Efficacy of Entomopathogenic Staphylococcus Bacteria as a Biocontrol Agent against Rhipicephalus microplus Ticks: Assessing Reproductive Inhibition and Mortality Rates.

Rhipicephalus microplus is a persistent ectoparasite of cattle that causes bovine anaplasmosis and babesiosis, causing economic losses worldwide. Chemical treatment is the primary method for tick control, but the emergence of pesticide-resistant ticks is a major challenge. Alternative biocontrol strategies utilizing entomopathogenic microorganisms are being explored. This study aimed to validate the species identification and assess the efficacy of four strains of Staphylococcus bacteria (S. shinii S1 and S-2, S. succinus, and S. xylosus) previously reported as being entomopathogenic to R. microplus ticks. According to the bioassays, S. shinii S-1 exhibited the greatest degree of reproductive inhibition (47%), followed by S. succinus (44.3%) at a concentration of 1 × 108 cfu/mL. S. xylosus displayed decreased reproductive inhibition (6.3%). In an additional bioassay, S. shinii S-1 exhibited a significant larval mortality of 67.63%, followed by S. succinus with 66.75%, S. shinni S-2 with 64.61%, and S. xylosus with 28.18% mortality. The common signs of infection observed on these ticks included swelling, yellowish exudate on the hypostome, and reduced limb mobility and color change, except for S. succinus, which did not cause color changes. These bacteria were naturally found on bovine skin. However, further studies are needed to confirm their potential as promising alternatives or complementary agents to existing acaricidal compounds.

Antimicrobial Activities of Propolis in Poloxamer Based Topical Gels.

Propolis contains a group of compounds with various activities. However, their low solubility is a drawback for the development of pharmaceutical formulations. In this study, poloxamers as a solubilizer and gelling agent were evaluated to develop a topical antimicrobial formulation of propolis. The effects of poloxamer type and concentration on the propolis solubility, release rate, and antimicrobial activities were investigated. Staphylococcus aureus (S. aureus) and Candida albicans (C. albicans) were the representative bacteria and fungi, respectively. At 5%, poloxamer 407 (P407) and poloxamer 188 (P188) enhanced the propolis solubility by 2.86 and 2.06 folds, respectively; at 10%, they were 2.81 and 2.59 folds, respectively. The micelle size in the P188 formulation increased in the presence of propolis, whereas there was no change in the P407 formulation. Release rates of propolis decreased with the P188 concentration increase, which was attributed to viscosity increase. Both P188 and P407 formulations showed antimicrobial activity against S. aureus in a time-kill kinetics assay. However, only the P188 formulation reduced the cell's numbers significantly against C. albicans, compared to the control. We speculate that P188 mixed micelles were more effective in releasing free active compounds to exhibit anti-microbial activity compared to the P407 micelles encapsulating the hydrophobic compounds in their cores. Propolis in P188 formulation is proposed as a potential topical antimicrobial agent based on its activity against both S. aureus and C. albicans.

Staphylococcal slime layers and biofilm from different origins / Slime layer e biofilme de Staphylococcus de diferentes origens

ABSTRACT: The genus Staphylococcus comprises some of the most important pathogenic bacteria for both humans and animals. It is responsible for bovine mastitis and canine otitis, besides being present in the microbiota of animals and as a contaminant in food. Its pathogenesis is related to the formation of capsule and biofilm, which contribute to its infectivity. The objective of this study was to observe the production of slime layer and formation of biofilm, which are related to the resistance to antimicrobial agents and presence of icaA and icaD genes, in 41 isolates of Staphylococcus spp. from different origins, provided by the Universidade Federal de Pelotas (UFPEL), Laboratório Regional de Diagnóstico (LRD). Strains of Staphylococcus spp. were cultivated in Congo red agar for capsule detection. Biofilm formation was detected using the 96-well microplate testing. Antimicrobial susceptibility testing was performed using the plate diffusion method. Part of the analyzed samples produced slime layer (36.6%) and formed biofilm (17.1%). However, six of those that formed biofilms were susceptible to the eight antibiotics tested in the antibiogram. In tests to determine the minimum bactericidal and inhibitory concentrations, gentamicin resistance of biofilm-forming strains was greater than that of non-forming strains. Ampicillin was the least effective antimicrobial drug (51%), followed by tetracycline (71%), neomycin (73%), and erythromycin (73%). Some isolates presented the icaA (6) and icaD (11) genes. Therefore, we suggested that the origin of an isolate can determine its expression of virulence factor and resistance to certain antibiotics.

RESUMO: O gênero Staphylococcus abrange algumas das bactérias patogênicas mais importantes tanto para humanos como para animais. Ele é responsável pela mastite bovina e otite canina, além de estar presente na microbiota de animais e como contaminante em alimentos. Sua patogênese está relacionada à formação de cápsula e biofilme, que contribuem para sua infectividade. O objetivo deste estudo foi observar a produção de slime layer e a formação de biofilme, que estão relacionados à resistência a antibicrobianos e à presença dos genes icaA e icaD, em 41 isolados de Staphylococcus spp. de diferentes origens fornecidos pelo Laboratório Regional de Diagnóstico (LRD) da Universidade Federal de Pelotas (UFPEL). Os isolados de Staphylococcus spp. foram cultivados em ágar vermelho do Congo para detecção de cápsulas. A formação de biofilme foi detectada usando o teste de microplaca com 96 poços. O teste de susceptibilidade antimicrobiana foi realizado usando o método de difusão em placa. Parte das amostras analisadas produziram slime layer (36,6%) e formaram biofilme (17,1%). Entretanto, seis daquelas que formaram biofilmes foram sensíveis aos oito antibióticos testados no antibiograma. Em testes para determinar as concentrações bactericidas e inibitórias mínimas, a resistência à gentamicina de cepas formadoras de biofilme foi maior que aquela das cepas não formadoras. O antimicrobiano menos eficaz foi a ampicilina (51%), seguida por tetraciclina (71%), neomicina (73%) e eritromicina (73%). Alguns isolados apresentaram os genes icaA (6) e icaD (11). Portanto, sugerimos que a origem de um isolado pode determinar sua expressão de fator de virulência e resistência a certos antibióticos.

Synthesis of curcumin-loaded chitosan phosphate nanoparticle and study of its cytotoxicity and antimicrobial activity.

Curcumin has acquired an important position in the treatment of various diseases. But its use, as a chemotherapeutic agent, is limited due to its low water solubility, poor bioavailability, and its sensitive nature at the physiological pH. To overcome this, curcumin was loaded into chitosan phosphate nanoparticles (CPNs). The loading efficiency was found to be 84%. DLS studies revealed the average particle size of CPNs and curcumin-loaded CPNs as 53 and 91 nm, respectively, and TEM results supplemented these values. A sustained release pattern was noticed and the amount of curcumin released in acidic pH was higher than at physiological pH. The curcumin nanoformulation exhibited proficient activity against both Gram-positive and Gram-negative bacteria as well as fungus. Cytocompatibility of the nanoformulations against peripheral blood mononuclear cells (PBMCs) and murine monocyte-macrophage cell line was confirmed by incubating with PBMCs and murine monocyte-macrophage cell line.

Effective Sterilization Method of the Bacteria-inducing Offensive Odor of Shoes / 대한피부과학회지

BACKGROUND: It is known that the offensive odor of shoes is due to contaminated bacteria. Therefore, the foul odor can be eliminated if these bacteria are sterilized. There is an effective method to sterilize contaminated shoes, which involves vacuum drying evaporate water at a relatively low temperature. This dehydrates the bacteria rapidly, and sterilizes shoes without damage. OBJECTIVE: This study was undertaken to analyse the contaminated bacteria of shoes and to evaluate the bactericidal effect and rapid dehydration by heating and vacuum drying. METHODS: Contaminated bacteria were isolated from the soles and foul odor shoes of 15 volunteers by swab sampling method. Three strains of Staphylococcus (S.) aureus and S. epidermidis were used to find an effective sterilization method. Vacuum drying or wet heating of bacterial suspension was conducted by a vacuum dryer at various temperatures and exposure times. The treated bacteria were rehydrated and were cultured on nutrient agar petri dishes. The viability was expressed as colony forming unit (CFU) of experimental group divided by that of control group. RESULTS: S. aureus was isolated from the soles and shoes of 7 volunteers, and S. epidermidis from 5 volunteers. In 3 volunteers, both S. epidermidis and S. aureus were isolated. When S. epidermidis and S. aureus were dried for one hour by vacuum drying, the viability decreased as temperature increased, however, no sterilization was noted even at 90 degrees C for 8 hours. Moreover, under vacuum drying at 90 degrees C for 15 minutes, viability was reduced by 10%. The number of bacteria was reduced by 90% after 30 minutes of wet heating at 60 degrees C, or 15 minutes wet heating at 65 degrees C. However, sterilization was only accomplished by wet heating at 60 degrees C for one hour. Therefore, wet heating appears to be effective in reducing and sterilizing S. aureus and S. epidermidis, compared to vacuum drying. Sterilization was not obtained by vacuum drying at a moderate temperature. CONCLUSION: These results indicate that wet heating for one hour at 60 degrees C, followed by vacuum drying at a moderate temperature would be an effective way to sterilize contaminated bacteria, dry shoes and inhibit the offensive odor within shoes.