10(9)-hydroxystearic-acid and 10-hydroxystearic-acid

Different strategies are presented to conjugate a fluorescein moiety to 9- and 10-hydroxystearic acids (HSAs). 5-Amino-fluorescein (5-AF) was used as a starting reagent. When reacted with acyl-chloride-modified HSAs, 5-AF gave rise to stable amide derivatives with a 75% reaction yield. These products exhibited the typical steady-state and time-resolved fluorescence properties of the fluorescein chromophore with absorption at 494 nm and emission at 519 nm. Flow cytometry studies confirmed the distinct proapoptotic effect of underivatized 9-HSA on Jurkat cells and revealed a comparable ability of its amide derivative. Confocal microscopy imaging studies showed that green fluorescence could stain intracellular membranous structures. Moreover, dual-dye labeling with Mito Tracker Red, followed by colocalization analysis, revealed that HSA can move to the mitochondria. Thus, fluorescent derivatives of HSA can be used to monitor the localization of these biologically active molecules in living cells and can provide a useful tool for linking biochemical investigation with optical visualization methods. In contrast, when unmodified HSAs were used, the reaction gave monoesterified and diesterified fluorescein derivatives. These products exhibited unusual steady-state and time-resolved fluorescence properties with the excitation wavelength at 342 nm and the emission wavelength at 432 nm. It is shown that the synthesized HSA amides of fluorescein provide all of the typical photophysical and instrumental advantages of this popular dye, whereas the unusual luminescence and excitation properties of the monoester and diester of the 5-aminofluorescein would make these dyes interesting to explore as potential candidates for two photon excitation applications.

Topics: Amides; Apoptosis; Flow Cytometry; Fluoresceins; Fluorescent Dyes; Humans; Indicators and Reagents; Jurkat Cells; Microscopy, Confocal; Mitochondria; Stearic Acids

A sensitive, specific, accurate and reproducible gas chromatography/mass spectrometry method was developed for the assay of 9- and 10-hydroxystearic acids in samples obtained as cell extracts. The preparation of the samples required specific procedures to allow the analysis of both the free and the conjugated hydroxy acids as the corresponding methyl esters. The quantification used propyl-paraben as the internal standard and monitoring of a specific fragment of each isomeric hydroxy acid methyl ester, and allowed quantification of the conjugate and the free fractions of both 9- and 10-hydroxystearic acids. This method is suitable for identification and quantification (LOQ 1.8 and 4.4 ng, respectively) of these important metabolites of lipid peroxidation. In particular the development of an assay for the free 9-hydroxystearic acid methyl ester makes the method a reliable analytical tool for investigations of the role of this metabolite in the mechanisms of tumour cell proliferation.

Topics: Calibration; Carcinoma; Colonic Neoplasms; Gas Chromatography-Mass Spectrometry; Humans; Lipid Peroxidation; Reproducibility of Results; Sensitivity and Specificity; Stearic Acids; Tumor Cells, Cultured

HSA at appropriate concentrations shows cytostatic and/or cytotoxic effects on murine Lewis carcinoma cell line C108. The cytostatic effect is mediated by an arrest in the cell cycle machinery, with accumulation of cells in G2-M. The combination of enzymatic assays, cell cycle kinetics studies and immunoprecipitation shows that HSA causes to a certainty an accumulation of cells in the M phase, while a similar effect in G2 has still to be demonstrated. It also inhibits histone H1 kinase activity up to 95% of that of mitotic cells, having as a direct or indirect target the cdc2 complex.

Topics: Animals; Carcinoma, Lewis Lung; CDC2 Protein Kinase; Cell Cycle; DNA, Neoplasm; Flow Cytometry; Hydroxyurea; Kinetics; Mice; Nocodazole; Protamine Kinase; Stearic Acids; Tumor Cells, Cultured

The in vitro effects of hydroxystearic acid on the proliferation of human colon carcinoma cells (HT29) and human embryonic intestine cells (I407) were examined and compared to previous results obtained in murine C108 lung carcinoma cells. The cells were cultured in the presence, or in the absence, of hydroxystearic acid and tested for cell proliferation and viability; the distribution of cells in the cell cycle was evaluated by flow cytometry. Results show that hydroxystearic acid is also an inhibitor of human cell proliferation, and not only of murine C108 cells. Differently from C108 cells, which upon treatment with hydroxystearic acid accumulate in G2-M phases, hydroxystearic acid-treated HT29 cells increase significantly in numbers in G0-G1; I407, embryonic cells used as a control, when treated show only a slight increase in G0-G1.

Topics: Adenocarcinoma; Animals; Cell Cycle; Cell Division; Cells, Cultured; Colonic Neoplasms; Depression, Chemical; Humans; Intestines; Lung Neoplasms; Mice; Stearic Acids; Tumor Cells, Cultured

Whole cell lipids were extracted from the Lewis lung carcinoma in vitro line C108. The fatty acids were derivatized to methylesters in order to identify endogenous oxidized derivatives by gasmass spectroscopy. The presence of 9-hydroxystearic acid and 10-hydroxystearic acid was thus evidenced for the first time in cultured mammalian cells. Moreover a linear correlation was found between the concentration of these products expressed as percentage of total fatty acid methylesters and the cell density in tissue culture flasks. This finding suggests an involvement of hydroxystearic acid in cellular functions related to the cell density in monolayer cultures.

Topics: Animals; Cell Line; Chromatography, Gas; Chromatography, Thin Layer; Gas Chromatography-Mass Spectrometry; Lipid Peroxidation; Lung Neoplasms; Mice; Stearic Acids