BIOMAT Database Logo BIOMAT Database Logo

Accumulation of major organic osmolytes in rat renal inner medulla in dehydration. 1988

S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
Renal Division, Brigham and Women's Hospital, Boston, Massachusetts.

Osmotically active organic solutes, osmolytes, exist at high concentrations in the renal inner medulla; however, their modulation during antidiuresis remains largely undefined. Renal osmolyte levels were measured by nuclear magnetic resonance spectroscopy and biochemical assays in perchloric acid extracts from normal and dehydrated (3 days) rats. Dehydration increased urine osmolality from 1,503 to 3,748 mosmol/kg and inner medullary urea content from 2,036 to 4,405 nmol/mg protein. In addition, inner medullary trimethylamines [glycerophosphorylcholine (GPC) and betaine] and polyhydric alcohols (inositol and sorbitol) significantly increased by 95 and 78%, respectively. Ninhydrin-positive substances (amino acids), although abundant, were unchanged. Renal cortex also contained GPC, betaine, and inositol but only inositol increased with dehydration. Analysis of correlations among inner medullary osmolytes showed that only GPC was consistently elevated by dehydration and was not directly correlated with the other osmolytes. In contrast, betaine and inositol contents were linearly related to each other and both tended to rise only when sorbitol content was unchanged. In conclusion, the major osmolytes in the rat renal inner medulla can increase during antidiuresis but they are regulated in a complex manner.

UI MeSH Term Description Entries
D007294 Inositol An isomer of glucose that has traditionally been considered to be a B vitamin although it has an uncertain status as a vitamin and a deficiency syndrome has not been identified in man. (From Martindale, The Extra Pharmacopoeia, 30th ed, p1379) Inositol phospholipids are important in signal transduction. Myoinositol,Chiro-Inositol,Mesoinositol,Chiro Inositol
D007679 Kidney Medulla The internal portion of the kidney, consisting of striated conical masses, the renal pyramids, whose bases are adjacent to the cortex and whose apices form prominent papillae projecting into the lumen of the minor calyces. Kidney Papilla,Kidney Medullas,Kidney Papillas,Medulla, Kidney,Medullas, Kidney,Papilla, Kidney,Papillas, Kidney
D007773 Lactates Salts or esters of LACTIC ACID containing the general formula CH3CHOHCOOR.
D009682 Magnetic Resonance Spectroscopy Spectroscopic method of measuring the magnetic moment of elementary particles such as atomic nuclei, protons or electrons. It is employed in clinical applications such as NMR Tomography (MAGNETIC RESONANCE IMAGING). In Vivo NMR Spectroscopy,MR Spectroscopy,Magnetic Resonance,NMR Spectroscopy,NMR Spectroscopy, In Vivo,Nuclear Magnetic Resonance,Spectroscopy, Magnetic Resonance,Spectroscopy, NMR,Spectroscopy, Nuclear Magnetic Resonance,Magnetic Resonance Spectroscopies,Magnetic Resonance, Nuclear,NMR Spectroscopies,Resonance Spectroscopy, Magnetic,Resonance, Magnetic,Resonance, Nuclear Magnetic,Spectroscopies, NMR,Spectroscopy, MR
D009994 Osmolar Concentration The concentration of osmotically active particles in solution expressed in terms of osmoles of solute per liter of solution. Osmolality is expressed in terms of osmoles of solute per kilogram of solvent. Ionic Strength,Osmolality,Osmolarity,Concentration, Osmolar,Concentrations, Osmolar,Ionic Strengths,Osmolalities,Osmolar Concentrations,Osmolarities,Strength, Ionic,Strengths, Ionic
D011506 Proteins Linear POLYPEPTIDES that are synthesized on RIBOSOMES and may be further modified, crosslinked, cleaved, or assembled into complex proteins with several subunits. The specific sequence of AMINO ACIDS determines the shape the polypeptide will take, during PROTEIN FOLDING, and the function of the protein. Gene Products, Protein,Gene Proteins,Protein,Protein Gene Products,Proteins, Gene
D011921 Rats, Inbred WKY A strain of Rattus norvegicus used as a normotensive control for the spontaneous hypertensive rats (SHR). Rats, Wistar Kyoto,Wistar Kyoto Rat,Rats, WKY,Inbred WKY Rat,Inbred WKY Rats,Kyoto Rat, Wistar,Rat, Inbred WKY,Rat, WKY,Rat, Wistar Kyoto,WKY Rat,WKY Rat, Inbred,WKY Rats,WKY Rats, Inbred,Wistar Kyoto Rats
D012016 Reference Values The range or frequency distribution of a measurement in a population (of organisms, organs or things) that has not been selected for the presence of disease or abnormality. Normal Range,Normal Values,Reference Ranges,Normal Ranges,Normal Value,Range, Normal,Range, Reference,Ranges, Normal,Ranges, Reference,Reference Range,Reference Value,Value, Normal,Value, Reference,Values, Normal,Values, Reference
D003401 Creatine An amino acid that occurs in vertebrate tissues and in urine. In muscle tissue, creatine generally occurs as phosphocreatine. Creatine is excreted as CREATININE in the urine.
D003681 Dehydration The condition that results from excessive loss of water from a living organism. Water Stress,Stress, Water

Related Publications

S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
Metabolic regulation of organic osmolytes in tubules from rat renal inner and outer medulla.
January 1989, Renal physiology and biochemistry,
S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
Organic osmolytes in rat renal inner medulla are modulated by vasopressin V1 and/or V2 antagonists.
July 1994, The American journal of physiology,
S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
Regulation of organic osmolyte concentrations in tubules from rat renal inner medulla.
January 1989, The American journal of physiology,
S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
[Reaction of alpha-actinin from renal inner medulla on prolonged dehydration].
December 2004, Rossiiskii fiziologicheskii zhurnal imeni I.M. Sechenova,
S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
Immunomorphometric study of rat renal inner medulla.
March 2002, American journal of physiology. Renal physiology,
S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
Characterization of organic osmolytes in avian renal medulla: a nonurea osmotic gradient system.
June 1993, The American journal of physiology,
S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
Osmotically active organic solutes in the renal inner medulla.
February 1987, Kidney international,
S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
Phospholipid metabolism in the rat renal inner medulla.
October 1983, Biochimica et biophysica acta,
S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
Renal medullary organic osmolytes.
October 1991, Physiological reviews,
S R Gullans, and J D Blumenfeld, and J A Balschi, and M Kaleta, and R M Brenner, and C W Heilig, and S C Hebert
Sterol biosynthesis in vitro of rat renal inner medulla.
May 1973, Biochimica et biophysica acta,
Copied contents to your clipboard!