Flow Cytometric Quantification of Glucose-Stimulated β-Cell Metabolic Flux Can Reveal Impaired Islet Functional Potency
Author(s) -
Matthew S. Hanson,
Anja Steffen,
Juan S. Danobeitia,
Barbara Ludwig,
Luis A. Fernandez
Publication year - 2008
Publication title -
cell transplantation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.043
H-Index - 100
eISSN - 1555-3892
pISSN - 0963-6897
DOI - 10.3727/096368908787648038
Subject(s) - islet , viability assay , flow cytometry , metabolite , chemistry , hexokinase , oxidative stress , apoptosis , biology , biochemistry , endocrinology , microbiology and biotechnology , glycolysis , metabolism , diabetes mellitus
The objective of this study was to develop a multiparametric flow cytometry assay to simultaneously quantify isolated pancreatic islet cell viability, apoptosis, and glucose-induced metabolic flux. INS-1 and rat islet beta-cells were stained with fluorescent probes for cell viability (ToPro3), apoptosis (Annexin V and VADFMK), and intracellular calcium (Ca2+(i)) (Fura Red), stimulated with glucose, and analyzed on a FACS Vantage flow cytometer. Glucose-induced metabolic activity was indicated by changes in Fura Red fluorescence and the autofluorescence of the pyridine [NAD(P)H] and flavin (FAD/FMN) nucleotides. Rat islets cultured under conditions of proinflammatory cytokine-induced oxidative stress were evaluated by flow cytometry and transplantation into diabetic mice. INS-1 and rat islet beta-cell health and metabolic activity were quantified in response to elevated glucose dose and inhibitors of glycolysis and mitochondrial function. Changes in metabolite fluorescence were converted to an area under the curve (AUC) value. Rat islets cultured under oxidative stress conditions showed decreased viability, increased apoptosis, and decreased glucose-induced metabolic activity indicated by reduced AUC for pyridine and flavin nucleotides and Ca2+(i). Reduced metabolite AUC measured by flow cytometry correlated with the inability to reverse diabetes in mice. Single cell flow cytometry can simultaneously quantify both overall islet cell health and beta-cell glucose responsiveness as indicators of functional potency.
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