Synthesis, anticonvulsant activity and metabolism of 4-chlor-3-methylphenoxyethylamine derivatives of trans-2-aminocyclohexan-1-ol.

In this study, we report the synthesis, spectral characterization, antiepileptic activity and biotransformation of three new, chiral, N-aminoalkyl derivatives of trans - 2 aminocyclohexan-1-ol: (R enantiomer), (S enantiomer) and (racemate). Antiepileptic activity of the titled compounds was studied using MES and scMet. Moreover, in this study, the biotransformation of , and in microbial model (Cunninghamella), liver microsomal assay as well as in silico studies (MetaSite) was evaluated. Studies have indicated that , and have good antiepileptic activity in vivo, comparable to valproate. Biotransformation assays showed that the most probable metabolite (indicated in every tested assays) was . The microbial model as well as in silico study showed no difference in biotransformation between tested enantiomers. However, in a rat liver microsomal study compound and (R and S enantiomer) had different main metabolite - for and for . MS/MS fragmentation allowed us to predict the structures of obtained metabolites, which were in agreement with 1°alcohol () and carboxylic acid (). Our research has shown that microbial model, microsomal assay, and computational methods can be included as useful and reliable tools in early ADME-Tox assays in the process of developing new drug candidates.

In vitro and in vivo antifungal susceptibilities of the Mucoralean fungus Cunninghamella.

We have determined the in vitro activities of amphotericin B (AMB), voriconazole, posaconazole (PSC), itraconazole (ITC), ravuconazole, terbinafine, and caspofungin against five strains of Cunninghamella bertholletiae and four of Cunninghamella echinulata. The best activity was shown by terbinafine against both species (MIC range = 0.3 to 0.6 µg/ml) and PSC against Cunninghamella bertholletiae (MIC = 0.5 µg/ml). We have also evaluated the efficacies of PSC, ITC, and AMB in neutropenic and diabetic murine models of disseminated infection by Cunninghamella bertholletiae. PSC at 40, 60, or 80 mg/kg of body weight/day was as effective as AMB at 0.8 mg/kg/day in prolonging survival and reducing the fungal tissue burden in neutropenic mice. PSC at 80 mg/kg/day was more effective than AMB at 0.8 mg/kg/day in reducing the fungal load in brain and lung of diabetic mice. Histological studies revealed an absence of fungal elements in organs of mice treated with either AMB at 0.8 mg/kg/day or PSC at 60 or 80 mg/kg/day in both models. ITC showed limited efficacy in both models. PSC could be a therapeutic option for the treatment of systemic infections caused by Cunninghamella bertholletiae.

Responses of fungi to tropane alkaloids produced by a medicinal plant Hyoscyamus muticus (Egyptian henbane).

Antifungal activity of hyoscyamine (Hcy) and scopolamine (Sco) were determined by TLC-bioautography against fungi associated with H. muticus grown in Egypt, and those isolated from other plants grown in Japan. All 40 fungal strains were tolerant to Sco and sensitive to Hcy, exhibiting a growth inhibition zone around the Hcy spot on the bioautography plate. The strains were grouped into three types based on the appearance of the inhibition zone: (i) 17 strains exhibiting a clear inhibition zone, which remained clear at 8 d after incubation (type I); (ii) 22 strains exhibiting the inhibition zone with a brown circle surrounding the zone and regrowth within the inhibition zone (type II); (iii) 1 strain exhibiting the inhibition zone with no brown circle and regrowth within the inhibition zone (type III). In the type II and III strains, Hcy disappeared, and other alkaloids were found in the inhibition zones in its place. Hcy feeding experiments using Penicillium purpurogenum (type II) and Cunninghamella elegans (type III) revealed that these fungi may convert Hcy to a new alkaloid compound.

Repression of reserve lipid turnover in Cunninghamella echinulata and Mortierella isabellina cultivated in multiple-limited media.

AIMS: To study patterns of reserve lipid biosynthesis and turnover (degradation) in two oleaginous Zygomycetes, namely Cunninghamella echinulata and Mortierella isabellina under various growth conditions. Fatty acid composition of the reserve lipid of both strains was also studied in all growth steps. METHODS AND RESULTS: Cunninghamella echinulata and Mortierella isabellina were grown in carbon-excess batch cultures. In the investigated strains, accumulation of reserve lipid occurred only when the activity of both NAD(+)-isocitrate dehydrogenase (ICDH) and NADP(+)-ICDH were not detectable in the cell-free extract. Specifically, in C. echinulata, NAD(+)-ICDH activity was detected even after depletion of ammonium nitrogen in the medium, resulting in a delay of the initiation of lipid accumulation period. On the contrary, in M. isabellina, lipid accumulation occurred simultaneously with ammonium nitrogen exhaustion in the growth medium, as the activity of both NAD(+)- and NADP(+)-ICDH were not detectable after nitrogen depletion. In C. echinulata reserve lipid was not degraded after glucose had been exhausted. Supplementations of the medium with Fe(3+), yeast extract or Mg(2+) induced, however, reserve lipid breakdown and formation of lipid-free material. In M. isabellina after glucose exhaustion, notable lipid degradation occurred, accompanied by a significant lipid-free material biosynthesis. Nevertheless, in multiple-limited media, in which Mg(2+) or yeast extract, besides carbon and nitrogen, were limiting nutrients, reserve lipid breakdown was repressed. In both strains, the quantity of gamma-linolenic acid (GLA) in the reserve lipids [varying between 9 and 16% (w/w) in C. echinulata and 1.5-4.5% (w/w) in M. isabellina] was proportional to lipid-free biomass. CONCLUSIONS: Lipid accumulation period in Zygomycetes is initiated by the attenuation of ICDH activity in the mycelium while the regulation of ICDH from ammonium nitrogen is strain specific. While a single nitrogen limitation was enough to induce lipid accumulation, however, multiple limitations were needed in order to repress lipid turnover in oleaginous Zygomycetes. As for GLA, its biosynthesis in the mycelium seemed proportional to lipid-free biomass synthesis. SIGNIFICANCE AND IMPACT OF THE STUDY: Several nutrients are indispensable for functioning the mechanisms involved in the mobilization of reserve lipid in oleaginous moulds. Therefore, reserve lipid turnover in oleaginous moulds could be repressed in multiple-limited media.

New sources and antifungal activity of sesquiterpene lactones.

In the search for new sources of sesquiterpene lactones, six Centaurea species have been analyzed. The activity against the fungus Cunninghamella echinulata of (+)-cnicin (1) and (+)-salonitenolide (2), isolated from the Centaurea plants, as well as that of (+)-costunolide (3), (-)-dehydrocostuslactone (4), (-)-lychnopholide (5) and (-)-eremantholide C (6), has been evaluated. Compounds 3 and 4 showed noticeable EC50 values, whilst more polar lactones were inactive. These results suggest that a relatively low polarity is one of the molecular requirements for the antifungal activity of sesquiterpene lactones.