Synergistic association of clioquinol with antifungal drugs against biofilm forms of clinical Fusarium isolates.

BACKGROUND: The influence of biofilm on the complexity of fungal diseases has been reported in recent years, especially in non-invasive mycoses such as keratitis and onychomycosis. The difficulty in treating cases of fusariosis in the human medical clinic exemplifies this situation, because when Fusarium spp. are present in the form of biofilm, the permeation of antifungal agents is compromised. OBJECTIVES: This study proposes an association of clioquinol, an inhibitor of fungal cells with antifungal drugs prescribed to combat fusariosis in humans. METHODS: Susceptibility was assessed by microdilution in broth. Formation of biofilm by staining with violet crystal. Inhibition and removal of biofilm using the MTT colorimetric reagent. Time-kill combination, hypoallergenicity test, cytotoxicity test and toxicity prediction by computer analysis were also performed. RESULTS: Clioquinol associated with voriconazole and ciclopirox inhibited biofilm formation. Possibly, clioquinol acts in the germination and elongation of hyphae, while voriconazole prevents cell adhesion and ciclopirox the formation of the extracellular polymeric matrix. The CLIO-VRC association reduced the biofilm formation by more than 90%, while the CLIO-CPX association prevented over 95%. None of the association was irritating, and over 90% of the leucocytes remained viable. Computational analysis does not reveal toxicity relevant to CLIO, whereas VRC and CPX showed some risks for systemic use, but suitable for topical formulations. CONCLUSIONS: The combination of CLIO-VRC or CLIO-CPX proved to be a promising association strategy in the medical clinic, both in combating fungal keratitis and onychomycosis, since they prevent the initial process of establishing an infection, the formation of biofilm.

Oral clioquinol is effective in the treatment of a fly model of Candida systemic infection.

BACKGROUND: Clioquinol was used in the 1950s-1970s as antimicrobial but its oral formulations were withdrawn from the market due to suspected neurotoxicity. Currently, there is possibility of repositioning of oral clioquinol formulations. OBJECTIVES: To evaluate the antifungal activity and toxicological parameters of clioquinol and the other two 8-hydroxyquinoline derivatives using alternative animal models and to study the interaction dynamic of clioquinol with Candida albicans. METHODS: We used Toll-deficient Drosophila melanogaster to test the protective effect of 8-hydroxyquinolines against C. albicans infection. Toxicological parameters were investigated in chicken embryo. A mathematical model-based analysis of the time-kill data of clioquinol was performed to obtain pharmacodynamic characteristics. RESULTS: Clioquinol fully protected D. melanogaster from the infection. The 8-hydroxyquinolines did not cause changes in opening of the beak and movement of the chicken embryo; however, clioquinol and compound 2 increased arterial pulsation. Compound 3 was lethal at 1 mg mL-1 . Effective concentration found in modelling indicated that clioquinol was highly effective against C. albicans (0.306 µg mL-1 ) in easily achievable serum levels; clioquinol rapidly achieved kill rate reaching the maximum effect after 13 hours. CONCLUSIONS: These results support the potential of clioquinol to be used as a systemic antifungal agent.

A Pluronic® F127-based polymeric micelle system containing an antileishmanial molecule is immunotherapeutic and effective in the treatment against Leishmania amazonensis infection.

Clioquinol (5-chloro-7-iodoquinolin-8-ol or ICHQ) was recently showed to presents an in vitro effective antileishmanial action, causing changes in membrane permeability, mitochondrial functionality, and parasite morphology. In the present study, ICHQ was incorporated into a Poloxamer 407-based polymeric micelles system (ICHQ/M), and its antileishmanial activity was in vivo evaluated in L. amazonensis-infected BALB/c mice. Amphotericin B (AmpB) and its liposomal formulation (Ambisome®) were used as controls. Parasitological and immunological evaluations were performed 30 days after the treatment. Results indicated more significant reductions in the average lesion diameter and parasite burden in ICHQ or ICHQ/M-treated mice, which were associated with the development of a polarized Th1 immune response, based on production of high levels of IFN-γ, IL-12, TNF-α, GM-CSF, and antileishmanial IgG2a antibody. Control groups´ mice produced high levels of IL-4, IL-10, and IgG1 isotype antibody. No organic toxicity was found by using ICHQ or ICHQ/M to treat the animals, although those receiving AmpB and Ambisome® have presented higher levels of renal and hepatic damage markers. In conclusion, results suggested that the ICHQ/M composition can be considered as an antileishmanial candidate to be tested against human leishmaniasis.

Antileishmanial Activity, Cytotoxicity and Mechanism of Action of Clioquinol Against Leishmania infantum and Leishmania amazonensis Species.

In this study, a quinoline derivate, clioquinol (5-chloro-7-iodoquinolin-8-ol), was evaluated against Leishmania amazonensis and Leishmania infantum promastigotes and amastigotes. The cytotoxicity in murine macrophages and human red blood cells, as well as the efficacy in treating infected macrophages and the inhibition of infection using pre-treated parasites were also evaluated. Results showed that clioquinol inhibited L. amazonensis and L. infantum promastigotes with effective concentration 50% (EC50 ) values of 2.55 ± 0.25 and 1.44 ± 0.35 µg/mL, respectively, and of 1.88 ± 0.13 and 0.98 ± 0.17 µg/mL against axenic amastigotes, respectively. The cytotoxic EC50 concentrations of clioquinol in murine macrophages and human red blood cells were, respectively, 255 ± 23 and 489 ± 20 µg/mL. With these results, the selectivity index was calculated, showing values of 99.9 and 177.1 against promastigotes, respectively, and of 135.6 and 260.1 against axenic amastigotes, respectively. Significant reductions in the percentage of infected macrophages after treatment using clioquinol were also observed, as well as when parasites were pre-treated with clioquinol and used to infect murine macrophages. The mechanism of action of clioquinol was investigated in L. amazonensis, and results revealed morphological and biochemical alterations in the clioquinol-treated parasites, including reduction in cell volume, loss of mitochondrial membrane potential, increase in the ROS production and rupture of the plasma membrane. The externalization of phosphatidylserine (PS) at the cell surface was evaluated in treated parasites that had been doubly labelled with annexin and propidium iodide (PI). The results showed no significant difference for PS exposure when compared to the untreated control, although a significant increase in the PI/annexin V-labelled cell population was found in the treated parasites. Results suggest that clioquinol induces a discontinuity of the parasite membrane, possibly related to a characteristic event of cell death caused by necrosis. This study demonstrates, for the first time, the antileishmanial activity of clioquinol against two relevant Leishmania species and suggests that the mitochondria of the parasites may be a possible biological target leading to parasite necrosis. Our findings suggest that clioquinol may have a potential application in treatment of leishmaniasis and further studies should be performed in infected mammalian hosts.

Combination dermatological products: a comparison of betamethasone dipropionate/clotrimazole/gentamicin sulphate and flumethasone pivalate/clioquinol creams.

The combination creams, betamethasone dipropionate/clotrimazole/gentamicin sulphate and flumethasone pivalate/clioquinol, were compared in patients with corticosteroid responsive dermatoses and/or cutaneous fungal and/or bacterial infections. Medication was applied to affected areas twice daily for 28 days. Of 67 patients enrolled, 31 treated with betamethasone/clotrimazole/gentamicin and 33 given flumethasone pivalate/clioquinol were evaluated for efficacy and safety each week during therapy and once 14 days post-therapy. Disease signs and symptoms were less severe in the group given betamethasone/clotrimazole/gentamicin than in the comparative group at days 7 (P = 0.04), 21 (P = 0.02), 28 (P = 0.09), and 42 (P = 0.09) and at patients' last valid visit (P = 0.06). By the last valid visit, signs/symptoms had improved by 82% for patients treated with betamethasone/clotrimazole/gentamicin versus 68% for those treated with flumethasone pivalate/clioquinol. Patients given betamethasone/clotrimazole/gentamicin had statistically significantly better therapeutic responses than those given flumethasone pivalate/clioquinol at day 7 and, by the last valid visit, 19/31 (61%) patients given betamethasone/clotrimazole/gentamicin compared to 15/33 (45%) given flumethasone pivalate/clioquinol had a complete cure or an excellent therapeutic response. Median time of onset of relief of erythema and pruritus was approximately 2 days, regardless of treatment. No adverse reactions were reported.