RESUMEN
The human skin is home to millions of bacteria, fungi, and viruses which form part of a unique microbiome. Commensal microbes, including Cutibacterium acnes can occasionally become opportunistic resulting in the onset of dermatological diseases such as acne. Acne is defined as a chronic inflammatory disorder based on its ability to persist for long periods throughout an individual's life. The synthesis of gold nanoparticles (AuNPs) was performed using the bottom-up approach by reduction of a gold salt (HAuCl4.3H2O) by the methanol extract (HO-MeOH) and aqueous decoction prepared from the dried aerial parts of Helichrysum odoratissimum (HO-Powder). The HO-MeOH and HO-Powder AuNPs were prepared as unstabilised (-GA) or stabilized (+GA) by the omission or addition of Gum Arabic (GA) as the capping agent. The characterization of the AuNPs was performed using Transmission Electron Microscopy (TEM), dynamic light scattering (DLS), Ultraviolet-Visual spectroscopy (UV-Vis), Thermogravimetric Analysis (TGA), X-Ray Diffraction (XRD) and Zeta-potential. The MBIC50 values for HO-MeOH - GA and HO-MeOH + GA were 1.79 ± 0.78% v/v and 0.22 ± 0.16% v/v, respectively. The HO-Powder AuNPs showed potent inhibition of C. acnes cell adhesion to the 96-well plates. The HO-MeOH - GA and HO-Powder + GA exhibited IC50 of 22.01 ± 6.13% v/v and 11.78 ± 1.78% v/v, respectively. The activity of the AuNPs validated the anti-adhesion activity of the methanol extract in the crude form. The study emphasizes the selectivity of H. odoratissimum AuNPs for the prevention of C. acnes cell adhesion and not antimicrobial activity, which may prevent the emergence of resistant strains of C. acnes through reduced bactericidal or bacteriostatic activity, while targeting mechanisms of pathogenesis.
RESUMEN
Green nanotechnology has drawn major attention because of its ecofriendly and economical biosynthetic protocols. Synthesis of gold nanoparticles (AuNPs) using plant secondary metabolites is considered as a safer and cheaper option. Plants contain phytochemicals that has been used traditionally for treatment of various diseases, and proved to be non-toxic to healthy tissues. These phytochemicals play an important role in bio-reduction processes as reducing and stabilizing agents, and renders NPs selective toxicity towards diseased tissues. The study reports on the synthesis of AuNPs using Acai berry (AB) and Elderberry (EB) extracts and their anti-cancer properties. Formation of berry-AuNPs was confirmed through measurement of physico-chemical properties. The stability of the AuNPs was tested in biocompatible solutions. Anti-cancer activity of berry extracts and AuNPs was evaluated on the prostate (PC-3) and pancreatic (Panc-1) cancer cells. The berry extracts did not show toxicity to the cells, except for AB extracts on PC-3 cells at higher concentrations. The berry-AuNPs showed potential anti-cancer activities, and these effects could be further exploited for treatment of both the prostate and pancreatic cancers. Further studies are required to study the NP mechanism of action and specificity, as well as identify the phytochemicals involved in the synthesis of AuNPs.
