Analysis of Live Single Cells by Confocal Microscopy and High-Resolution Mass Spectrometry to Study Drug Uptake, Metabolism, and Drug-Induced Phospholipidosis

Anal Chem. 2020 Dec 15;92(24):16005-16015. doi: 10.1021/acs.analchem.0c03534. Epub 2020 Dec 6.

Abstract

The analysis of large numbers of cells from a population results in information that does not reflect differences in cell phenotypes. Individual variations in cellular drug uptake, metabolism, and response to drug treatment may have profound effects on cellular survival and lead to the development of certain disease states, drug persistence, and resistance. Herein, we present a method that combines live cell confocal microscopy imaging with high-resolution mass spectrometry to achieve absolute cell quantification of the drug amiodarone (AMIO) and its major metabolite, N-desethylamiodarone (NDEA), in single liver cells (HepG2 and HepaRG cells). The method uses a prototype system that integrates a confocal microscope with an XYZ stage robot to image and automatically sample selected cells from a sample compartment, which is kept under growth conditions, with nanospray tips. Besides obtaining the distributions of AMIO and NDEA cell concentrations across a population of individual cells, as well as variabilities in drug metabolism, the effect of these on phospholipidosis and cell morphology was studied. The method was suited to identify subpopulations of cells that metabolized less drug and to correlate cell drug concentrations with cell phospholipid content, cell volume, sphericity, and other cell phenotypic features. Using principal component analysis (PCA), the treated cells could be clearly distinguished from vehicle control cells (0 μM AMIO) and HepaRG cells from HepG2 cells. The potential of using multidimensional and multimodal information collected from single cells to build predictive models for cell classification is demonstrated.

MeSH terms

  • Amiodarone / adverse effects*
  • Amiodarone / analogs & derivatives
  • Amiodarone / metabolism*
  • Hep G2 Cells
  • Humans
  • Lysosomal Storage Diseases / chemically induced
  • Lysosomal Storage Diseases / diagnostic imaging*
  • Lysosomal Storage Diseases / pathology*
  • Mass Spectrometry*
  • Microscopy, Confocal / methods*
  • Single-Cell Analysis / methods*

Substances

  • desethylamiodarone
  • Amiodarone