Nacl and/or urea infusion fails to increase renal inner medullary
myo-inositol in protein deprived rats.
Nakanishi, Takeshi, Futoshi Nishihara, Atsushi Yamauchi, Shigeo
Yamamoto, Minoru Sugita, and Yoshihiro Takamitsu.
Department of Kidney and Dialysis, Fifth Department of Internal
Medicine, Hyogo College of Medicine Nishinomiya 663, Japan, First
Department of Medicine, Osaka University Medical, School, Suita 653,
JAPAN
APStracts 3:0157F, 1996.
As we recently demonstrated that in potassium depletion a decrease in
inner medullary organic osmolytes might precede and cause a renal
concentrating defect, we hypothesized that in the protein deprivation
the same mechanism may occur. To clarify the relationship between
renal medullary organic osmolytes and urine concentration defects
during protein deprivation, we examined the effect of protein
malnutrition on organic osmolyte content after water deprivation or
sodium and/or urea infusion. Water deprivation did not restore urine
urea and osmolality or tissue sodium and urea in protein-deprived
rats to control levels. NaCl infusion only increased urinary and
medullary Na. Urea infusion increased medullary urea but not urine
urea. NaCl plus urea infusion increased only urinary sodium and urea.
Regardless of the protocols of hyperosmolality used, protein
deprivation significantly decreased the medullary contents of myo
-inositol and taurine and the level of sodium dependent myo-inositol
transporter mRNA. We conclude that factors other than NaCl and urea
but associated with protein feeding are responsible for the decreased
accumulation of organic osmolytes.
Received 26 April 1996; accepted in final form 26 August 1996.
APS Manuscript Number F123-6.
Article publication pending Am. J. Physiol. (Renal Fluid Electrolyte
Physiology).
ISSN 1080-4757 Copyright 1996 The American Physiological Society.
Published in APStracts on 19 September 1996