticles.

This work utilizes the concept of curcumin amorphization to improve drawbacks currently found if it is used as a pharmaceutical ingredient, such as low solubility, limited bioavailability, and absorption, by anchoring it with silica nanoparticles (SiO2NP). Curcumin loading was determined following kinetic and adsorption parameters, resulting in more than 70% of the curcumin being loaded onto nanoparticles after 180 min. The adjusted data resulted in a Langmuir and BET best-fit with a coefficient relating to favorable adsorption and a multilayer mechanism. With a reduction of more than 70% of the particle area after curcumin loading, it increased the SiO2NP size. Due to curcumin, FTIR data presented a free unbounded vibration of SiO2NP, disappearing in favor of a chemical reaction. The XRD pattern showed complete amorphization of curcumin after loading, resulting in a drug release under ethanol of up to 41% in 30 days. To improve this, photodegradation on SiO2NP with curcumin was performed, showing a vast improvement of the antioxidant activity (ABTS and DPPH) after 72 h, related to the degradation products that were hydrophilic but still lower than pure curcumin, demonstrating the protection effect of SiO2NP. These led to an increase in antimicrobial potential against fungus and Gram-negative and Gram-positive bacteria when anchored and photodegraded, related to their depolymerization. Docking studies were conducted to assess the antibacterial effect, revealing that the conjugated double bond, a common region for photolysis, remains prominent, even when curcumin is anchored. Interestingly, anchoring curcumin with nanosilica enhances the efficacy, potentially attributed to its antioxidant ability. By anchoring curcumin on nanosilica and performing posterior photolysis, enhanced benefits were achieved by providing support for the degraded products to act in targeted applications such as cancer that can promote stable drug release. KEYWORDS: curcumin, amorphization, photodegradation, antimicrobial potential, controlled drug re

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Main Authors: QUELÉ, L. N. dos S., MATOS, M. de, LIMA, G. G. de, BRUGNARI, T., RIBEIRO, C. S. P., PEDRO, A. C., CADEMARTORI, P. H. G. de, MAGALHAES, W. L. E.
Other Authors: LUANA NUNES DOS SANTOS QUELÉ; MAURICIO DE MATOS, SENAI; GABRIEL GOETTEN DE LIMA, TECHNOLOGICAL UNIVERSITY OF THE SHANNON; TATIANE BRUGNARI, UNIVERSIDADE FEDERAL DO PARANÁ; CAROLINA SIMÕES PIRES RIBEIRO, UNIVERSIDADE FEDERAL DO PARANÁ; ALESSANDRA CRISTINA PEDRO; PEDRO HENRIQUE GONZALEZ DE CADEMARTORI, UNIVERSIDADE FEDERAL DO PARANÁ; WASHINGTON LUIZ ESTEVES MAGALHAES, CNPF.
Format: Artigo de periódico biblioteca
Language:eng
Published: 2024-11-12
Subjects:Ontrolled drug release, Antimicrobial potential, Amorphization, Fotólise, Lesões pele, Antioxidante, Ingrediente, Curcuma Longa, Curcumin, Photolysis, Antioxidant activity, Skin lesions,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1169069
https://doi.org/10.1021/acsanm.4c05159
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spelling dig-alice-doc-11690692024-11-12T16:53:38Z Antimicrobial and antioxidant properties of photodegraded amorphous curcumin on silica nanoparticles. QUELÉ, L. N. dos S. MATOS, M. de LIMA, G. G. de BRUGNARI, T. RIBEIRO, C. S. P. PEDRO, A. C. CADEMARTORI, P. H. G. de MAGALHAES, W. L. E. LUANA NUNES DOS SANTOS QUELÉ; MAURICIO DE MATOS, SENAI; GABRIEL GOETTEN DE LIMA, TECHNOLOGICAL UNIVERSITY OF THE SHANNON; TATIANE BRUGNARI, UNIVERSIDADE FEDERAL DO PARANÁ; CAROLINA SIMÕES PIRES RIBEIRO, UNIVERSIDADE FEDERAL DO PARANÁ; ALESSANDRA CRISTINA PEDRO; PEDRO HENRIQUE GONZALEZ DE CADEMARTORI, UNIVERSIDADE FEDERAL DO PARANÁ; WASHINGTON LUIZ ESTEVES MAGALHAES, CNPF. Ontrolled drug release Antimicrobial potential Amorphization Fotólise Lesões pele Antioxidante Ingrediente Curcuma Longa Curcumin Photolysis Antioxidant activity Skin lesions This work utilizes the concept of curcumin amorphization to improve drawbacks currently found if it is used as a pharmaceutical ingredient, such as low solubility, limited bioavailability, and absorption, by anchoring it with silica nanoparticles (SiO2NP). Curcumin loading was determined following kinetic and adsorption parameters, resulting in more than 70% of the curcumin being loaded onto nanoparticles after 180 min. The adjusted data resulted in a Langmuir and BET best-fit with a coefficient relating to favorable adsorption and a multilayer mechanism. With a reduction of more than 70% of the particle area after curcumin loading, it increased the SiO2NP size. Due to curcumin, FTIR data presented a free unbounded vibration of SiO2NP, disappearing in favor of a chemical reaction. The XRD pattern showed complete amorphization of curcumin after loading, resulting in a drug release under ethanol of up to 41% in 30 days. To improve this, photodegradation on SiO2NP with curcumin was performed, showing a vast improvement of the antioxidant activity (ABTS and DPPH) after 72 h, related to the degradation products that were hydrophilic but still lower than pure curcumin, demonstrating the protection effect of SiO2NP. These led to an increase in antimicrobial potential against fungus and Gram-negative and Gram-positive bacteria when anchored and photodegraded, related to their depolymerization. Docking studies were conducted to assess the antibacterial effect, revealing that the conjugated double bond, a common region for photolysis, remains prominent, even when curcumin is anchored. Interestingly, anchoring curcumin with nanosilica enhances the efficacy, potentially attributed to its antioxidant ability. By anchoring curcumin on nanosilica and performing posterior photolysis, enhanced benefits were achieved by providing support for the degraded products to act in targeted applications such as cancer that can promote stable drug release. KEYWORDS: curcumin, amorphization, photodegradation, antimicrobial potential, controlled drug re 2024-11-12T16:53:38Z 2024-11-12T16:53:38Z 2024-11-12 2024 Artigo de periódico ACS Applied Nano Materials, 2024. 2574-0970 http://www.alice.cnptia.embrapa.br/alice/handle/doc/1169069 https://doi.org/10.1021/acsanm.4c05159 eng openAccess
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language eng
topic Ontrolled drug release
Antimicrobial potential
Amorphization
Fotólise
Lesões pele
Antioxidante
Ingrediente
Curcuma Longa
Curcumin
Photolysis
Antioxidant activity
Skin lesions
Ontrolled drug release
Antimicrobial potential
Amorphization
Fotólise
Lesões pele
Antioxidante
Ingrediente
Curcuma Longa
Curcumin
Photolysis
Antioxidant activity
Skin lesions
spellingShingle Ontrolled drug release
Antimicrobial potential
Amorphization
Fotólise
Lesões pele
Antioxidante
Ingrediente
Curcuma Longa
Curcumin
Photolysis
Antioxidant activity
Skin lesions
Ontrolled drug release
Antimicrobial potential
Amorphization
Fotólise
Lesões pele
Antioxidante
Ingrediente
Curcuma Longa
Curcumin
Photolysis
Antioxidant activity
Skin lesions
QUELÉ, L. N. dos S.
MATOS, M. de
LIMA, G. G. de
BRUGNARI, T.
RIBEIRO, C. S. P.
PEDRO, A. C.
CADEMARTORI, P. H. G. de
MAGALHAES, W. L. E.
Antimicrobial and antioxidant properties of photodegraded amorphous curcumin on silica nanoparticles.
description This work utilizes the concept of curcumin amorphization to improve drawbacks currently found if it is used as a pharmaceutical ingredient, such as low solubility, limited bioavailability, and absorption, by anchoring it with silica nanoparticles (SiO2NP). Curcumin loading was determined following kinetic and adsorption parameters, resulting in more than 70% of the curcumin being loaded onto nanoparticles after 180 min. The adjusted data resulted in a Langmuir and BET best-fit with a coefficient relating to favorable adsorption and a multilayer mechanism. With a reduction of more than 70% of the particle area after curcumin loading, it increased the SiO2NP size. Due to curcumin, FTIR data presented a free unbounded vibration of SiO2NP, disappearing in favor of a chemical reaction. The XRD pattern showed complete amorphization of curcumin after loading, resulting in a drug release under ethanol of up to 41% in 30 days. To improve this, photodegradation on SiO2NP with curcumin was performed, showing a vast improvement of the antioxidant activity (ABTS and DPPH) after 72 h, related to the degradation products that were hydrophilic but still lower than pure curcumin, demonstrating the protection effect of SiO2NP. These led to an increase in antimicrobial potential against fungus and Gram-negative and Gram-positive bacteria when anchored and photodegraded, related to their depolymerization. Docking studies were conducted to assess the antibacterial effect, revealing that the conjugated double bond, a common region for photolysis, remains prominent, even when curcumin is anchored. Interestingly, anchoring curcumin with nanosilica enhances the efficacy, potentially attributed to its antioxidant ability. By anchoring curcumin on nanosilica and performing posterior photolysis, enhanced benefits were achieved by providing support for the degraded products to act in targeted applications such as cancer that can promote stable drug release. KEYWORDS: curcumin, amorphization, photodegradation, antimicrobial potential, controlled drug re
author2 LUANA NUNES DOS SANTOS QUELÉ; MAURICIO DE MATOS, SENAI; GABRIEL GOETTEN DE LIMA, TECHNOLOGICAL UNIVERSITY OF THE SHANNON; TATIANE BRUGNARI, UNIVERSIDADE FEDERAL DO PARANÁ; CAROLINA SIMÕES PIRES RIBEIRO, UNIVERSIDADE FEDERAL DO PARANÁ; ALESSANDRA CRISTINA PEDRO; PEDRO HENRIQUE GONZALEZ DE CADEMARTORI, UNIVERSIDADE FEDERAL DO PARANÁ; WASHINGTON LUIZ ESTEVES MAGALHAES, CNPF.
author_facet LUANA NUNES DOS SANTOS QUELÉ; MAURICIO DE MATOS, SENAI; GABRIEL GOETTEN DE LIMA, TECHNOLOGICAL UNIVERSITY OF THE SHANNON; TATIANE BRUGNARI, UNIVERSIDADE FEDERAL DO PARANÁ; CAROLINA SIMÕES PIRES RIBEIRO, UNIVERSIDADE FEDERAL DO PARANÁ; ALESSANDRA CRISTINA PEDRO; PEDRO HENRIQUE GONZALEZ DE CADEMARTORI, UNIVERSIDADE FEDERAL DO PARANÁ; WASHINGTON LUIZ ESTEVES MAGALHAES, CNPF.
QUELÉ, L. N. dos S.
MATOS, M. de
LIMA, G. G. de
BRUGNARI, T.
RIBEIRO, C. S. P.
PEDRO, A. C.
CADEMARTORI, P. H. G. de
MAGALHAES, W. L. E.
format Artigo de periódico
topic_facet Ontrolled drug release
Antimicrobial potential
Amorphization
Fotólise
Lesões pele
Antioxidante
Ingrediente
Curcuma Longa
Curcumin
Photolysis
Antioxidant activity
Skin lesions
author QUELÉ, L. N. dos S.
MATOS, M. de
LIMA, G. G. de
BRUGNARI, T.
RIBEIRO, C. S. P.
PEDRO, A. C.
CADEMARTORI, P. H. G. de
MAGALHAES, W. L. E.
author_sort QUELÉ, L. N. dos S.
title Antimicrobial and antioxidant properties of photodegraded amorphous curcumin on silica nanoparticles.
title_short Antimicrobial and antioxidant properties of photodegraded amorphous curcumin on silica nanoparticles.
title_full Antimicrobial and antioxidant properties of photodegraded amorphous curcumin on silica nanoparticles.
title_fullStr Antimicrobial and antioxidant properties of photodegraded amorphous curcumin on silica nanoparticles.
title_full_unstemmed Antimicrobial and antioxidant properties of photodegraded amorphous curcumin on silica nanoparticles.
title_sort antimicrobial and antioxidant properties of photodegraded amorphous curcumin on silica nanoparticles.
publishDate 2024-11-12
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1169069
https://doi.org/10.1021/acsanm.4c05159
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AT matosmde antimicrobialandantioxidantpropertiesofphotodegradedamorphouscurcuminonsilicananoparticles
AT limaggde antimicrobialandantioxidantpropertiesofphotodegradedamorphouscurcuminonsilicananoparticles
AT brugnarit antimicrobialandantioxidantpropertiesofphotodegradedamorphouscurcuminonsilicananoparticles
AT ribeirocsp antimicrobialandantioxidantpropertiesofphotodegradedamorphouscurcuminonsilicananoparticles
AT pedroac antimicrobialandantioxidantpropertiesofphotodegradedamorphouscurcuminonsilicananoparticles
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