Effects of glycine betaine and glycerophosphocholine on thermal stability of ribonuclease

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Effects of glycine betaine and glycerophosphocholine on thermal stability of ribonuclease

Maurice B. Burg and Eugenia M. Peters

Laboratory of Kidney and Electrolyte Metabolism, National Heart, Lung, and Blood Institute, Bethesda, Maryland 20892

Urea in renal medullas is sufficiently high to perturb macromolecules, yet the cells survive and function. The counteractingosmolytes hypothesis holds that methylamines, such as glycinebetaine (betaine) and glycerophosphocholine (GPC) in renal medullas,stabilize macromolecules and oppose the effects of urea. Althoughbetaine counteracts effects of urea on macromolecules in vitroand protects renal cells from urea in tissue culture, renal cellsaccumulate GPC rather than betaine in response to high urea bothin vivo and in tissue culture. A proposed explanation is thatGPC counteracts urea more effectively than betaine. However, wepreviously found GPC slightly less effective than betaine in counteractinginhibition of pyruvate kinase activity by urea. To test anothermacromolecule, we now compare GPC and betaine in counteractingreduction of the thermal stability of RNase A by urea. We findthat urea decreases the thermal transition temperature and thatbetaine and GPC increase it, counteracting urea approximatelyequally. Therefore, the preference for GPC in response to highurea presumably has some other basis, such as a lower metaboliccost of GPC accumulation.

counteracting osmolytes; kidney medulla; trimethylamine N-oxide; urea; inositol; taurine; sorbitol

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