Chloroacetamide derivatives as a promising topical treatment for fungal skin infections.

The aim of this study was to evaluate the antifungal potential of 11 chloroacetamide derivatives and derivative incorporated into a film-forming system (FFS) as a potential alternative for the topical treatment of superficial and skin mycoses. The minimum inhibitory concentration (MIC) evaluation followed Clinical and Laboratory Standards Institute protocols M27-A3 (Candida) and M28-A2 (dermatophytes). Compounds 2, 3, and 4 were the most effective against Candida species (MIC range: 25-50 µg/mL) and dermatophytes (MIC range: 3.12-50 µg/mL). Compound 2 maintained its antifungal activity when incorporated in a FFS, with MIC values equivalent to the free compound. In addition, the compound does not act through complexation with ergosterol, suggesting that it may act on other targets of the fungal cell membrane. Chloroacetamide derivatives presented anti-Candida and anti-dermatophytic effectiveness. The FFS containing compound 2 has shown to be superior to traditional topical treatment of superficial and cutaneous fungal infections. It was found that these new chemical entities, with their applicability, are an excellent alternative to the topical treatment of fungal skin infections.

Clioquinol is a promising preventive morphological switching compound in the treatment of Candida infections linked to the use of intrauterine devices.

PURPOSE: Candida biofilm infections are frequently linked to the use of biomaterials and are of clinical significance because they are commonly resistant to antifungals. Clioquinol is an antiseptic drug and is effective against multidrug-resistant Candida. We investigated the effect of clioquinol and two other 8-hydroxyquinoline derivatives on Candida biofilm. METHODOLOGY: The ability to inhibit biofilm formation, inhibit preformed biofilm and remove established biofilms was evaluated using in vitro assays on microtitre plates. The action of clioquinol on biofilm in intrauterine devices (IUDs) was also investigated, describing the first protocol to quantify the inhibitory action of compounds on biofilms formed on IUDs. RESULTS: Clioquinol was found to be the most effective 8-hydroxyquinoline derivative among those tested. It prevented more than 90 % of biofilm formation, which can be attributed to blockade of hyphal development. Clioquinol also reduced the metabolic activity of sessile Candida but the susceptibility was lower compared to planktonic cells (0.031-0.5 µg ml-1 required to inhibit 50 % planktonic cells and 4-16 µg ml-1 to inhibit 50 % preformed biofilms). On the other hand, almost complete removal of biofilms was not achieved for the majority of the isolates. Candida spp. also showed the ability to form biofilm on copper IUD; clioquinol eradicated 80-100 % of these biofilms. CONCLUSION: Our results indicate a potential application in terms of biomaterials for 8-hydroxyquinoline derivatives. Clioquinol could be used as a coating to prevent morphological switching and thus prevent biofilm formation. Furthermore, clioquinol may have future applications in the treatment of Candida infections linked to the use of IUDs.

Novas tendências de combate ao biofilme de Candida em próteses dentárias / New trends to combat Candida biofilm in dental prosthetics

Apesar de a espécie Candida albicans ser efetivamente o microrganismo mais frequentemente associado a estomatite protética, as espécies de Candida não albicans já foram isoladas nas superfícies de dentaduras e da mucosa oral de indivíduos com essa lesão eritematosa. A virulência das espécies de Candida e a capacidade de adesão a polímeros acrílicos são condições prévias para a colonização e o desenvolvimento de biofilmes em superfícies de dentaduras. Estudos recentes focam na tentativa de modificação das resinas acrílicas para diminuir a adesão de cepas patogênicas e formadoras de biofilme do gênero Candida spp. Dentro desse aspecto, esta revisão sistematiza o atual panorama epidemiológico da estomatite protética associada ao uso de próteses dentárias, bem como as atuais e novas opções de combate ao biofilme fúngico especializado na adesão desse tipo de biomaterial. (AU)

Although the Candida albicans species is effectively the microorganism most frequently associated with prosthetic stomatitis, Candida non-albicans species have already been isolated from the denture and oral mucosal surfaces of individuals with this erythematous lesion. The virulence of Candida species and the ability to adhesion to acrylic polymers are preconditions for the colonization and development of biofilms on denture surfaces. Recent studies focus on the attempt to modify the acrylic resins to reduce the adhesion of pathogenic and biofilm forming strains of the genus Candida spp. In this aspect, this review systematizes the current epidemiological panorama of prosthetic stomatitis associated with the use of dental prostheses, as well as new options for combating the fungal biofilm specialized in the adhesion of this type of biomaterial. (AU)

Evaluation of 8-Hydroxyquinoline Derivatives as Hits for Antifungal Drug Design.

Clioquinol is an 8-hydroxyquinoline derivative that was widely used from the 1950s to 1970s as an oral antiparasitic agent. In 1970, the oral forms were withdrawn from the market due to reports of toxicity, but topical formulations for antifungal treatment remained available. Thus, the purpose of this study was to evaluate the toxicity, anti-Candida and antidermatophyte activity and to determine pharmacodynamic characteristics of clioquinol and other 8-hydroxyquinoline derivatives (8-hydroxy-5-quinolinesulfonic acid and 8-hydroxy-7-iodo-5-quinolinesulfonic acid). Antifungal activity was tested by broth microdilution and the fungicidal or fungistatic effect was checked by a time-kill assay. Permeation and histopathological evaluation were performed in Franz diffusion cells with ear skin of pigs and examined under light microscopy. An HET-CAM test was used to determine the potential irritancy. The three compounds were active against all isolates showing anti-Candida and antidermatophyte activity, with MIC ranges of 0.031-2 µg/ml, 1-512 µg/ml, and 2-1024 µg/ml for clioquinol, 8-hydroxy-5-quinolinesulfonic acid, and 8-hydroxy-7-iodo-5-quinolinesulfonic acid, respectively. All compounds showed fungistatic effect for Candida, 8-hydroxy-5-quinolinesulfonic acid, and 8-hydroxy-7-iodo-5-quinolinesulfonic acid showed a fungicidal effect for M. canis and T. mentagrophytes, and clioquinol showed a fungicidal effect only for T. mentagrophytes. Furthermore, they presented a fungicidal effect depending on the time and concentration. The absence of lesions was observed in histopathological evaluation and no compound was irritating. Moreover, clioquinol and 8-hydroxy-5-quinolinesulfonic acid accumulated in the epithelial tissue, and 8-hydroxy-7-iodo-5-quinolinesulfonic acid had a high degree of permeation. In conclusion, 8-hydroxyquinoline derivatives showed antifungal activity and 8-hydroxy-5-quinolinesulfonic acid demonstrated the potential for antifungal drug design.