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Department of Emergency Medicine, Wright State University School of Medicine, Dayton 45429; and Department of Physiology and Biophysics, Wright State University School of Medicine, Dayton, Ohio 45435
We investigated mechanisms controlling taurine
synthesis in cultured rat cerebral astrocytes. The mean ± SE rate
of taurine synthesis from extracellular cysteine was 21.2 ± 2.0 pmol · mg protein
1 · min1,
whereas taurine degradation was <1.3% of this rate. Eliminating cellular glutathione and inhibiting glutathione biosynthesis increased taurine synthesis from extracellular cysteine by 39%. In cell homogenates, cysteine dioxygenase (CDO) and cysteine-sulfinate decarboxylase activities were 2.4 ± 0.2 and 8.3 ± 2.8 nmol · mg protein1 · min1,
respectively. CDO activity was strongly dependent on cysteine concentration over physiological and pathophysiological ranges of
intracellular cysteine concentration. Growth in hyperosmotic medium
caused a greater increase in culture medium taurine content than that
measured from cells in isosmotic growth medium. Hyperosmotic treatment
transiently increased the rate of cysteine accumulation and cellular
cysteine and glutathione contents but had no effect on the synthesis
rate of taurine from extracellular cysteine. Thus cysteine is
accumulated and then metabolized to taurine through CDO, whose activity
depends on the intracellular cysteine concentration and appears to be
rate limiting for taurine synthesis. Hyperosmotic exposure increases
net taurine production yet has no effect on taurine synthesis from
exogenously applied cysteine. Availability of substrate from
intracellular pools must contribute to maintenance of high
intracellular taurine during hyperosmotic exposure.
cysteine dioxygenase; cysteine-sulfinate decarboxylase; 
-glutamyltransferase; glutathione; volume regulation
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