Phytochemical characterization of the Ziziphus joazeiro Mart. metabolites by UPLC-QTOF and antifungal activity evaluation.

The aim of this study was to evaluate the antifungal and modulatory potential of the Ziziphus joazeiro bark and leaf extracts, both in isolation and in association with fluconazole, against resistant species from the Candida genus. Antifungal assays were used to determine the half maximal inhibitory concentration (IC50) of the extract in isolation and in combination with fluconazole using the broth microdilution method and spectrophotometric readings, followed by verification of the minimum fungicidal concentration by solid medium subculture. According to the cell viability curve, both extracts inhibited fungal growth in a concentration dependent manner, in addition to showing inhibitory concentrations similar to fluconazole. However, the extracts behaved in a fungistatic manner with minimum inhibitory concentration > 8.19 mg/mL and IC50 values ranging from 0.450 mg/mL to 9 mg/mL. The minimum inhibitory concentration for both extracts decreased when in combination with fluconazole, with the AEL standing out against Candida albicans URM 4387, displaying an IC50 equal to that of fluconazole (0.002 mg/mL). Nevertheless, fluconazole antagonism was observed against the tested strains. Overall, the evaluation of both extracts against Candida spp. presented inhibitory concentration values greater than fluconazole. Moreover, despite these being chemically complex crude extracts, they did demonstrate antifungal effects and properties that concur with their ethno-biological aspect.

Antiparasitic effect of the Psidium guajava L. (guava) and Psidium brownianum MART. EX DC. (araçá-de-veado) extracts.

In the search for new therapeutic agents against neglected diseases, both aqueous and hydroethanolic extracts from Psidium guajava L. and P. brownianum Mart ex DC leaves were investigated regarding their antiparasitic effect and cytotoxic potential. The extracts were tested at three concentrations (250, 500 and 1000 µg/mL) against Trypanosoma cruzi epimastigote forms (Chagas, 1909), Leishmania braziliensis (Vianna, 1911) and L. infantum promastigotes forms (Nicolle, 1908), as well as against fibroblasts. P. guajava showed no activity against T. cruzi forms, while the hydroethanolic (PBHE), aqueous by decoction (PBAED) and aqueous by infusion (PBAEI) P. browninaum extracts were responsible, respectively, for inhibiting 100, 100 and 92.68% of T. cruzi epimastigote growth at the 1000 µg/mL concentration. The P. brownianum hydroethanolic extract (PBHE) at the highest concentration caused 58.46% death in L. braziliensis, thus demonstrating moderate activity, however when tested against L. infantum, the PBHE inhibited their growth by 37.16%, revealing its low activity. As for the cytotoxicity assays, the P. brownianum aqueous extract by decoction (PBAED) obtained the highest death percentage when compared to the others, causing 90.85% fibroblast mortality at the 1000 µg/mL concentration.

Cholecalciferol, Ergosterol, and Cholesterol Enhance the Antibiotic Activity of Drugs.

Background: This is the first report demonstrating the antibiotic-modifying activity of cholecalciferol. AIM: In this study, cholecalciferol was evaluated against multiresistant strains of Staphylococcus aureus, Pseudomonas aeruginosa, and Escherichia coli. METHODS: The antibacterial and modulatory effects of cholecalciferol, ergosterol, and cholesterol (8-512 µg/mL) were evaluated by microdilution assay against multiresistant bacterial strains. RESULTS: Cholecalciferol, when combined with aminoglycosides, was more effective against P. aeruginosa, reducing the concentration of amikacin and gentamicin necessary to inhibit bacterial growth from 156.25 to 39.06 µg/mL and from 39.06 to 9.76 µg/mL, respectively. It is possible that cholecalciferol, due to its lipid-soluble nature, had a lipophilic interaction with the cell membrane, enhancing antibiotic uptake. Cholesterol and ergosterol were used to see if the mechanism of action of cholecalciferol was similar to that of these lipid compounds. Ergosterol and cholesterol increased aminoglycoside activity, where the effect was greater with higher subinhibitory concentration of sterol. CONCLUSIONS: There is no reported study on the use of cholesterol and ergosterol as modulators of antibiotics or any other drug, making this the first study in this area highlighting the interaction between cholesterol, ergosterol, and cholecalciferol with regard to modifying aminoglycoside activity.

Menadione (vitamin K) enhances the antibiotic activity of drugs by cell membrane permeabilization mechanism.

Menadione, vitamin K3, belongs to the class of lipid-soluble vitamins and lipophilic substances as menadione cause disturbances in the bacterial membrane, resulting in damage to the fundamental elements for the integrity of the membrane, thus allowing increased permeability. Accordingly, the aim of this study was to evaluate in vitro the antibiotic-modifying activity of menadione in multiresistant strains of Staphylococcus aureus, Pseudomonas aeruginosa and Escherichia coli, with a gradual increase in its subinhibitory concentration. In addition, menadione was compared with cholesterol and ergosterol for similarity in mechanism of drug modulatory action. Antibiotic-modifying activity and antibacterial effect were determined by the broth microdilution assay. Menadione, cholesterol and ergosterol showed modulatory activity at clinically relevant concentrations, characterizing them as modifiers of bacterial drug resistance, since they lowered the MIC of the antibiotics tested. This is the first report of the antibacterial activity of menadione and its potentiation of aminoglycosides against multiresistant bacteria.

Enhancement of the antibiotic activity of aminoglycosides by alpha-tocopherol and other cholesterol derivates.

Alpha-tocopherol, one of the most abundant isoforms of vitamin E, is a biologically active liposoluble vitamin and potent antioxidant. It occurs naturally in foods of plant and animal origin. Because of its lipophilic character, it can cause perturbations in the bacterial cell membrane, resulting in damage to components essential for the integrity of the membrane, thereby allowing an increase in permeability. This is the first report of the modulatory effect of alpha-tocopherol in multiresistant bacteria. We evaluated alpha-tocopherol against multiresistant strains of Staphylococcus aureus, Pseudomonas aeruginosa and Escherichia coli, and determined if there was any similarity with the mechanism of modulatory action of cholesterol and ergosterol. When combined with aminoglycosides in a microdilution broth assay, alpha-tocopherol possibly acted through a lipophilic action on the cell envelope, modulating more effectively P. aeruginosa and E. coli, when compared with S. aureus.

Avaliação da atividade citotóxica e potencial antiparasitário in vitro do a-pineno e carvacrol / Cytotoxic and antiparasitic in vitro activities of a-pinene and carvacrol

A leishmaniose e a doença de Chagas tem sido um grande desafio, no que diz respeito à sua terapêutica. Devido à grande dificuldade de encontrar fármacos que garantam uma ação terapêutica eficiente e menos agressora à espécie humana, diferentes produtos naturais vêm sendo testados. Muitas espécies vegetais foram investigadas quanto à sua ação leishmanicida e tripanocida na expectativa de que seus compostos metabólicos possuam atividade antiparasitária e ausência ou baixa citotoxicidade. Neste estudo sobre bioatividade do a-pineno e carvacrol, avaliaram-se os potenciais leishmanicida e tripanocida. O carvacrol apresentou um percentual de inibição de 38,34% e 74,12% para as formas promastigotas e epimastigotas respectivamente, na concentração de 100µg/mL, apresentando uma citotoxicidade de 21,62%. O a-pineno apresentou 100% e 5,30% de inibição para as formas epimastigota e promastigota na concentração de 100 µg/mL, com citotoxicidade de 87,88%.

Leishmaniasis and Chagas Disease represent a great challenge against the modern therapeutics. Due the high difficult to find new drugs with therapeutic efficacy and low toxicity, several natural products had been screened. Many species of plants were investigated about their leishmanicidal and trypanocidal activities. Some phytocompounds are the a-pinene and carvacrol. In this work, we evaluated the bioactivities of a-pinene and carvacrol against Trypanosoma cruzi and Leishmania braziliensis cell lines. The carvacrol inhibited 38,34% and 74,12% of the promatigote and epimastigote forms, respectively at 100 µg/mL, showing a low cytotoxic activity (21,62%). The O a-pinene inhibited 100% and 5,30% against the epimastigote and promastigote forms respectively, at 100 µg/mL, showing a higher cytotoxic activity (87,88%).

AvaliaþÒo da atividade citotóxica e potencial antiparasitário in vitro do a-pineno e carvacrol / Cytotoxic and antiparasitic in vitro activities of a-pinene and carvacrol

A leishmaniose e a doenþa de Chagas tem sido um grande desafio, no que diz respeito O sua terapÛutica. Devido O grande dificuldade de encontrar fármacos que garantam uma aþÒo terapÛutica eficiente e menos agressora O espécie humana, diferentes produtos naturais vÛm sendo testados. Muitas espécies vegetais foram investigadas quanto O sua aþÒo leishmanicida e tripanocida na expectativa de que seus compostos metabólicos possuam atividade antiparasitária e ausÛncia ou baixa citotoxicidade. Neste estudo sobre bioatividade do a-pineno e carvacrol, avaliaram-se os potenciais leishmanicida e tripanocida. O carvacrol apresentou um percentual de inibiþÒo de 38,34% e 74,12% para as formas promastigotas e epimastigotas respectivamente, na concentraþÒo de 100Ag/mL, apresentando uma citotoxicidade de 21,62%. O a-pineno apresentou 100% e 5,30% de inibiþÒo para as formas epimastigota e promastigota na concentraþÒo de 100 Ag/mL, com citotoxicidade de 87,88%.(AU)

Leishmaniasis and Chagas Disease represent a great challenge against the modern therapeutics. Due the high difficult to find new drugs with therapeutic efficacy and low toxicity, several natural products had been screened. Many species of plants were investigated about their leishmanicidal and trypanocidal activities. Some phytocompounds are the a-pinene and carvacrol. In this work, we evaluated the bioactivities of a-pinene and carvacrol against Trypanosoma cruzi and Leishmania braziliensis cell lines. The carvacrol inhibited 38,34% and 74,12% of the promatigote and epimastigote forms, respectively at 100 Ag/mL, showing a low cytotoxic activity (21,62%). The O a-pinene inhibited 100% and 5,30% against the epimastigote and promastigote forms respectively, at 100 Ag/mL, showing a higher cytotoxic activity (87,88%).(AU)