REGULATION OF OPOSSUM KIDNEY (OK) CELL NA/P-I COTRANSPORT BY P-I DEPRIVATION INVOLVES MESSENGER-RNA STABILITY

被引：47

作者：

MARKOVICH, D ^{[1
]}

VERRI, T ^{[1
]}

SORRIBAS, V ^{[1
]}

FORGO, J ^{[1
]}

BIBER, J ^{[1
]}

MURER, H ^{[1
]}

机构：

[1] UNIV ZURICH,INST PHYSIOL,CH-8057 ZURICH,SWITZERLAND

来源：

PFLUGERS ARCHIV-EUROPEAN JOURNAL OF PHYSIOLOGY | 1995年 / 430卷 / 04期

关键词：

OK CELLS; NA/P-I COTRANSPORT; P-I DEPRIVATION; NA P-I-4 MESSENGER-RNA; MESSENGER-RNA STABILITY;

D O I：

10.1007/BF00373881

中图分类号：

Q4 [生理学];

学科分类号：

071003 ;

摘要：

Renal proximal tubular Na-dependent phosphate transport (Na/P-i cotransport) has been studied extensively in the opossum kidney (OK) cell line. Recently, we cloned a complementary deoxyribonucleic acid (cDNA) (NaPi-4) from OK cells encoding an apical NaPi cotransport system. OK cells exposed to a low-P-i medium, as compared to high-P-i media, responded with an increase in Na/P-i cotransport, which was followed by an increase in NaPi-4 messenger ribonucleic acid (mRNA) abundance; maximal stimulation of Na/P-i cotransport was reached in 2 h, with no further increase for up to 16 h. NAP(i)-4 mRNA abundance was unaltered for 2 h, then increased to a maximum after 6-16 h in cells treated with low Pi medium. NaPi-4 mRNA decay rate was lowered by low-P-i media when compared to high-Pi media, with no increase in the NaPi-4 mRNA transcription rate. These data suggest that the upregulation of Na/P-i cotransport in OK cells by low-Pi media involves two regulatory mechanisms: an immediate (early) increase (after 2 h) in the expression of Na/P-i cotransport, independent of mRNA synthesis or stability, and a delayed (late) effect (after 4-6 h), resulting in an increase in NaPi-4 mRNA abundance, due to an increased stability.

引用

页码：459 / 463

页数：5

共 10 条

[1]

Berndt T, 1992, KIDNEY PHYSL PATHOPH, P2511

[2] MODULATION OF NA+-PI COTRANSPORT IN OPOSSUM KIDNEY-CELLS BY EXTRACELLULAR PHOSPHATE [J].

BIBER, J ;

FORGO, J ;

MURER, H .

AMERICAN JOURNAL OF PHYSIOLOGY, 1988, 255 (02) :C155-C161

[3]

CHOMCZYNSKI P, 1981, ANAL BIOCHEM, V162, P156

[4] TRANSCRIPTIONAL REGULATION OF HEMOGLOBIN SWITCHING IN CHICKEN EMBRYOS [J].

GROUDINE, M ;

PERETZ, M ;

WEINTRAUB, H .

MOLECULAR AND CELLULAR BIOLOGY, 1981, 1 (03) :281-288

[5] CELLULAR MECHANISMS OF ACUTE AND CHRONIC ADAPTATION OF RAT RENAL P-I TRANSPORTER TO ALTERATIONS IN DIETARY P-I [J].

LEVI, M ;

LOTSCHER, M ;

SORRIBAS, V ;

CUSTER, M ;

ARAR, M ;

KAISSLING, B ;

MURER, H ;

BIBER, J .

AMERICAN JOURNAL OF PHYSIOLOGY-RENAL FLUID AND ELECTROLYTE PHYSIOLOGY, 1994, 267 (05) :F900-F908

[6]

Murer H, 1994, Curr Opin Nephrol Hypertens, V3, P504, DOI 10.1097/00041552-199409000-00005

[7]

MURER H, 1992, KIDNEY PHYSL PATHOPH, P2481

[8] FUNCTIONAL ASYMMETRY OF PHOSPHATE-TRANSPORT AND ITS REGULATION IN OPOSSUM KIDNEY-CELLS - PHOSPHATE-TRANSPORT [J].

RESHKIN, SJ ;

FORGO, J ;

MURER, H .

PFLUGERS ARCHIV-EUROPEAN JOURNAL OF PHYSIOLOGY, 1990, 416 (05) :554-560

[9]

ROSEWICZ R, 1994, AM J PHYSIOL, V267, pG772

[10]

SORRIBAS V, 1994, J BIOL CHEM, V269, P6615

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