Fernando Antônio Gomes da Silva scite author profile

Algae of the genus Prototheca are microorganisms involved in the occurrence of diseases in humans and animals. In bovine species, Prototheca spp. cause environmental mastitis, productive losses in dairy herds, mainly leading to the discard of infected cows. Currently, there are no effective anti-Prototheca spp. drugs to combat this infection. Thus, the search for an efficacious therapy for Prototheca spp. infections have become essential. Highly soluble polypyrrole (Ppy) is a molecule with known antimicrobial activity. This study aimed to characterize Prototheca spp. isolates from bovine mastitis as well as to evaluate the susceptibility profile and to verify the morphological alterations on Prototheca spp. isolates treated with Ppy. In this research, 36 Brazilian isolates of Prototheca spp. were characterized by restriction fragment length polymorphism polymerase chain reaction (RFLP-PCR) assay for the mitochondrial cytB gene. Additionally, Ppy algicidal activity against these isolates of Prototheca spp. was assessed by minimal microbicidal concentration method in microplates. Further, scanning electron microscopy (SEM) was performed in order to verify the morphological alterations on Prototheca spp. isolates in response to Ppy. The isolates were characterized as belonging to Prototheca zopfii genotype 2 (35/36) and Prototheca blaschkeae (1/36). Ppy had an algicidal effect on all isolates tested at concentrations ranging from 15.625 μg ml−1 to 62.5 μg ml−1. SEM showed changes on planktonic and sessile P. zopfii, including a decrease of the number of cells with the presence of an amorphous substance involving the cells. The algicidal activity of Ppy suggests the therapeutic potential of this molecule in the prevention and treatment of Prototheca spp. in bovine mastitis.

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Antibacterial activity of polypyrrole-based nanocomposites: a mini-review

Silva

Vieira

Botton

et al. 2020

Polímeros

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Coating of conducting polymer-silver nanoparticles for antibacterial protection of Nile tilapia skin xenografts

2022

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Synergistic Antibacterial Activity of Green Gold Nanoparticles and Tannin-Based Derivatives

Oliveira

Vieira

Silva

et al. 2022

BioChem

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The development of composites with antibacterial activity represents an important strategy to avoid side effects such as increasing bacterial resistance to antibiotics. In particular, the green synthesis of metal nanoparticles avoids the use of hazardous chemical compounds and introduces the intrinsic beneficial properties of plant-derived compounds. Herein, the reduction of gold salt into metal nanoparticles was provided by the action of a cationic polymer derived from tannin (Tanfloc®). Comparative activity of antibacterial agents (pure Tanfloc and Au NPs—Tanfloc) at different concentrations were evaluated in terms of the antibiofilm activity, kill-time assays and inhibition haloes confirming the antibacterial activity of the Tanfloc that is reinforced by the incorporation of reduced gold nanoparticles, resulting in the complete elimination of S. aureus from an initial concentration of 108 CFU/mL after 120 min of reaction of Au NPs + Tanfloc solution in association with strong inhibition of the biofilm formation attributed to the Tanfloc.

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Inhibition of biofilm formation induced by functional graphenic materials impregnated in Nile tilapia (Oreochromis niloticus) skin

Silva

Eckhart

Costa

et al. 2022

Applied Surface Science

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All-green wound dressing prototype based on Nile tilapia skin impregnated with silver nanoparticles reduced by essential oil

et al. 2021

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The development of eco-friendly prototypes for wound dressing systems represents an important source of investigation about alternatives for the treatment of severe infections. The production of antibacterial agents free of antibiotics, based on natural products and biological supports is a hot topic for science applied in circular economy concepts. Herein, the green synthesis of silver nanoparticles was assisted by essential oil and the following impregnation of products in tilapia skin has been conducted as a strategy to produce all-green wound dressing systems to be applied as biofilm protective layers and active antibacterial agents. The use of these wound dressing systems against Staphylococcus aureus was evaluated in terms of biofilm adhesion, inhibition halo assays, and time-kill assays as a function of the nature of reducing agent applied in the production of silver nanoparticles.

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