Abstract
Low plasma concentration of L-homoarginine is an independent predictor of cardiovascular events and total mortality. Experimental data indicate that supplementation of L-homoarginine may have protective effects. We aimed to elucidate the mechanisms involved in the cellular uptake of L-homoarginine, which are little understood, so far. Using human embryonic kidney (HEK293) cell lines stably overexpressing the human cationic amino acid transporters CAT1 [solute carrier family 7 (SLC7A1)], CAT2A (SLC7A2A) or CAT2B (SLC7A2B) we assessed the transport kinetics of L-homoarginine and interactions with the CAT substrates L-arginine and asymmetric dimethylarginine (ADMA). Significant uptake of L-homoarginine was observed for all three CATs with apparent KM-values of 175 ± 7 µM for CAT1 and 523 ± 35 µM for CAT2B. Saturation of CAT2A-mediated L-homoarginine uptake could not be reached. Uptake of L-homoarginine by any of the three CATs could be inhibited by L-arginine and ADMA. Significant inhibition of CAT1-mediated uptake of L-homoarginine by L-arginine already occurred in the physiological concentration range. Taken together these data demonstrate that L-homoarginine is a substrate of CAT1, CAT2A and CAT2B and that CAT1 is a key site with regard to physiological relevance and interactions with related substrates such as L-arginine.
Highlights
Prospective clinical studies across different populations have characterized L-homoarginine as an independent protective biomarker[1]
It was the aim of the present study to assess transport mechanisms involved in the cellular uptake of L-homoarginine focusing on the cationic amino acid transporters CAT1, CAT2A and CAT2B
L-homoarginine (100 μmol/l) as substrate, cellular uptake was significantly higher in HEK cells overexpressing CAT1 (7-fold), CAT2A (1.6-fold) or CAT2B (2.2-fold), respectively, as compared to the uptake into control cells (p < 0.001 vs. HEK VCG418 or HEKHygro, Fig. 1)
Summary
Prospective clinical studies across different populations have characterized L-homoarginine as an independent protective biomarker[1]. It was the aim of the present study to assess transport mechanisms involved in the cellular uptake of L-homoarginine focusing on the cationic amino acid transporters CAT1, CAT2A and CAT2B. In previous studies we found the HEK cell lines well suited to study the CAT1-, CAT2A- or CAT2B-mediated cellular uptake of substrates related to homoarginine (such as L-arginine and ADMA)[23, 24].
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