Abstract
At present, the central role played by arginine in the modulation of the inflammatory cellular responses is well-recognized, and many pro-inflammatory stimuli are known to modulate the expression and activity of its transmembrane transporters. In this regard, we have addressed the effects of bacterial flagellin from Pseudomonas aeruginosa (FLA-PA) on the uptake of the amino acid in human epithelial respiratory cells. Among the arginine transporters, only ATB0,+, y+L, and y+ were operative in bronchial epithelial Calu-3 cells under control conditions; however, only the expression and activity of ATB0,+ were stimulated upon incubation with flagellin, whereas those of systems y+L and y+ were not stimulated. As a result, this induction, in turn, led to an increase in the intracellular content of arginine without making any change to its metabolic pathway. In addition, flagellin upregulated the amount of other amino acids substrates of ATB0,+, in particular, all the essential amino acids, such as valine, isoleucine, and leucine, along with the non-essential glutamine. At the molecular level, these effects were directly referable to the stimulation of a toll-like receptor-5 (TLR5) signaling pathway and to the induction of nuclear factor-κB (NF-κB) transcription factor. An induction of ATB0,+ expression has been observed also in EpiAirway™, a model of primary human normal tracheal-bronchial epithelial cells that mimics the in vitro pseudostratified columnar epithelium of the airways. In this tissue model, the incubation with flagellin is associated with the upregulation of messenger RNAs (mRNAs) for the chemokine IL-8 and for the cytokines IL-6 and interleukin-1β (IL-1β); as for the latter, a marked secretion in the extracellular medium was also observed due to the concomitant activation of caspase-1. The overall findings indicate that, in human respiratory epithelium, flagellin promotes cellular responses associating the increase of intracellular amino acids through ATB0,+ with the activation of the inflammasome. Given the role of the ATB0,+ transporter as a delivery system for bronchodilators in human airway epithelial cells, its induction under inflammatory conditions gains particular relevance in the field of respiratory pharmacology.
Highlights
Arginine is a semi-essential amino acid acting as a key driver of metabolic processes associated with several pathological and physiological conditions [1]
Another transporter involved in the arginine absorption is ATB0,+, an influx system for neutral and cationic amino acids endowed with a high concentrative capacity, which is energized by the transmembrane gradients of Na+ and Cl− as well as by the membrane potential [8]
In this context we demonstrate here that, in Calu3 bronchial epithelial cells and EpiAirwayTM tissues, the induction of a pro-inflammatory phenotype by bacterial FLAPA is associated with an upregulation of the expression and activity of SLC6A14/ATB0,+ transporter for cationic and neutral amino acids
Summary
Arginine is a semi-essential amino acid acting as a key driver of metabolic processes associated with several pathological and physiological conditions [1]. System b0,+ belongs to the group of the HAT and is formed by b0,+AT (encoded by SLC7A9) linked through a disulfide bridge to the heavy subunit rBAT This system is expressed in the small intestine and the proximal tubule of the kidney, where it mediates the reabsorption of cystine by exchanging extracellular dibasic amino acids and cystine with intracellular neutral amino acids [7]. Another transporter involved in the arginine absorption is ATB0,+, an influx system for neutral and cationic amino acids endowed with a high concentrative capacity, which is energized by the transmembrane gradients of Na+ and Cl− as well as by the membrane potential [8]. We have demonstrated that SLC6A14/ATB0,+ is maximally expressed on the apical side of EpiAirwayTM, a model
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