Soft, adhesive (+) alpha tocopherol phosphate planar bilayers that control oral biofilm growth through a substantive antimicrobial effect.

Harper, Robert A; Saleh, Mais M; Carpenter, Guy; Abbate, Vincenzo; Proctor, Gordon; Harvey, Richard D; Gambogi, Robert J; Geonnotti, Anthony; Hider, Robert; Jones, Stuart A

Harper, Robert A; Saleh, Mais M; Carpenter, Guy; Abbate, Vincenzo; Proctor, Gordon; Harvey, Richard D; Gambogi, Robert J; Geonnotti, Anthony; Hider, Robert; Jones, Stuart A.

Affiliation

Harper RA; King's College London, Institute of Pharmaceutical Science, Franklin-Wilkins Building, London, UK.
Saleh MM; King's College London, Institute of Pharmaceutical Science, Franklin-Wilkins Building, London, UK.
Carpenter G; King's College London, Dental institute, Division of Mucosal & Salivary Biology, Tower Wing, Great Maze Pond, London, UK.
Abbate V; King's College London, Institute of Pharmaceutical Science, Franklin-Wilkins Building, London, UK.
Proctor G; King's College London, Dental institute, Division of Mucosal & Salivary Biology, Tower Wing, Great Maze Pond, London, UK.
Harvey RD; Martin-Luther-Universität Halle-Wittenberg, Institute of Pharmacy, Halle (Saale), Germany.
Gambogi RJ; Johnson and Johnson, Consumer & Personal Products Worldwide Division of Johnson & Johnson Consumer Companies, Inc, Skillman, NJ, USA.
Geonnotti A; Johnson and Johnson, Consumer & Personal Products Worldwide Division of Johnson & Johnson Consumer Companies, Inc, Skillman, NJ, USA.
Hider R; King's College London, Institute of Pharmaceutical Science, Franklin-Wilkins Building, London, UK.
Jones SA; King's College London, Institute of Pharmaceutical Science, Franklin-Wilkins Building, London, UK. Electronic address: stuart.jones@kcl.ac.uk.

Nanomedicine ; 14(7): 2307-2316, 2018 10.

Article in En | MEDLINE | ID: mdl-29410321

ABSTRACT

'Soft' nanomaterials have the potential to produce substantive antibiofilm effects. The aim of this study was to understand the oral antimicrobial activity of soft nanomaterials generated from alpha-tocopherol (α-T) and alpha-tocopherol phosphate (α-TP). (+) α-TP formed planar bilayer islands (175 ± 21 nm, -14.9 ± 3.5 mV) in a Trizma® buffer, whereas (+) α-T formed spherical liposomes (563 ± 1 nm, -10.5 ± 0.2 mV). The (+) α-TP bilayers displayed superior Streptococcus oralis biofilm growth retardation, a more substantive action, generated a superior adsorption to hydroxyapatite and showed an enhanced inhibition of multi-species bacterial saliva biofilm growth (38 ± 7µm vs 58 ± 18 µm, P Ë 0.05) compared to (+) α-T. Atomic force microscopy data indicated that the ability of the 'soft' α-TP nanomaterials to transition into planar bilayer structures upon contact with interfaces facilitated their adhesive properties and substantive antimicrobial effects.

Subject(s)

Anti-Infective Agents/administration & dosage; Biofilms/drug effects; Lipid Bilayers/chemistry; Saliva/microbiology; Streptococcus mutans/drug effects; Streptococcus oralis/drug effects; alpha-Tocopherol/analogs & derivatives; Adhesives; Anti-Infective Agents/chemistry; Anti-Infective Agents/pharmacology; Biofilms/growth & development; Humans; Liposomes/administration & dosage; Liposomes/chemistry; Microscopy, Atomic Force; Mouth/microbiology; Streptococcus mutans/growth & development; Streptococcus oralis/growth & development; alpha-Tocopherol/chemistry; alpha-Tocopherol/pharmacology

Key words

Antimicrobial; Biofilm; Growth; Nanomaterials; Oral cavity; Penetration; Soft; Streptococcus; Teeth; Tocopherol phosphate; Vitamin E

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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Saliva / Streptococcus mutans / Biofilms / Streptococcus oralis / Alpha-Tocopherol / Lipid Bilayers / Anti-Infective Agents Limits: Humans Language: En Journal: Nanomedicine Journal subject: BIOTECNOLOGIA Year: 2018 Document type: Article Country of publication: United States

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