Silver Nanoparticles Targeting the Drug Resistance Problem of Streptococcus dysgalactiae: Susceptibility to Antibiotics and Efflux Effect

Ruiz, Diana Garibo; Нефедова, Е. В.; Shkil, N. N.; Шкиль, Н. А.; Vázquez-Gómez, Roberto Luna; Pestryakov, Alexey; Bogdanchikova, Nina

doi:10.3390/ijms23116024

Cited by 6 publications

(9 citation statements)

References 6 publications

(17 reference statements)

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“…The number of studied cows varied between 200 and 400 (Table 1). In the studies [10][11][12] and the present work, the bacterium with the maximum contribution was selected as the study focus.…”

Section: The Number Of Isolates Of Bacteriamentioning

confidence: 99%

“…Therefore, an increase in the number of studied bacteria is of justified interest to expand the list of bacteria where this effect is observed or to find out the bacteria where this effect is either not observed or too low. Therefore, the present work is a continuation of our three previous works dedicated to the effect of AgNP treatment capacity to reduce bacterial resistance to 31 antibiotics [10][11][12] that will include the new Gram-positive S. epidermidis bacterium, which is also one of the main etiological agents of mastitis in dairy cows.…”

Section: Introductionmentioning

confidence: 95%

“…The Argovit-C TM AgNP formulation has shown that its application to the treatment of cow mastitis can partially return 11-19.4% of the activity of 31 antibiotics towards three bacteria (S. aureus, Str. dysgalactiae, and E. coli), while treatments with first-line antibiotic drugs such as Lactobay, Spectromast LC, and Dienomast, in contrast, decreased activity of antibiotics by 23-27% [10][11][12]. The results of the study conducted on three bacteria are very promising because they open the possibility of contributing to solving the global problem of antibiotic resistance.…”

Section: Introductionmentioning

confidence: 96%

“…In our previous studies, it was revealed that this effect was observed for Gram-negative (E. coli [12]) and Gram-positive (S. aureus [10] and Str. dysgalactiae [11]) bacteria. Based on these results, can this phenomenon be extrapolated to all bacteria?…”

Section: Introductionmentioning

confidence: 99%

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Nanoparticles Partially Restore Bacterial Susceptibility to Antibiotics

Bogdanchikova,

Luna Vazquez-Gomez,

Nefedova

et al. 2024

Materials

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The growing resistance of bacteria to antibiotics is one of the main public health problems nowadays. The influence of silver nanoparticle (AgNP) pretreatment of 220 cows with mastitis on the susceptibility of Staphylococcus epidermidis bacteria to 31 antibiotics was studied. The obtained results were compared with the previous results for Escherichia coli, Streptococcus dysgalactiae, and Staphylococcus aureus. For all four bacteria, an increase in susceptibility (9.5–21.2%) to 31 antibiotics after cow treatment with AgNPs was revealed, while after first-line antibiotic drug treatment as expected, the susceptibility decreased (11.3–27.3%). These effects were explained by (1) the increase in the contribution of isolates with efflux effect after antibiotic treatments and its decrease after AgNP treatment and (2) the changes in bacteria adhesion and anti-lysozyme activity after these treatments. The effect of the increasing antibacterial activity of antibiotics after AgNP treatment was the most pronounced in the case of E. coli and was minimal in the case of S. epidermidis. With AgNP treatment, the time of recovery decreased by 26.8–48.4% compared to the time of recovery after treatment with the first-line antibiotic drugs. The AgNP treatment allows for achieving the partial restoration of the activity of antibiotics.

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Section: The Number Of Isolates Of Bacteriamentioning

confidence: 99%

Section: Introductionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Nanoparticles Partially Restore Bacterial Susceptibility to Antibiotics

Bogdanchikova,

Luna Vazquez-Gomez,

Nefedova

et al. 2024

Materials

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“…The electrostatic binding is followed by physical, mechanical, and morphological alterations 11,20,44−52 of the bacterial cell envelope as well as alteration of bacterial omics, 11,53−55 mental concerns. 56 Also, the Centers for Disease Control and Prevention (CDC) estimated the expense of handling antibiotic resistance as ∼$55 billion/year in the U.S. 57 Therefore, if low-cost, high-efficacy, cationic antimicrobials can be developed from green and eco-friendly materials, we will not only be able to fight against antibiotic-resistant bacteria effectively and economically but will also be able to save human, animal, and aquatic life.…”

Section: ■ Introductionmentioning

confidence: 99%

Cationic Lignin as an Efficient and Biorenewable Antimicrobial Material

Acurio Cerda,

Kathol,

Purohit

et al. 2023

ACS Sustainable Chem. Eng.

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In this work, we utilized an inexpensive and naturally abundant polymer lignin and functionalized it with quaternary ammonium groups to yield a cationic antimicrobial, QAL. As opposed to non-cationic alkali lignin (AL), a relatively low concentration of cationic QAL (∼25–150 μg/mL) exerted strong bacteriostatic and bacteriolytic effects against both wild-type and kanamycin (kan)-resistant E. coli (∼90% dead cells, ∼90–100% growth inhibition with a 1 h treatment). Treatment with 25 μg/mL QAL exposed lipid (Nile red staining) and roughened the bacterial cell envelope (from ∼4.9 to 12.9 nm). Inner membrane damage was also evident as an increased amount of leakage of the cytoplasmic enzyme was evidenced by the increase in treatment time and QAL concentration. Additionally, a Langmuir-like monolayer coverage of QAL onto bacteria was identified, which agreed with zeta potential measurements and suggested electrostatic binding as the major mechanism of antimicrobial action of QAL. Lastly, QAL showed no/minimal cytotoxicity against human embryonic kidney cells (90–100% cell viability) within the concentration range (0–300 μg/mL) in which QAL killed and completely inhibited the growth of bacteria. The development of such efficient, biorenewable antimicrobial materials from lignin can pave the way for effectively addressing antibiotic resistance and enabling biomass valorization simultaneously.

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Revealing the Second and the Third Causes of AgNPs Property to Restore the Bacterial Susceptibility to Antibiotics

Bogdanchikova

Maklakova

Villarreal-Gómez

et al. 2023

IJMS

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The increase in bacterial resistance to antibiotics is a global problem for public health. In our previous works, it was shown that the application of AgNPs in cow mastitis treatment increased S. aureus and S. dysgalactiae susceptibility to 31 antibiotics due to a decrease in the bacterial efflux effect. The aim of the present work was to shed light on whether the change in adhesive and anti-lysozyme activities caused by AgNPs also contribute to the restoration of bacterial susceptibility to antibiotics. In vivo sampling was performed before and after cow mastitis treatments with antibiotics or AgNPs. The isolates were identified, and the adhesive and anti-lysozyme activities were assessed. These data were compared with the results obtained for in vitro pre-treatment of reference bacteria with AgNPs or antibiotics. The present study revealed that bacterial treatments in vitro and in vivo with AgNPs: (1) decrease the bacterial ability to adhere to cells to start an infection and (2) decrease bacterial anti-lysozyme activity, thereby enhancing the activity of lysozyme, a natural “antibiotic” present in living organisms. The obtained data contribute to the perspective of the future application of AgNPs for recovering the activity of antibiotics rapidly disappearing from the market.

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Silver Nanoparticles Targeting the Drug Resistance Problem of Streptococcus dysgalactiae: Susceptibility to Antibiotics and Efflux Effect

Cited by 6 publications

References 6 publications

Nanoparticles Partially Restore Bacterial Susceptibility to Antibiotics

Nanoparticles Partially Restore Bacterial Susceptibility to Antibiotics

Cationic Lignin as an Efficient and Biorenewable Antimicrobial Material

Revealing the Second and the Third Causes of AgNPs Property to Restore the Bacterial Susceptibility to Antibiotics

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