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Regulation of expression of the SN1 transporter during renal adaptation to chronic metabolic acidosis in rats

Karinch, Anne M; Lin, Cheng-Mao; Wolfgang, Christopher L; Pan, Ming; Souba, Wiley W
During chronic metabolic acidosis, renal glutamine utilization increases markedly. We studied the expression of the system N1 (SN1) amino acid transporter in the kidney during chronic ammonium chloride acidosis in rats. Acidosis caused a 10-fold increase in whole kidney SN1 mRNA level and a 100-fold increase in the cortex. Acidosis increased Na(+)-dependent glutamine uptake into basolateral and brush-border membrane vesicles (BLMV and BBMV, respectively) isolated from rat cortex (BLMV, 219 +/- 66 control vs. 651 +/- 180 pmol. mg(-1). min(-1) acidosis; BBMV, 1,112 +/- 189 control vs. 1,652 +/- 148 pmol. mg(-1). min(-1) acidosis, both P < 0.05). Na(+)-independent uptake was unchanged by acidosis in BLMV and BBMV. The acidosis-induced increase in Na(+)-dependent glutamine uptake was eliminated by histidine, confirming transport by system N. SN1 protein was detected only in BLMV and BBMV from acidotic rats. After recovery from acidosis, SN1 mRNA and protein and Na(+)-dependent glutamine uptake activity rapidly returned to control levels. These data provide evidence that regulation of expression of the SN1 amino acid transporter is part of the renal homeostatic response to acid-base imbalance.
PMID: 12372777
ISSN: 1931-857x
CID: 4743792

Activation of intestinal arginine transport by protein kinase C is mediated by mitogen-activated protein kinases

Pan, Ming; Meng, Qing He; Wolfgang, Christopher L; Lin, Cheng Mao; Karinch, Anne M; Vary, Thomas C; Souba, Wiley W
L-Arginine uptake by the small intestine can play a pivotal role in regulating nitric oxide synthesis and immune functions in catabolic states. We previously showed that protein kinase C (PKC) activation stimulates intestinal brush-border membrane arginine transport. However, the signaling pathways implicated in this activation have not been studied. The purpose of this study was to investigate the intracellular signal transduction pathways involved in the protein kinase C stimulation of arginine transport across the apical membrane of intestinal epithelial Caco-2 cells. [3H]-L-arginine transport activity, Northern blot analysis of mRNA levels of the intestinal arginine transporter CAT1, and Western blot analysis of the mitogen-activated protein (MAP) kinases phospho-p44/42 activity and phospho-MEK1/2 were measured in cultured Caco-2 cells treated with phorbol ester (phorbol 12-myristate 13-acetate, TPA; 0 to 0.5 micromol/L), and the MEK1 inhibitor PD 98059 (0 to 50 micromol/L). Phorbol ester stimulated intestinal arginine transport activity. Arginine transporter gene CAT1 mRNA, phospho-p44/42, and phospho-MEK1/2 levels were stimulated in phorbol ester-treated cells, compared with the control group. Phorbol ester stimulation of arginine transport activity and transporter CAT1 mRNA levels was blocked by PD 98059. These data suggest that phorbol ester stimulates arginine transport in Caco-2 cells via signaling pathways that lead to increased transcription and/or stabilization of CAT1 mRNA. Protein kinase C and MAP kinases MEK1/2 and p44/42 are key intracellular regulators involved in this signal transduction cascade.
PMID: 12504227
ISSN: 1091-255x
CID: 4743802