Abstract
Intestinal epithelial cells (IECs) are crucial to maintain intestinal function and the barrier against the outside world. To support their function they rely on energy production, and failure to produce enough energy can lead to IEC malfunction and thus decrease intestinal barrier function. However, IEC metabolic function is not often used as an outcome parameter in intervention studies, perhaps because of the lack of available methods. We therefore developed a method to isolate viable IECs, suitable to faithfully measure their metabolic function by determining extracellular glycolytic and mitochondrial flux. First, various methods were assessed to obtain viable IECs. We then adapted a previously in-house generated image-analysis algorithm to quantify the amount of seeded IECs. Correcting basal respiration data of a group of piglets using this algorithm reduced the variation, showing that this algorithm allows for more accurate analysis of metabolic function. We found that delay in metabolic analysis after IEC isolation decreases their metabolic function and should therefore be prevented. The presence of antibiotics during isolation and metabolic assessment also decreased the metabolic function of IECs. Finally, we found that primary pig IECs did not respond to Oligomycin, a drug that inhibits complex V of the electron transport chain, which may be because of the presence of drug exporters. A method was established to faithfully measure extracellular glycolytic and mitochondrial flux of pig primary IECs. This tool is suitable to gain a better understanding of how interventions affect IEC metabolic function.
Highlights
Intestinal epithelial cells (IECs) are crucial to maintain intestinal function and the barrier against the outside world
Intestinal barrier function is decreased when energy production is impaired, which can occur through inhibition by drugs, redirection of blood flow during strenuous exercise or even upon bacterial infection[3,6,13]
IEC metabolism plays an important role in supporting intestinal barrier function
Summary
Intestinal epithelial cells (IECs) are crucial to maintain intestinal function and the barrier against the outside world. Intestinal epithelial cell (IEC) energy metabolism, and especially mitochondrial energy production, is essential for maintaining the intestinal barrier function both in vitro and in vivo[6,12,13]. Assessment of intestinal metabolic function in both animal and human in vivo experiments is not often considered as an outcome parameter of interventions that target intestinal function Part of this hiatus is caused by difficulties in measuring intestinal epithelial energy metabolism, especially mitochondrial respiration and the Scientific Reports | (2021) 11:19961. We chose to optimize the isolation procedure for the colon, because microbial fermentation end-products present in this intestinal compartment can both positively and negatively impact mitochondrial function of IECs. For example, butyrate, a short-chain fatty acid produced through fibre fermentation, is known to be an important energy source for colon cells and supports mitochondrial function[18,19]. A more practical consideration for using pigs, is the availability of adequate amounts of healthy intestinal material
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