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Virus-Shaped Mesoporous Silica Nanostars to Improve the Transport of Drugs across the Blood-Brain Barrier.
Pinna, Alessandra; Ragaisyte, Ieva; Morton, William; Angioletti-Uberti, Stefano; Proust, Alizé; D'Antuono, Rocco; Luk, Chak Hon; Gutierrez, Maximiliano G; Cerrone, Maddalena; Wilkinson, Katalin A; Mohammed, Ali A; McGilvery, Catriona M; Suárez-Bonnet, Alejandro; Zimmerman, Matthew; Gengenbacher, Martin; Wilkinson, Robert J; Porter, Alexandra E.
Afiliación
  • Pinna A; School of Veterinary Medicine, Faculty of Health and Medical Sciences, University of Surrey, Guildford GU2 7XH, U.K.
  • Ragaisyte I; The Francis Crick Institute, NW1 1AT London, U.K.
  • Morton W; Department of Materials, Imperial College London, SW7 2AZ London, U.K.
  • Angioletti-Uberti S; Department of Materials, Imperial College London, SW7 2AZ London, U.K.
  • Proust A; Department of Materials, Imperial College London, SW7 2AZ London, U.K.
  • D'Antuono R; Department of Materials, Imperial College London, SW7 2AZ London, U.K.
  • Luk CH; The Francis Crick Institute, NW1 1AT London, U.K.
  • Gutierrez MG; Crick Advanced Light Microscopy STP, The Francis Crick Institute, NW1 1AT London, U.K.
  • Cerrone M; Department of Biomedical Engineering, School of Biological Sciences, University of Reading, Reading RG6 6AY, U.K.
  • Wilkinson KA; The Francis Crick Institute, NW1 1AT London, U.K.
  • Mohammed AA; The Francis Crick Institute, NW1 1AT London, U.K.
  • McGilvery CM; The Francis Crick Institute, NW1 1AT London, U.K.
  • Suárez-Bonnet A; The Francis Crick Institute, NW1 1AT London, U.K.
  • Zimmerman M; Centre for Infectious Diseases Research in Africa (CIDRI-Africa), Institute of Infectious Disease and Molecular Medicine, University of Cape Town, Observatory, Cape Town 7925, Republic of South Africa.
  • Gengenbacher M; Department of Medicine, University of Cape Town, Observatory, Cape Town 7925, Republic of South Africa.
  • Wilkinson RJ; Dyson School of Design Engineering, Imperial College London, SW7 2AZ London, U.K.
  • Porter AE; School of Design, Royal College of Art, SW11 4AY London, U.K.
ACS Appl Mater Interfaces ; 16(29): 37623-37640, 2024 Jul 24.
Article en En | MEDLINE | ID: mdl-38988046
ABSTRACT
Conditions affecting the brain are the second leading cause of death globally. One of the main challenges for drugs targeting brain diseases is passing the blood-brain barrier (BBB). Here, the effectiveness of mesoporous silica nanostars (MSiNSs) with two different spike lengths to cross an in vitro BBB multicellular model was evaluated and compared to spherical nanoparticles (MSiNP). A modified sol-gel single-micelle epitaxial growth was used to produce MSiNS, which showed no cytotoxicity or immunogenicity at concentrations of up to 1 µg mL-1 in peripheral blood mononuclear and neuronal cells. The nanostar MSiNS effectively penetrated the BBB model after 24 h, and MSiNS-1 with a shorter spike length (9 ± 2 nm) crossed the in vitro BBB model more rapidly than the MSiNS-2 with longer spikes (18 ± 4 nm) or spherical MSiNP at 96 h, which accumulated in the apical and basolateral sides, respectively. Molecular dynamic simulations illustrated an increase in configurational flexibility of the lipid bilayer during contact with the MSiNS, resulting in wrapping, whereas the MSiNP suppressed membrane fluctuations. This work advances an effective brain drug delivery system based on virus-like shaped MSiNS for the treatment of different brain diseases and a mechanism for their interaction with lipid bilayers.
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Texto completo: 1 Banco de datos: MEDLINE Asunto principal: Barrera Hematoencefálica / Dióxido de Silicio Límite: Animals / Humans Idioma: En Revista: ACS Appl Mater Interfaces Asunto de la revista: BIOTECNOLOGIA / ENGENHARIA BIOMEDICA Año: 2024 Tipo del documento: Article

Texto completo: 1 Banco de datos: MEDLINE Asunto principal: Barrera Hematoencefálica / Dióxido de Silicio Límite: Animals / Humans Idioma: En Revista: ACS Appl Mater Interfaces Asunto de la revista: BIOTECNOLOGIA / ENGENHARIA BIOMEDICA Año: 2024 Tipo del documento: Article