Hiroyasu Koga

In vitro antifungal activities of luliconazole, a new topical imidazole

Luliconazole is a topical antifungal drug newly developed in Japan. The present study compares the in vitro antifungal activity of luliconazole against clinically important dermatomycotic fungi with that of other representative antifungal drugs. The reference drugs chosen were five classes of nine topical agents, i.e., allylamine (terbinafine), thiocarbamate (liranaftate), benzylamine (butenafine), morpholine (amorolfine), and azole (ketoconazole, clotrimazole, neticonazole, miconazole and bifonazole). The minimum inhibitory concentrations (MIC) of luliconazole and the reference drugs against Trichophyton spp. (T. rubrum, T. mentagrophytes and T. tonsurans) and Candida albicans were measured by the standardized broth microdilution method. Luliconazole demonstrated greater potency against Trichophyton spp. (MIC range: <or=0.00012-0.002 microg/ml) than the reference drugs, with T. rubrum being the most susceptible to it. Luliconazole was also highly active against Candida albicans (MIC range: 0.031-0.13 microg/ml), proving to be more potent than terbinafine, liranaftate, butenafine, amorolfine, and bifonazole, but less than ketoconazole, clotrimazole, neticonazole, and miconazole. Further, the MIC of luliconazole against Malassezia restricta, an important pathogenic agent involved in seborrhoeic dermatitis, was very low (MIC range: 0.004-0.016 microg/ml) suggesting action comparable to or stronger than that of ketoconazole. These results indicate a possible clinical role for luliconazole with its broad-spectrum antimycotic activity.

Short-Term Therapy with Luliconazole, a Novel Topical Antifungal Imidazole, in Guinea Pig Models of Tinea Corporis and Tinea Pedis

ABSTRACT Luliconazole is a novel topical antifungal imidazole with broad-spectrum and potent antifungal activity. The drug is under clinical development in the United States for management of dermatophytosis with a short-term treatment regimen. The present study was undertaken to investigate the clinical benefit of short-term therapy with luliconazole cream in guinea pig models of tinea corporis and tinea pedis induced with Trichophyton mentagrophytes. The dose-dependent therapeutic efficacy of topical luliconazole cream (0.02 to 1%), measured by macroscopic improvement of skin lesions and by fungal eradication as determined by a culture assay, was demonstrated using a tinea corporis model. The improvement in skin lesions seen with luliconazole cream was observed even at a concentration of 0.02%, and its efficacy at 0.1% was equal to that of 1% bifonazole cream. The efficacy of short-term therapy with 1% luliconazole cream, which is used for clinical management, was investigated using the tinea corporis model (4- and 8-day treatment regimens) and the tinea pedis model (7- and 14-day treatment regimens). The 1% luliconazole cream completely eradicated the fungus in half or less of the treatment time required for 1% terbinafine cream and 1% bifonazole cream, as determined by a culture assay for both models. These results clearly indicate that 1% luliconazole cream is sufficiently potent for short-term treatment for dermatophytosis compared to existing drugs. Luliconazole is expected to be useful in the clinical management of dermatophytosis.

In vitro Antifungal Activity of Luliconazole against Trichophyton spp

The minimum inhibitory concentration (MIC) and the minimum fungicidal concentration (MFC) of luliconazole against Trichophyton rubrum (14 strains) and Trichophyton mentagrophytes (14 strains), which are the most common cause of tinea, were compared with those of 6 topical antifungal drugs of lanoconazole, bifonazole, efinaconazole, liranaftate, naftifine and terbinafine.　Luliconazole showed the most potent antifungal activity (MIC90 =0.00098 μg/ml and MFC90 =0.0078 μg/ml) among the compounds tested against the two species. Efinaconazole and bifonazole, the drug of azole-class, showed a large MFC/MIC ratio. On the other hand, these ratios of luliconazole and lanoconazole were as small as those of liranaftate, naftifine and terbinafine which are thought to possess fungicidal mechanism. These results suggest that luliconazole possesses fungicidal activity against both species of Trichophyton.　In this study, we found that luliconazole had the most potent antifungal activity among the major topical antimycotics used in Japan and the US. Luliconazole would be the best-in-class drug for dermatophytosis in clinics.

Affinity of Luliconazole to Keratin Prepared from Healthy Human Nailand Porcine Hoof

Luliconazole (LLCZ), an imidazole derivative with a broad spectrum of potent antifungal activity especially for T. rubrum and T. mentagrophytes, is under development as a new drug for treatment of tinea unguium.　It is well known that curative effect of an antifungal agent in dermatophytosis is affected by the pharmacokinetics of an agent at the infection loci as well as its antifungal activity, but there is no report about the affinity of LLCZ to nail keratin. We studied LLCZ affinity to keratin powder prepared from healthy human nail and porcine hoof. The LLCZ adsorbed to keratin preparations was washed with phosphate buffer, and its concentration in the buffer supernatant was measured by HPLC. Antifungal titer of the supernatant was also biologically confirmed by disk diffusion assay. Adsorption rate of LLCZ was 80% or more, and LLCZ was gradually liberated into washing buffer. Cumulative liberation rate in 10 times repeated washing against initially adsorbed drug amount was 47.4% for keratin from human nail and was either 52.5% or 50.8% (depending on the LLCZ concentration) for keratin from porcine hoof. The supernatant showed antifungal potential to T. rubrum. These results indicate that LLCZ applied to the nail surface is fully adsorbed to nail keratin and gradually liberated from it. The nail keratin could function as drug reservoir to supply biologically active LLCZ to the nail tissue region of infection loci. The LLCZ delivered to the loci would exert its antifungal potential on tinea unguium. This study also suggests the versatility of porcine hoof powder as an alternative to human nail keratin preparation for non-clinical study.