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Solid Lipid Microparticles for Oral Delivery of Catalase: Focus on the Protein Structural Integrity and Gastric Protection

[Image: see text] Protein inactivation either during the production process or along the gastrointestinal tract is the major problem associated with the development of oral delivery systems for biological drugs. This work presents an evaluation of the structural integrity and the biological activity...

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Autores principales: Bertoni, Serena, Tedesco, Daniele, Bartolini, Manuela, Prata, Cecilia, Passerini, Nadia, Albertini, Beatrice
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2020
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8009523/
https://www.ncbi.nlm.nih.gov/pubmed/32786955
http://dx.doi.org/10.1021/acs.molpharmaceut.0c00666
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author Bertoni, Serena
Tedesco, Daniele
Bartolini, Manuela
Prata, Cecilia
Passerini, Nadia
Albertini, Beatrice
author_facet Bertoni, Serena
Tedesco, Daniele
Bartolini, Manuela
Prata, Cecilia
Passerini, Nadia
Albertini, Beatrice
author_sort Bertoni, Serena
collection PubMed
description [Image: see text] Protein inactivation either during the production process or along the gastrointestinal tract is the major problem associated with the development of oral delivery systems for biological drugs. This work presents an evaluation of the structural integrity and the biological activity of a model protein, catalase, after its encapsulation in glyceryl trimyristate-based solid lipid microparticles (SLMs) obtained by the spray congealing technology. Circular dichroism and fluorescence spectroscopies were used to assess the integrity of catalase released from SLMs. The results confirmed that no conformational change occurred during the production process and both the secondary and tertiary structures were retained. Catalase is highly sensitive to temperature and undergoes denaturation above 60 °C; nevertheless, spray congealing allowed the retention of most biological activity due to the loading of the drug at the solid state, markedly reducing the risk of denaturation. Catalase activity after exposure to simulated gastric conditions (considering both acidic pH and the presence of gastric digestive hydrolases) ranged from 35 to 95% depending on the carrier: increasing of both the fatty acid chain length and the degree of substitution of the glyceride enhanced residual enzyme activity. SLMs allowed the protein release in a simulated intestinal environment and were not cytotoxic against HT29 cells. In conclusion, the encapsulation of proteins into SLMs by spray congealing might be a promising strategy for the formulation of nontoxic and inexpensive oral biotherapeutic products.
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spelling pubmed-80095232021-03-31 Solid Lipid Microparticles for Oral Delivery of Catalase: Focus on the Protein Structural Integrity and Gastric Protection Bertoni, Serena Tedesco, Daniele Bartolini, Manuela Prata, Cecilia Passerini, Nadia Albertini, Beatrice Mol Pharm [Image: see text] Protein inactivation either during the production process or along the gastrointestinal tract is the major problem associated with the development of oral delivery systems for biological drugs. This work presents an evaluation of the structural integrity and the biological activity of a model protein, catalase, after its encapsulation in glyceryl trimyristate-based solid lipid microparticles (SLMs) obtained by the spray congealing technology. Circular dichroism and fluorescence spectroscopies were used to assess the integrity of catalase released from SLMs. The results confirmed that no conformational change occurred during the production process and both the secondary and tertiary structures were retained. Catalase is highly sensitive to temperature and undergoes denaturation above 60 °C; nevertheless, spray congealing allowed the retention of most biological activity due to the loading of the drug at the solid state, markedly reducing the risk of denaturation. Catalase activity after exposure to simulated gastric conditions (considering both acidic pH and the presence of gastric digestive hydrolases) ranged from 35 to 95% depending on the carrier: increasing of both the fatty acid chain length and the degree of substitution of the glyceride enhanced residual enzyme activity. SLMs allowed the protein release in a simulated intestinal environment and were not cytotoxic against HT29 cells. In conclusion, the encapsulation of proteins into SLMs by spray congealing might be a promising strategy for the formulation of nontoxic and inexpensive oral biotherapeutic products. American Chemical Society 2020-07-30 2020-09-08 /pmc/articles/PMC8009523/ /pubmed/32786955 http://dx.doi.org/10.1021/acs.molpharmaceut.0c00666 Text en Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Bertoni, Serena
Tedesco, Daniele
Bartolini, Manuela
Prata, Cecilia
Passerini, Nadia
Albertini, Beatrice
Solid Lipid Microparticles for Oral Delivery of Catalase: Focus on the Protein Structural Integrity and Gastric Protection
title Solid Lipid Microparticles for Oral Delivery of Catalase: Focus on the Protein Structural Integrity and Gastric Protection
title_full Solid Lipid Microparticles for Oral Delivery of Catalase: Focus on the Protein Structural Integrity and Gastric Protection
title_fullStr Solid Lipid Microparticles for Oral Delivery of Catalase: Focus on the Protein Structural Integrity and Gastric Protection
title_full_unstemmed Solid Lipid Microparticles for Oral Delivery of Catalase: Focus on the Protein Structural Integrity and Gastric Protection
title_short Solid Lipid Microparticles for Oral Delivery of Catalase: Focus on the Protein Structural Integrity and Gastric Protection
title_sort solid lipid microparticles for oral delivery of catalase: focus on the protein structural integrity and gastric protection
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8009523/
https://www.ncbi.nlm.nih.gov/pubmed/32786955
http://dx.doi.org/10.1021/acs.molpharmaceut.0c00666
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