Characterization of amino acid metabolism by cultured rat kidney cells: study with 15N.

The present study evaluates the metabolism of glutamine and glutamate by normal rat kidney (NRK) cells. The major aim was to evaluate the effect of acute acidosis on the metabolism of amino acid and ammonia formation by cultured NRK cells. Experiments at either pH 7.0 or 7.4 were conducted with phosphate-buffered saline supplemented with either 1 mM [5-15N]glutamine, [2-15N]glutamine, or [15N]glutamate. Incubation with either glutamine or glutamate as a precursor showed that production of ammonia and glucose was increased significantly at pH 7.0 vs. 7.4. The disappearance [corrected] of glutamine and glutamate was linear during a 60-min incubation at either pH. In experiments with [5-15N]glutamine, we found that approximately 57 and 43% of ammonia N was derived from 5-N of glutamine at pH 7.4 and 7.0, respectively. Experiments with [2-15N]glutamine or [15N]glutamate indicated that approximately 43 and 47% of 2-N glutamine and glutamate N utilization, respectively, was accounted for by ammonia production at pH 7.0. Similarly, 28 and 29% of NH3 was derived from 2-N of glutamine or glutamate N by activity of glutamate dehydrogenase at pH 7.4. In addition to 15NH3 formation, three major metabolic pathways of [2-15N]glutamine or [15N]glutamate disposal were identified: 1) transamination reactions involving the pH-independent formation of [15N] aspartate and [15N]alanine; 2) the synthesis of [6-15NH2]adenine nucleotide, a process more active at pH 7.4 vs. 7.0; and 3) glutamine synthesis from [15N]glutamate, especially at pH 7.4. The data indicate that NRK cells in culture consume glutamine and glutamate and generate ammonia and various amino acids, depending on the H+ concentration in the media. The studies suggest that these cell lines may provide a useful model for studying various aspects of the effect of pH on rat renal ammoniagenesis.