Regulation of rENaC mRNA by dietary NaCl and steroids: organ, tissue, and steroid heterogeneity

Regulation of rENaC mRNA by dietary NaCl and steroids: organ, tissue, and steroid heterogeneity

Laboratory of Epithelial Transport, Department of Internal Medicine, University of Iowa and Department of Veterans Affairs Medical Center, Iowa City, Iowa 52242 Rats on a low-NaCl diet have a high Na + channel activity in colon and kidney. To address the mechanism of this increased activity, we meas...

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Veröffentlicht in:American Journal of Physiology: Cell Physiology 1998-06, Vol.274 (6), p.C1699-C1707
Hauptverfasser: Stokes, J.B, Sigmund, R.D
Format: Artikel
Sprache:eng
Schlagworte:
Adrenalectomy
Animals
ARN MENSAJERO
ARN MESSAGER
CHLORURE DE SODIUM
CLORURO SODICO
Colon - metabolism
EPITHELIAL SODIUM ION CHANNEL
Epithelium - metabolism
ESTEROIDES
Female
Gene Expression Regulation - drug effects
Glucocorticoids - pharmacology
Kidney Cortex - metabolism
Kidney Medulla - metabolism
Lung - metabolism
Male
MESSENGER RNA
Mineralocorticoids - pharmacology
Organ Specificity
Rats
Rats, Wistar
Sodium Channels - genetics
SODIUM CHLORIDE
Sodium Chloride, Dietary - pharmacology
STEROIDE
STEROIDS
Steroids - pharmacology
Tissue Distribution
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Zusammenfassung:Laboratory of Epithelial Transport, Department of Internal Medicine, University of Iowa and Department of Veterans Affairs Medical Center, Iowa City, Iowa 52242 Rats on a low-NaCl diet have a high Na + channel activity in colon and kidney. To address the mechanism of this increased activity, we measured mRNA levels of three Na + channel subunits in epithelial tissue (rENaC) from rats having been fed either a low (0.13%)- or high (8%)-NaCl diet for 2-3 wk. The size of the mRNA for each of the rENaC subunits as determined by Northern blot was unaffected by diet. RNase protection assay showed heterogeneity of response by organs and subunit. In lung, there was no effect of diet on any of the three subunits. In descending colon, the low-NaCl diet increased - and -rENaC mRNA, with no effect on -rENaC mRNA. In the kidney, the response to dietary NaCl was dependent on the region. In cortex and outer medulla, diet had no effect on any of the subunits. Rats fed the low-NaCl diet had greater -rENaC in inner medulla but not - or -rENaC mRNA. We next asked whether acute administration of pure glucocorticoid (GC) or mineralocorticoid (MC) hormones to adrenalectomized rats reproduced the effects of a low-NaCl diet. Six hours after administration of GC or MC, a somewhat different heterogeneity occurred. In lung, -rENaC mRNA was increased but only in response to GC. In colon, either GC or MC increased - or -rENaC, and there was no effect on -rENaC. In kidney, either GC or MC increased -rENaC, without an effect on - or -rENaC. In contrast to the response to a low-NaCl diet, all three regions were similarly affected by acute steroids. These results demonstrate a striking heterogeneity in response to physiological stimuli that regulate ENaC function. The mRNA levels of each of the rENaC subunits can be determined by the type of steroid and by factors unique to the organ and even to the specific region of the kidney. kidney; kidney medulla; colon; lung; sodium channel; aldosterone; RU-28362; dietary salt
ISSN:0002-9513
0363-6143
2163-5773
1522-1563
DOI:10.1152/ajpcell.1998.274.6.c1699