Crystallographic Pattern Mediates Fungal Nanoadhesion Bond Formation on Titanium Nanotubes
Autor: | Benjamín Valdez-Salas, Minerva Guerra-Balcázar, Noé Arjona, Ernesto Beltrán-Partida, Mario Curiel-Alvarez |
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Rok vydání: | 2021 |
Předmět: | |
Zdroj: | ACS Omega, Vol 6, Iss 24, Pp 15625-15636 (2021) ACS Omega |
ISSN: | 2470-1343 |
DOI: | 10.1021/acsomega.1c00475 |
Popis: | The development of nanoadhesion bonds at the cell–material biointerface has been considered as a current prospective mechanism of microbial adhesion and colonization. However, there is a tremendous lack of evidence for the rational design of outstanding antifungal nanoconfigured materials. Therefore, extending our previous insights of evidence, we found that blocking the adhesion and biofilm formation of Candida albicans on NTs requires the inhibition of fungal nanoadhesion bonds. This work reports a concept for understanding the antifungal behavior of the crystallographic phase for anatase (NTs-annealed) and amorphous NTs. Herein, we demonstrated that the crystallographic orientation is a predominant parameter to reduce C. albicans, over the surface roughness and chemistry. We showed that the anatase phase conducted to an invasive phenotype, cellular envelopment insertion, followed by the improved cellular spread. Meanwhile, the amorphous configuration imposed reduced nanoadhesion bonds mainly appreciated over the mouths of the NTs, as revealed by cross sectioning. Moreover, our results showed that under fungal conditions, the experimental materials could reduce the surface energy. This work highlights that the crystallographic pattern predominantly controls the antifungal activity of NTs. The evaluated systems proposed that the NTs-annealed conducted an optimized insertion of fungal cells. Nonetheless, amorphous NTs inhibited the deposition of C. albicans via blocking the insertion and the development of nanoadhesion bonds, without morphology aberrations. The present discoveries can further inspire the rational design of upgraded nanoconfigured surfaces with noteworthy antifungal characteristics for antimicrobial coating technologies. |
Databáze: | OpenAIRE |
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