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

被引：42

作者：

Karinch, AM ^{[1
]}

Lin, CM ^{[1
]}

Wolfgang, CL ^{[1
]}

Pan, M ^{[1
]}

Souba, WW ^{[1
]}

机构：

[1] Penn State Univ, Milton S Hershey Med Ctr, Coll Med, Dept Surg, Hershey, PA 17033 USA

来源：

AMERICAN JOURNAL OF PHYSIOLOGY-RENAL PHYSIOLOGY | 2002年 / 283卷 / 05期

关键词：

renal acid-base homeostasis; basolateral membrane vesicle transport; brush-border membrane vesicle transport; ammonium chloride acidosis; system N1;

D O I：

10.1152/ajprenal.00106.2002

中图分类号：

Q4 [生理学];

学科分类号：

071003 ;

摘要：

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.

引用

页码：F1011 / F1019

页数：9

共 42 条

[31] SODIUM GRADIENT-DEPENDENT AND SODIUM PLUS POTASSIUM GRADIENT-DEPENDENT L-GLUTAMATE UPTAKE IN RENAL BASOLATERAL MEMBRANE-VESICLES [J].

SACKTOR, B ;

ROSENBLOOM, IL ;

LIANG, CT ;

CHENG, L .

JOURNAL OF MEMBRANE BIOLOGY, 1981, 60 (01) :63-71

[32] CHANGES IN MESSENGER-RNAS FOR ENZYMES OF GLUTAMINE-METABOLISM IN KIDNEY AND LIVER DURING AMMONIUM-CHLORIDE ACIDOSIS [J].

SCHOOLWERTH, AC ;

DEBOER, PAJ ;

MOORMAN, AFM ;

LAMERS, WH .

AMERICAN JOURNAL OF PHYSIOLOGY, 1994, 267 (03) :F400-F406

[33] INTERORGAN RELATIONSHIPS FOR GLUTAMINE-METABOLISM IN NORMAL AND ACIDOTIC RATS [J].

SCHROCK, H ;

GOLDSTEIN, L .

AMERICAN JOURNAL OF PHYSIOLOGY, 1981, 240 (05) :E519-E525

[34] EXTRACTION OF AMONO ACIDS FROM AND THEIR ADDITION TO RENAL BLOOD PLASME [J].

SHALHOUB, R ;

PITTS, RF ;

GLABMAN, S ;

DEHAAS, J ;

KLEIN, J ;

WEBBER, W ;

CANESSAF.M .

AMERICAN JOURNAL OF PHYSIOLOGY, 1963, 204 (02) :181-&

[35] TUBULAR REABSORPTION OF L-GLUTAMINE STUDIED BY FREE-FLOW MICROPUNCTURE AND MICROPERFUSION OF RAT-KIDNEY [J].

SILBERNAGL, S .

INTERNATIONAL JOURNAL OF BIOCHEMISTRY, 1980, 12 (1-2) :9-16

[36] ARTERIOVENOUS DIFFERENCES FOR AMINO-ACIDS AND LACTATE ACROSS KIDNEYS OF NORMAL AND ACIDOTIC RATS [J].

SQUIRES, EJ ;

HALL, DE ;

BROSNAN, JT .

BIOCHEMICAL JOURNAL, 1976, 160 (01) :125-128

[37] DIFFUSION EQUILIBRIUM FOR AMMONIA IN KIDNEY OF ACIDOTIC DOG [J].

STONE, WJ ;

BALAGURA, S ;

PITTS, RF .

JOURNAL OF CLINICAL INVESTIGATION, 1967, 46 (10) :1603-&

[38]

TAMARAPPOO BK, 1990, MINER ELECTROL METAB, V16, P322

[39] Cloning and functional characterization of a system ASC-like Na+-dependent neutral amino acid transporter [J].

UtsunomiyaTate, N ;

Endou, H ;

Kanai, Y .

JOURNAL OF BIOLOGICAL CHEMISTRY, 1996, 271 (25) :14883-14890

[40] GLUTAMINE TRANSPORT IN RENAL BASOLATERAL VESICLES FROM DOGS WITH METABOLIC-ACIDOSIS [J].

WINDUS, DW ;

COHN, DE ;

KLAHR, S ;

HAMMERMAN, MR .

AMERICAN JOURNAL OF PHYSIOLOGY, 1984, 246 (01) :F78-F86

← 1 2 3 4 5 →