Pierluigi Mussardo scite author profile

Pierluigi Mussardo

2Publications

26Citation Statements Received

22Citation Statements Given

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Affiliations

Universidad Complutense de Madrid, University of Bologna

Publications

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Liquid chromatographic analysis of the anticancer alkaloid luotonin A and some new derivatives in human serum samples

González‐Ruiz

Mussardo

Corda

et al. 2010

J of Separation Science

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The quantitation of the natural cytotoxic and anti-inflammatory alkaloid luotonin A and five recently synthesized derivatives is described, constituting the first report of a HPLC method for the analysis of these compounds in human serum samples. The conditions for the chromatographic separation were optimized and the method was validated for the analysis of these compounds in biological samples according to international guidelines. An RP-HPLC method with fluorimetric detection and a C(18) stationary phase was applied. Different ACN/water mobile phases were assayed, including 0-4% of a mobile phase modifier such as tetrahydrofuran, dioxane or tert-butyl methyl ether. Isocratic and gradient elution conditions are compared. The influence of pH on the efficiency and resolution of the separation was also considered. The developed method was applied to the determination of luotonins in pooled human serum samples by gradient elution RP-HPLC using a simple cleanup procedure. The proposed chromatographic method exhibits satisfactory analytical figures of merit, with LOD from 1.0 x 10(-10) to 2.0 x 10(-10) M, intraday and interday precision below 6% except for the concentration level closest to LOD, and good agreement between experimental and theoretical concentrations. Therefore, the developed method is suitable, reliable, rapid, and simple.

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Study of non-covalent interactions of luotonin A derivatives and the DNA minor groove as a first step in the study of their analytical potential as DNA probes

et al. 2011

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The interaction between DNA and several newly synthesized derivatives of the natural anticancer compound luotonin A has been studied. The results from our work reveal an effective and selective alkaloid/double-stranded DNA (ds-DNA) interaction. In the presence of increasing amounts of ds-DNA, a noticeable fluorescence quenching of the luotonin A derivatives under study was observed. However, this effect did not take place when single-stranded DNA (ss-DNA) was employed. The association constant alkaloids/ds-DNA was calculated by quantitation of such a quenching effect. The influence of other quenchers, namely Co(2+) and Br(-) on the native fluorescence of luotonin A and derivatives was also studied, and a remarkable quenching effect was observed for both ions. We have also investigated how by binding DNA the alkaloids could get protected from the external Co(2+) and Br(-) quenchers. The Stern-Volmer constants (K (SV)) for Co(2+) and Br(-) quenching effect on the studied alkaloids were considerably reduced (10-50%) after incubation of the compounds in the presence of DNA with regard to the K (SV) values in absence of DNA. An increase in the fluorescence anisotropy values of luotonins was also produced only in the presence of ds-DNA but not in the case of ss-DNA. To better characterize the nature of that interaction, viscosimetry assays and ethidium bromide displacement studies were conducted. With regard to DNA reference solutions, the viscosity of solutions containing DNA and luotonin A derivatives was reduced or not significantly increased. It was also observed that the studied compounds were unable to displace the intercalating agent ethidium bromide. All of these results, together with the obtained association constants values (K (ass) = 2.2 × 10(2) - 1.3 × 10(3)), support that neither covalent nor intercalating interactions luotonin A derivatives/ds-DNA are produced, leading to the conclusion that these alkaloids bind ds-DNA through the minor groove. The specific changes in the fluorescence behavior of luotonin A and derivatives distinguishing between ss-DNA and ds-DNA binding, lead us to propose these compounds as attractive turn-off probes to detect DNA hybridization.

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