Study on the effect of blackcurrant extract - based preservative on model membranes and pathogenic bacteria.

In this work the cosmetic preservative based on a Ribes Nigrum (blackcurrant) plant extract (PhytoCide Black Currant Powder abbr. BCE) was investigated to evaluate its antibacterial effect and to gain an insight into its mechanism of action. The influence of this commercially available formulation on model Escherichia coli and Staphylococcus aureus lipid membranes was studied to analyze its interactions with membrane lipids at a molecular level. The mixed lipid monolayers and one component bacteria lipid films were used to investigate the effect of BCE on condensation and morphology of model systems and to study the ability of BCE components to penetrate into the lipid environment. The in vitro tests were also done on different bacteria species (E. coli, Enterococcus faecalis, S. aureus, Salmonella enterica, Pseudomonas aeruginosa) to compare antimicrobial potency of the studied formulation. As evidenced the in vitro studies BCE formulation exerts very similar antibacterial activity against E. coli and S. aureus. Moreover, based on the collected data it is impossible to indicate which bacteria: Gram-positive or Gram-negative are more susceptible to this formulation. Model membrane experiments evidenced that the studied preservative affects organization of both E. coli and S. aureus model system by decreasing their condensation and altering their morphology. BCE components are able to penetrate into the lipid systems. However, all these effects depend on the lipid composition and monolayer organization. The collected results were analyzed from the point of view of the mechanism of action of blackcurrant extract and the factors, which may determine the activity of this formulation.

The influence of Leucidal - eco-preservative from radish - on model lipid membranes and selected pathogenic bacteria.

In this work the effect of Leucidal - a natural preservative from radish dedicated to be used in cosmetics - on bacteria cells and model bacteria membranes was investigated. To get insight into the mechanism of action of this formulation the lipid Langmuir monolayers imitating Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus) membranes were prepared. Then, the influence of Leucidal on model systems was investigated by means of the surface pressure/area measurements, penetration studies and Brewster Angle Microscopy (BAM) visualization. Similar experiments were done also for one component monolayers formed from the model membrane lipids. The in vitro tests were done on five different bacteria species (E. coli, Enterococcus faecalis, S. aureus, Salmonella enterica, Pseudomonas aeruginosa). Leucidal was found to decrease packing of the monolayers, however, it was excluded from the films at higher concentrations. Model membrane experiments evidenced also a stronger affinity of the components of this eco-preservative to E. coli vs S. aureus membrane. Among one component films, those formed from phosphatidylglycerols and cardiolipins were more sensitive to the presence of Leucidal. However, in vitro tests evidenced that Leucidal exerts stronger inhibitory effect against S. aureus bacteria as compared to E. coli strain. These findings were discussed from the point of view of the role of Leucidal components and the lipid membrane properties in the membrane - based mechanism of action of this preservative. The results allow one to suggest that the membrane may not be the main site of action of Leucidal on bacteria. Moreover, since high concentration of the tested preparation exerted antibacterial activity in relation to all tested bacteria, a low selectivity of Leucidal can be postulated, which may be problematic from the point of view of its effect on the skin microbiome.

COVID-19-Associated Pulmonary Aspergillosis in Intensive Care Unit Patients from Poland.

Coronavirus disease 2019 (COVID-19) has been shown to be a favoring factor for aspergillosis, especially in a severe course requiring admission to the intensive care unit (ICU). The aim of the study was to assess the morbidity of CAPA among ICU patients in Poland and to analyze applied diagnostic and therapeutic procedures. Medical documentation of patients hospitalized at the temporary COVID-19 dedicated ICU of the University Hospital in Krakow, Poland, from May 2021 to January 2022 was analyzed. In the analyzed period, 17 cases of CAPA were reported with an incidence density rate of 9 per 10 000 patient days and an incidence rate of 1%. Aspergillus fumigatus and Aspergillus niger were isolated from lower respiratory samples. Antifungal therapy was administered to 9 patients (52.9%). Seven patients (77.8%) received voriconazole. The CAPA fatality case rate was 76.5%. The results of the study indicate the need to increase the awareness of medical staff about the possibility of fungal co-infections in ICU patients with COVID-19 and to use the available diagnostic and therapeutic tools more effectively.

Studies on Antifungal Properties of Methacrylamido Propyl Trimethyl Ammonium Chloride Polycations and Their Toxicity In Vitro.

The biological activity of polycations is usually associated with their biocidal properties. Their antibacterial features are well known, but in this work, observations on the antifungal properties of macromolecules obtained by methacrylamido propyl trimethyl ammonium chloride (MAPTAC) polymerization are presented. The results, not previously reported, make it possible to correlate antifungal properties directly with the structure of the macromolecule, in particular the molecular mass. The polymers described here have antifungal activity against some filamentous fungi. The strongest effect occurs for polymers with a mass of about 0.5 mDa which have confirmed activity against the multidrug-resistant species Scopulariopsis brevicaulis, Fusarium oxysporum, and Fusarium solani, as well as the dermatophytes Trichophyton mentagrophytes, Trichophyton rubrum, Trichophyton interdigitale, and Trichophyton tonsurans. In addition, this publication describes the effects of these macromolecular systems on serum and blood components and provides a preliminary assessment of toxicity on cell lines of skin-forming cells, i.e., fibroblasts and keratinocytes. Additionally, using a Franz diffusion chamber, a negligibly low transport of the active polymer through the skin was demonstrated, which is a desirable effect for externally applied antifungal drugs. IMPORTANCE Infectious diseases are a very big medical, social, and economic problem. Even before the COVID-19 pandemic, certain infections were among of the most common causes of death. The difficulties in the treatment of infectious diseases concern in particular fungal diseases, against which we have only a few classes of drugs represented by a few substances. The publication presents the preliminary results of the in vitro antifungal activity studies of four MAPTAC polymers on different fungal species and their cytotoxicity to human cells (fibroblasts and keratinocytes). The paper also compares these properties with analogous ones of two commonly used antifungal drugs, ciclopirox and terbinafine.

Preliminary Studies on the Mechanism of Antifungal Activity of New Cationic ß-Glucan Derivatives Obtained from Oats and Barley.

New chemical structures with antifungal properties are highly desirable from the point of view of modern pharmaceutical science, especially due to the increasingly widespread instances of drug resistance in the case of these diseases. One way to solve this problem is to use polymeric drugs, widely described as biocidal, positively charged macromolecules. In this work, we present the synthesis of new cationic ß-glucan derivatives that show selective antifungal activity and at the same time low toxicity toward animal and human cells. Two ß-glucans isolated from oats and barley and modified using glycidyltrimethylammonium chloride were obtained and evaluated for biocidal properties on the cells of mammals and pathogenic fungi and bacteria. These compounds were found to be nontoxic to fibroblast and bacterial cells but showed selective toxicity to certain species of filamentous fungi (Scopulariopsis brevicaulis) and yeasts (Cryptococcus neoformans). The most important aspect of this work is the attempt to explain the mechanisms of action of these compounds by studying their interaction with biological membranes. This was achieved by examining the interactions with model biological membranes representative of given families of microorganisms using Langmuir monolayers. The data obtained partly show correlations between the results for model systems and biological experiments and allow indicating that the selective antifungal activity of cationic ß-glucans is related to their interaction with fungal biological membranes and partly lack of such interaction toward cells of other organisms. In addition, the obtained macromolecules were characterized by spectral methods (Fourier transform infrared (FTIR) and 1H nuclear magnetic resonance (NMR) spectroscopies) to confirm that the desired structure was obtained, and their degree of modification and molecular weights were determined.

Current Opinion on the Therapeutic Capacity of Taurine-Containing Halogen Derivatives in Infectious and Inflammatory Diseases.

Taurine haloamines, N-chlorotaurine (NCT, TauCl), and N-bromotaurine (NBT, TauBr) are formed by a reaction between taurine and hypohalous acids, HOCl and HOBr, respectively. The major source of endogenous taurine haloamines is neutrophils. Both NCT and NBT share strong anti-inflammatory and microbicidal activities supported by an absence of microbial resistance. In the light of these properties, a number of clinical studies have been performed to document their effectiveness in treatment of bacterial, fungal, and viral infections. The administration of NCT and NBT has been limited to topical application, as they are decomposed upon systemic delivery. This review summarizes current knowledge concerning the therapeutic use of NCT and NBT mainly in various skin disorders such as non-healing wounds, acne vulgaris, herpes zoster, and psoriasis. Moreover, the beneficial effect of NCT inhalation in early stages of COVID-19 and other viral respiratory infections is discussed. And finally, we would like to suggest that NCT might be used to inhibit the development of the cytokine storm through its capacity to suppress the production of IL-6.

Synthesis and Study of Antifungal Properties of New Cationic Beta-Glucan Derivatives.

The interaction of positively charged polymers (polycations) with a biological membrane is considered to be the cause of the frequently observed toxicity of these macromolecules. If it is possible to obtain polymers with a predominantly negative effect on bacterial and fungal cells, such systems would have great potential in the treatment of infectious diseases, especially now when reports indicate the growing risk of fungal co-infections in COVID-19 patients. We describe in this article cationic derivatives of natural beta-glucan polymers obtained by reacting the polysaccharide isolated from Saccharomyces boulardii (SB) and Cetraria islandica (CI) with glycidyl trimethyl ammonium chloride (GTMAC). Two synthesis strategies were applied to optimize the product yield. Fungal diseases particularly affect low-income countries, hence the emphasis on the simplicity of the synthesis of such drugs so they can be produced without outside help. The three structures obtained showed selective anti-mycotic properties (against, i.e., Scopulariopsis brevicaulis, Aspergillus brasiliensis, and Fusarium solani), and their toxicity established using fibroblast 3T3-L1 cell line was negligible in a wide range of concentrations. For one of the polymers (SB derivative), using in vivo model of Aspergillus brasiliensis infection in Galleria mellonella insect model, we confirmed the promising results obtained in the preliminary study.

Molecular taxonomy of scopulariopsis-like fungi with description of new clinical and environmental species.

The taxonomy of scopulariopsis-like fungi, comprising numerous human opportunistic species, has recently been reassessed with delineation of the genera Microascus, Pithoascus, Pseudoscopulariopsis, and Scopulariopsis, using morphological data and multilocus sequence analysis based on four loci (ITS, LSU, EF-1α, and TUB). In this study, the same genetic markers were used to investigate a set of clinical and environmental isolates, morphologically identified as Microascus and Scopulariopsis spp. The ingroups of the concatenated phylogenetic tree resolved 41 species clades, with isolates distributed in four main lineages corresponding to the genera Microascus, Pithoascus, Scopulariopsis, and newly established genus Fuscoannellis, typified by Scopulariopsis carbonaria. The new species Microascus chinensis, Microascus onychoides, Microascus pseudolongirostris, Pithoascus lunatus, and Scopulariopsis macurae were described. Microascus trigonosporus var. terreus and Scopulariopsis alboflavescens were found different from M. trigonosporus and Scopulariopsis brevicaulis, respectively. All the species identified in the study, except Fuscoannellis carbonaria and S. macurae, originated from clinical samples, suggesting their potential role in human disease. The use of a four marker combination was demonstrated an efficient and reliable approach to infer phylogenetic relationships among the scopulariopsis-like fungi. Yet, the only genetic marker able to discriminate all species was EF-1α, therefore proposed as a secondary barcode for the identification of these fungi.

21-year retrospective study of the prevalence of Scopulariopsis brevicaulis in patients suspected of superficial mycoses.

INTRODUCTION: In the genus Scopulariopsis, Scopulariopsis brevicaulis is the most common aetiological agent of infections in humans. It usually affects nails and is one of the commonest moulds associated with onychomycoses. Other forms of infections (skin, subcutaneous, deep tissues, and disseminated infections) have also been described. AIM: To examine the prevalence of S. brevicaulis in clinical materials obtained from patients suspected of keratinized tissues mycoses. MATERIAL AND METHODS: The analysis of the prevalence of S. brevicaulis in clinical specimens was based on mycological test's results carried out for patients who were referred with a suspicion of superficial mycoses to the Department of Mycology, Chair of Microbiology, Jagiellonian University Medical College from 1992 till 2012. RESULTS: In the years 1992-2012 16,815 clinical samples (nail scrapings, nail swabs, skin scrapings, skin swabs, hair) were collected. Pathogenic fungi were detected in 7193 samples and S. brevicaulis was present in 255 (3.5%). The prevalence of S. brevicaulis in males and females was comparable. The species was most often isolated from toenails (80%), both from males and females. In the analysed period we observed a decrease in the prevalence of S. brevicaulis. In most cases (60%) S. brevicaulis occurred alone in 40% of S. brevicaulis positive cultures, other fungi were also isolated. The fungi most frequently isolated with S. brevicaulis were Trichophyton rubrum, T. mentagrophytes, Penicillium sp., Candida sp., and Aspergillus sp. CONCLUSIONS: Scopulariopsis brevicaulis is not a common cause of superficial fungal infections of keratinized tissues, but is a typical mould associated with toenail onychomycosis. A proper identification of this species in onychomycoses is essential for the implementation of effective antifungal therapy.

In vitro activities of a wide panel of antifungal drugs against various Scopulariopsis and Microascus species.

The in vitro activities of 11 antifungal drugs against 68 Scopulariopsis and Microascus strains were investigated. Amphotericin B, 5-fluorocytosine, fluconazole, itraconazole, ketoconazole, miconazole, posaconazole, voriconazole, and ciclopirox showed no or poor antifungal effect. The best activities were exhibited by terbinafine and caspofungin, where the MIC and MEC (minimal effective concentration) ranges were 0.0313 to >16 µg/ml and 0.125 to 16 µg/ml, respectively. The MIC and MEC modes were both 1 µg/ml for terbinafine and caspofungin; the MIC50 and MEC50 were 1 µg/ml for both drugs, whereas the MIC90 and MEC90 were 4 µg/ml and 16 µg/ml, respectively.

In vitro antifungal susceptibility of Scopulariopsis brevicaulis isolates.

In humans, Scopulariopsis is mainly associated with onychomycoses, rarely with cutaneous infections or with invasive mycoses. However, during the last two decades, deep infections caused by members of this genus have been increasing. Scopulariopsis brevicaulis is the most common species described as an etiologic agent of human disease. Previous antifungal susceptibility studies indicate that this species is resistant in vitro to the broad-spectrum antifungal agents that are available today. Here, we describe the antifungal activity of amphotericin B, terbinafine, ciclopirox, itraconazole, ketoconazole, and voriconazole against 40 S. brevicaulis isolates. Antifungal susceptibility tests were performed using a modified Clinical and Laboratory Standards Institute M38-A2 procedure. The results showed that itraconazole had the highest minimal inhibitory concentration (MIC) of >16 mg/l; amphotericin B, voriconazole, and ketoconazole MICs were ranging from 4 to >16 mg/l, 8 to >16 mg/l, and 8 to >16 mg/l, respectively; and the best activity was found with terbinafine and ciclopirox with MICs ranging from 0.5 to 16 mg/l and 1 to 8 mg/l, respectively.

Identification of Scopulariopsis species by partial 28S rRNA gene sequence analysis.

The genus Scopulariopsis contains over 30 species of mitosporic moulds, which although usually saprophytic may also act as opportunistic pathogens in humans. They have mainly been associated with onychomycosis, and only sporadically reported as a cause of deep tissue infections or systemic disease. Identification of Scopulariopsis species still largely relies on phenotype-based methods. There is a need for a molecular diagnostic approach, that would allow to reliably discriminate between different Scopulariopsis species. The aim of this study was to apply sequence analysis of partial 28S rRNA gene for species identification of Scopulariopsis clinical isolates. Although the method employed did reveal some genetic polymorphism among Scopulariopsis isolates tested, it was not enough for species delineation. For this to be achieved, other genetic loci, within and beyond the rDNA operon, need to be investigated.

[Fungi isolated from the vagina and their susceptibility to antifungals]. / Grzyby izolowane z pochwy i ich wrazliwosc na leki przeciwgrzybicze.

INTRODUCTION: Because of the presence of various fungi and changes in their spectrum in the mycosis of vagina it is necessary to perform periodic overviews including testing their susceptibility to antifungal agents. OBJECTIVE: The objective of the study was to evaluate susceptibility of the fungi isolated from vaginas to antifungal drugs and to analyse the fungi responsible for vaginal mycosis in patients referred during a 7-year study MATERIALS AND METHODS: The study was carried out in a group of patients suspected of vaginal mycosis between January 1, 2005 and December 31, 2011. An analysis of the fungi isolated from their vaginas was performed. The susceptibility of the fungi to six antifungals (5-fluorocytosine, amphotericin B, miconazole, ketoconazole, itraconazole and fluconazole) was evaluated using a semiquantitative Fungitest. RESULTS: A total of 4775 mycological test results were evaluated. Fungi were present in 30.6% of the material. C. albicans was the most frequently isolated fungal species (80.2%), followed by C. glabrata (5.8%), and S. cerevisiae (5.5%). Itraconazole turned out to be the least effective drug. C. krusei. was the species most resistant to antifungals, including fluconazole. CONCLUSIONS: 1. C. albicans is the species most frequently isolated from a vagina. It is highly susceptible to azoles, the antimycotics generally used in the treatment of vaginal mycosis. 2. Out of the azoles under study ketoconazole was the most active against fungi in vitro while itraconazole was the least active. 3. The Candida non-albicans species, and particularly C. krusei, are less susceptible to antimycotics. 4. Amphotericin B and 5-fluorocytosine are most effective against Candida strains and S. cerevisiae, however they are not used in the treatment of vaginal mycosis because of their high toxicity

In vitro antifungal susceptibility testing of Scopulariopsis brevicaulis strains using agar diffusion method.

The genus Scopulariopsis is a common soil saprotroph and has been isolated from air, organic waste and also from plant, animal and human tissues. Scopulariopsis has mainly been associated in humans with superficial mycoses, but it has also been described as the cause of subcutaneous and invasive infections. The most common aetiological agent of infections in humans is Scopulariopsis brevicaulis. This species has been reported to be resistant in vitro to broad-spectrum antifungal agents available today. The aim of the study was to establish in vitro antifungal susceptibility of 35 S. brevicaulis strains against amphotericin B (AMB), flucytosine (FC), caspofungin (CAS), terbinafine (TER), ciclopirox (CIC), voriconazole (VOR), clotrimazole (CTR), miconazole (MCZ), econazole (ECO), ketoconazole (KET), itraconazole (ITR), and fluconazole (FLU). Antifungal susceptibility tests were evaluated by an agar diffusion method (Neo-Sensitabs, Rosco, Denmark). AMB, FC, CAS, ITR and FLU showed no antifungal activity against S. brevicaulis. TER, CIC, CTR, KET, VOR, ECO, and MCZ revealed inhibitory activity for S. brevicaulis, but it varied for each of the drugs. The best antifungal effect was observed for TER and CIC. All isolates had large inhibition zones for TER and CIC. CTR was also inhibitory for all tested S. brevicaulis isolates, but the diameters of inhibition zones were smaller than for TER and CIC. Nearly 89% isolates showed inhibition zones for KET and the mean diameter of the inhibition zone was comparable to CTR. The least antifungal activity exhibited VQR, ECO and MCZ. Because of the multiresistance of S. brevicaulis, infections due to this species may not respond to particular antifungal treatment and other therapeutic approaches should be considered, e.g., combined therapy and/or surgery.