Automated solvent system screening for the preparative countercurrent chromatography of pharmaceutical discovery compounds.

A fully automated countercurrent chromatography system has been constructed to rapidly screen the commonly used heptane/ethyl acetate/methanol/water solvent system series and translate the results to preparative scale separations. The system utilizes "on-demand" preparation of the heptane/ethyl acetate/methanol/water solvent system upper and lower phases. Elution-extrusion countercurrent chromatography was combined with non-dynamic equilibrium injection reducing the screening time for each heptane/ethyl acetate/methanol/water system to 17 min. The result enabled solvent system development to be reduced to under 2 h. The countercurrent chromatography system was interfaced with a mass spectrometer to allow selective detection of target components in crude medicinal chemistry reaction mixtures. Mass-directed preparative countercurrent chromatography purification was demonstrated for the first time using a synthetic tetrazole epoxide derived from a routine medicinal chemistry support workflow.

A general method for the separation of triphenylphosphine oxide and reaction products using high performance countercurrent chromatography.

A standardised separation methodology was developed for the purification of crude reaction mixtures containing triphenylphosphine oxide (TPPO) using high performance countercurrent chromatography (HPCCC). A solvent system consisting of hexane/ethyl acetate/methanol/water (5:6:5:6) was used in 1 column volume elution-extrusion mode. The HPCCC methodology was compared with classical RP HPLC purification using a set of 12 representative Mitsunobu reaction mixtures. HPCCC was seen to yield a 65% increase in the average recovery of the target component whilst providing similar final target purities to those obtained by HPLC. By eliminating the need for method development for individual samples, the HPCCC methodology described within provides a simple and efficient means for the purification of the entire family of TPPO-containing reaction products.

Comparison of preparative reversed phase liquid chromatography and countercurrent chromatography for the kilogram scale purification of crude spinetoram insecticide.

Reversed phase HPLC (RP-HPLC) and high performance countercurrent chromatography (HPCCC) were compared for the pilot scale purification of two semi-synthetic spinosyns, spinetoram-J and spinetoram-L, the major components of the commercial insecticide spinetoram. Two, independently performed, 1 kg, purification campaigns were compared. Each method resulted in the isolation of both components at a purity of >97% and yields for spinetoram-J and spinetoram-L of >93% and ≥ 63% of theoretical, respectively. The HPCCC process produced a 2-fold higher throughput and consumed approximately 70% less solvent than preparative scale RP-HPLC, the volume of product containing fractions from HPCCC amounted to 7% of that produced by HPLC and so required much less post-run processing.

Isolation, structure, and biological activities of Fellutamides C and D from an undescribed Metulocladosporiella (Chaetothyriales) using the genome-wide Candida albicans fitness test.

In a whole-cell mechanism of action (MOA)-based screening strategy for discovery of antifungal agents, Candida albicans was used, followed by testing of active extracts in the C. albicans fitness test (CaFT), which provides insight into the mechanism of action. A fermentation extract of an undescribed species of Metulocladosporiella that inhibited proteasome activity in a C. albicans fitness test was identified. The chemical genomic profile of the extract contained hypersensitivity of heterozygous deletion strains (strains that had one of the genes of the diploid genes knocked down) of genes represented by multiple subunits of the 25S proteasome. Two structurally related peptide aldehydes, named fellutamides C and D, were isolated from the extract. Fellutamides were active against C. albicans and Aspergillus fumigatus with MICs ranging from 4 to 16 µg/mL and against fungal proteasome (IC50 0.2 µg/mL). Both compounds showed proteasome activity against human tumor cell lines, potently inhibiting the growth of PC-3 prostate carcinoma cells, but not A549 lung carcinoma cells. In PC-3 cells compound treatment produced a G2M cell cycle block and induced apoptosis. Preliminary SAR studies indicated that the aldehyde group is critical for the antifungal activity and that the two hydroxy groups are quantitatively important for potency.

Distribution of the antifungal agents sordarins across filamentous fungi.

Sordarins are a class of natural antifungal agents which act by specifically inhibiting fungal protein synthesis through their interaction with the elongation factor 2, EF2. A number of natural sordarins produced by diverse fungi of different classes have been reported in the literature. We have run an exhaustive search of sordarin-producing fungi using two different approaches consecutively, the first one being a differential sensitivity screen using a sordarin-resistant mutant yeast strain run in parallel with a wild type strain, and the second one an empiric screen against Candida albicans followed by early detection of sordarins by LC-MS analysis. Using these two strategies we have detected as many as 22 new strains producing a number of different sordarin analogues, either known (sordarin, xylarin, zofimarin) or novel (isozofimarin and 4'-O-demethyl sordarin). Sordarin and xylarin were the most frequently found compounds in the class. The producing strains were subjected to sequencing of the ITS region to determine their phylogenetic affinities. All the strains were shown to belong to the Xylariales, being distributed across three families in this order, the Xylariaceae, the Amphisphaeriaceae, and the Diatrypaceae. Despite being screened in large numbers, we did not find sordarin production in any other fungal group, including those orders where sordarin producing fungi are known to exist (i.e., Sordariales, Eurotiales, and Microascales), suggesting that the production of sordarin is a trait more frequently associated to members of the Xylariales than to any other fungal order.