Abstract
Measurement of endogenous free and bound NAD(P)H relative concentrations in living cells isa useful method for monitoring aspects of cellular metabolism, because the NADH∕NAD⁺ reduction-oxidation pair is crucial for electron transfer through the mitochondrial electron transport chain. Variations of free and bound NAD(P)H ratio are also implicated in cellular bioenergetic and biosynthetic metabolic changes accompanying cancer. This study uses two-photon fluorescence lifetime imaging microscopy (FLIM) to investigate metabolic changes in MCF10A premalignant breast cancer cells treated with a range of glycolysis inhibitors: namely, 2 deoxy-D-glucose, oxythiamine, lonidamine, and 4-(chloromethyl) benzoyl chloride, as well as the mitochondrial membrane uncoupling agent carbonyl cyanide m-chlorophenylhydrazone. Through systematic analysis of FLIM data from control and treated cancer cells, we observed that all glycolytic inhibitors apart from lonidamine had a slightly decreased metabolic rate and that the presence of serum in the culture medium generally marginally protected cells from the effect of inhibitors. Direct production of glycolytic L-lactate was also measured in both treated and control cells. The combination of these two techniques gave valuable insights into cell metabolism and indicated that FLIM was more sensitive than traditional biochemical methods, as it directly measured metabolic changes within cells as compared to quantification of lactate secreted by metabolically active cells.
Highlights
The oxidized and reduced redox cofactor pairs flavin adenine dinucleotide (FAD∕FADH2) and nicotinamide adenine dinucleotide (NADþ∕NADH) are becoming increasingly recognized as key metabolic indicators of the state of cellular metabolism associated with health and disease
During the glycolytic conversion of glucose to pyruvate, NADþ is converted to NADH, and two acidic pyruvate molecules are created from each glucose
This study uses fluorescence lifetime imaging microscopy (FLIM) to evaluate and probe small changes in cellular metabolism in precancerous MCF10A cells associated with glycolysis inhibition and mitochondrial membrane dysfunction observed via changes in the average lifetime of NAD(P)H and ratios of free to bound forms of this molecule
Summary
The oxidized and reduced redox cofactor pairs flavin adenine dinucleotide (FAD∕FADH2) and nicotinamide adenine dinucleotide (NADþ∕NADH) are becoming increasingly recognized as key metabolic indicators of the state of cellular metabolism associated with health and disease. Lactate is secreted via specific monocarboxylate transporters to maintain cellular pH.[1] Such biology is exhibited by cells under hypoxic conditions and is typical of many cancer cells, which exhibit increased glycolytic biology even in the presence of oxygen (which is called aerobic glycolysis). Such a shift from oxidative phosphorylation to glycolysis for ATP production (the so-called Warburg effect) is one of the hallmarks of carcinogenesis.[2,3,4,5,6] Acidification of cellular environments can lead to Journal of Biomedical Optics
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