Tea Tree Oil (TTO) is an essential oil obtained from the distillation of Melaleuca alternifolia leaves and branches. Due to its beneficial properties, TTO is widely used as an active ingredient in antimicrobial preparations for topical use or in cosmetic products and contains about 100 different compounds, with terpinen-4-ol, γ-terpinene and 1,8-cineole (or eucalyptol) being the molecules most responsible for its biological activities. In this work, the antimicrobial activity of whole TTO and these three major components was evaluated in vitro against fungi, bacteria and viruses. Molecular dynamics simulations were carried out on a bacterial membrane model and a Coxsackievirus B4 viral capsid, to propose an atomistic explanation of their mechanism of action. The obtained results indicate that the strong antimicrobial activity of TTO is attributable to the induction of an altered membrane functionality, mediated by the incorporation of its components within the lipid bilayer, and to a possible ability of the compounds to bind and alter the structural properties of the viral capsid.

Iacovelli, F., Romeo, A., Lattanzio, P., Ammendola, S., Battistoni, A., La Frazia, S., et al. (2023). Deciphering the broad antimicrobial activity of Melaleuca alternifolia Tea Tree Oil by combining experimental and computational investigations. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 24(15), 1-19 [10.3390/ijms241512432].

Deciphering the broad antimicrobial activity of Melaleuca alternifolia Tea Tree Oil by combining experimental and computational investigations

Iacovelli, F;Romeo, A;Ammendola, S;Battistoni, A;La Frazia, S;Vindigni, G;Unida, V;Biocca, S;Gaziano, R;Divizia, M;Falconi M
2023-08-04

Abstract

Tea Tree Oil (TTO) is an essential oil obtained from the distillation of Melaleuca alternifolia leaves and branches. Due to its beneficial properties, TTO is widely used as an active ingredient in antimicrobial preparations for topical use or in cosmetic products and contains about 100 different compounds, with terpinen-4-ol, γ-terpinene and 1,8-cineole (or eucalyptol) being the molecules most responsible for its biological activities. In this work, the antimicrobial activity of whole TTO and these three major components was evaluated in vitro against fungi, bacteria and viruses. Molecular dynamics simulations were carried out on a bacterial membrane model and a Coxsackievirus B4 viral capsid, to propose an atomistic explanation of their mechanism of action. The obtained results indicate that the strong antimicrobial activity of TTO is attributable to the induction of an altered membrane functionality, mediated by the incorporation of its components within the lipid bilayer, and to a possible ability of the compounds to bind and alter the structural properties of the viral capsid.
4-ago-2023
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore BIO/11
Settore BIO/19
Settore BIOS-15/A - Microbiologia
Settore BIOS-08/A - Biologia molecolare
English
Con Impact Factor ISI
viral capsid binders; tea tree oil; molecular dynamics; molecular docking; membrane partitioning; eukaryotic cells viability; antiviral activity; antimicrobial activity; antifungal activity
Iacovelli, F., Romeo, A., Lattanzio, P., Ammendola, S., Battistoni, A., La Frazia, S., et al. (2023). Deciphering the broad antimicrobial activity of Melaleuca alternifolia Tea Tree Oil by combining experimental and computational investigations. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 24(15), 1-19 [10.3390/ijms241512432].
Iacovelli, F; Romeo, A; Lattanzio, P; Ammendola, S; Battistoni, A; La Frazia, S; Vindigni, G; Unida, V; Biocca, S; Gaziano, R; Divizia, M; Falconi, M...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/345406
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