Isotopically Enriched Tracers and Inductively Coupled Plasma Mass Spectrometry Methodologies to Study Zinc Supplementation in Single-Cells of Retinal Pigment Epithelium in Vitro.
Sara Rodríguez-MenéndezBeatriz FernándezHéctor González-IglesiasMontserrat GarcíaLydia ÁlvarezJose Ignacio Garcia-AlonsoRosario PereiroPublished in: Analytical chemistry (2019)
Mass spectrometry-based techniques, such as inductively coupled plasma mass spectrometry (ICPMS) and laser ablation (LA) ICPMS, combined with an isotope pattern deconvolution mathematical tool are proposed for a better understanding of supplementation studies in cultured cells. An in vitro model of human retinal pigment epithelium (HRPEsv) cells was treated with different concentrations (0-150 μm Zn, 1 mL) of enriched stable isotope tracers of Zn in the form of sulfate and/or gluconate. Supplementations with t68ZnSO4 or t70Zn-gluconate alone and in combination (1:1 molar ratio) were investigated to evaluate the exogenous contribution and distribution of Zn in the treated cells. In order to obtain not only the Zn concentration for a cell population (mineralized cells) but also single cell information about the contribution of exogenous Zn and their distribution within micrometer cells structures, LA-ICPMS was employed to directly analyze cryopreserved cells. natZn, t68Zn, and t70Zn molar fraction images obtained from cells and cell aggregates allowed confirming the uptake of exogenous Zn by HRPEsv cells, being t68Zn and t70Zn molar fractions close to 1 in the cell nuclei. Under the selected experimental conditions tested (24 h treatments), no significant differences were obtained in the Zn distribution depending on its chemical form.