Elisa Floriddia

Multidrug resistance (MDR) reversers: High activity and efficacy in a series of asymmetrical N,N-bis(alkanol)amine aryl esters

As a continuation of our research on potent and efficacious P-gp-dependent multidrug resistance (MDR) reversers, several new N,N-bis(alkanol)amine aryl esters were designed and synthesized, varying the aromatic moieties or the length of the methylenic chain. The new compounds were tested on doxorubicin-resistant erythroleukemia K562 cells (K562/DOX) in the pirarubicin uptake assay, where most of the new compounds were shown to be active. In particular the asymmetrical compounds, characterized by two linkers of different length, generally showed fairly high activities as MDR reversers. Some selected compounds (isomers 15-17) were further studied by evaluating their doxorubicin cytotoxicity enhancement (reversal fold, RF) on the K562/DOX cell line. The results of both pharmacological assays indicate that compounds 16 (GDE6) and 17 (GDE19) could be interesting leads for the development of new P-gp dependent MDR modulators.

The power of energy-resolved tandem mass spectrometry experiments for resolution of isomers: the case of drug plasma stability investigation of multidrug resistance inhibitors

RATIONALE A series of drug plasma stability experiments were carried out to evaluate the bioavailability of three multidrug resistance inhibitors. The studied compounds are positional isomers; therefore, a chromatographic separation or taking advantage of specific collisionally activated decomposition pathways, obtained by tandem mass spectrometry (MS/MS) experiments, is necessary in order to resolve them. METHODS A method was developed for quantitative determination of the analytes in plasma using liquid chromatography (LC) coupled with a triple quadrupole mass spectrometer operating in MS/MS mode. Different collisional approaches were employed based on the potentiality of a triple quadrupole system. Aside from the classical product ion spectroscopy, energy-resolved MS/MS experiments and a post-processing mathematical algorithm tool (LEDA) were used to distinguish among different kinds of inhibitors present in the sample batch. RESULTS The developed LC/MS/MS method showed precision between 1.8-7.9%, accuracy ranging from 92.8 to 99.9% and limit of detection (LOD) values in the range 1.0-1.4 ng mL(-1) for all the analytes. The evaluation of matrix effects demonstrated that the sample preparation procedure did not affect the ionization efficiency or recovery (matrix effects and recovery larger than 88%). Finally, the LEDA tool was able to differentiate among the isomers, ensuring their proper monitoring. CONCLUSIONS The proposed LC/MS/MS method was suitable for evaluating the stability of the analytes in plasma samples, although small concentration variations occurred. Furthermore, the investigation on the energetics of fragmentation pathways allowed the better product ions and optimal abundance ratios to be selected for LEDA application into a multi-component analysis. Copyright

N-alkanol-N-cyclohexanol amine aryl esters: Multidrug resistance (MDR) reversing agents with high potency and efficacy.

In a continuing search for potent P-gp-dependent multidrug-resistant (MDR) reversers we synthesized and studied a new series of N-alkanol-N-cyclohexanol amine aryl esters characterized by the presence of two linkers with different flexibility: a polymethylene chain of variable length and a cyclohexylic scaffold, that gave origin to two geometrical isomers (cis and trans). The reversal activity of the new compounds was evaluated on the K562/DOX cell line by three tests: pirarubicin uptake modulation, doxorubicin cytotoxicity enhancement (reversal fold, RF) and inhibition of P-gp-mediated rhodamine-123 (Rhd 123) efflux tests. The chemical stability of their ester function was evaluated in the experimental conditions utilized (phosphate buffer solution (PBS), bovine serum and in the presence of K562/DOX cells) and in human plasma. The new series of molecules showed very interesting MDR reversing properties; in particular compound 5b (ELF26B), characterized by trans stereochemistry and a 5-methylene chain, presented the best pharmacological profile and is stable in each tested medium. Compound 5b could be an interesting lead for the development of new potent and efficacious P-gp-dependent MDR modulators.

Arylamino Esters as P-Glycoprotein Modulators: SAR Studies to Establish Requirements for Potency and Selectivity

A set of basic aryl‐group‐containing compounds was synthesized with the aim of developing potent and selective P‐glycoprotein (P‐gp) modulators that are able to reverse multidrug resistance (MDR). The natures of the spacer (dicyclohexylamine or dialkylamine) and the aryl moieties were modified to investigate selectivity and the mechanism of P‐gp interaction. The inhibitory activities of the compounds toward P‐gp, multidrug resistance‐associated protein 1 (MRP1), and breast cancer resistance protein (BCRP), the most relevant ATP binding cassette (ABC) transporters for MDR, were evaluated. The mechanism of P‐gp interaction for each compound was investigated with three biological assays: apparent permeability (Papp) determination (B→A/A→B) in Caco‐2 cell monolayers, ATP cell depletion, and inhibition of Calcein‐AM transport in MDCK‐MDR1 cells. These assays allowed us to estimate the selectivity of the compounds for the three efflux pumps and to identify the structural requirements that define the P‐gp‐interaction profile. All dicyclohexylamine derivatives were found to be P‐gp substrates, whereas one dialkylamine derivative was shown to be a P‐gp inhibitor. The good MRP1 activity of one cis/cis isomer highlighted this as a lead candidate for the development of MRP1 ligands.

Substituted piperazines as nootropic agents: 2- or 3-phenyl derivatives structurally related to the cognition-enhancer DM235.

A series of 2-phenyl- or 3-phenyl piperazines, structurally related to DM235 and DM232, two potent nootropic agents, have been prepared and tested in the mouse passive-avoidance test, to assess their ability to revert scopolamine-induced amnesia. Although the newly synthesized molecules were less potent than the parent compounds, some useful information has been obtained from structure-activity relationships. A small but significant enantioselectivity has been found for the most potent compound 5a.

Energy resolved tandem mass spectrometry experiments for resolution of isobaric compounds: a case of cis/trans isomerism

A series of N-alkanol-N-cyclohexanol amine aryl esters cis/trans isomers that showed high efficacy to reverse the acquired resistance of cancer cells during chemotherapeutic therapy (MDR mechanism) was studied. These compounds were two 1,4 cyclohexane cis/trans derivatives (named ELF26A and ELF26B, respectively), and their positional isomers (named ELF34A and ELF34B, respectively) where the aryl-moieties were exchanged. In order to evaluate the behaviour of these compounds during biological tests, a method based on liquid chromatography coupled with mass spectrometry (LC-MS), operating in tandem mass spectrometry (MS/MS) mode, was developed. A unique chromatographic method suitable to separate the two pairs of cis/trans isomers was not achieved and the MS/MS experiments of the different compounds was not always able to characterise the different isomers. Therefore, a system of linear equations of deconvolution analysis (LEDA) tool was proposed to determine the relative proportions of individual cis/trans isomers in the sample. Considering the pharmaceutical interest of the compounds under investigation, the analytical method developed was tested to be effective at the active concentration levels, corresponding to a concentration of ng mL−1 of compound in a processed sample. Precision and accuracy of the LEDA algorithm at three levels of relative concentrations of analytes were checked, i.e. low-level (about 25% in the mixture), mid-level (about 50% in the mixture) and high-level (about 70% in the mixture). Evaluation of performances of the algorithm proved that the accuracy (between 88.3% and 99.9%) and precision (between 2.0% and 3.7%) for simultaneous analysis of the mixtures of the four isomers is feasible. It is worth highlighting that the choice of characteristic product ions and optimal abundance ratios plays an important role in the application of the LEDA approach. Therefore, performing an investigation on the energetics of fragmentation pathway allowed the selection of the better product ions for each analyte in terms of both sensitivity of detection and specificity, i.e. the capability to distinguish between isomeric compounds. Finally, the developed approach was applied to determine the relative proportions of individual cis/trans isomers in spiked human plasma samples. The results obtained confirm the reliability of the proposed method in biological samples as well.