Journal of applied physiology
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Comparative Study
Inhibition of mitochondrial carbonic anhydrase and ureagenesis: a discrepancy examined.
The amount of urea synthesized in intact guinea pig hepatocytes in 60 min ([urea]t=60), was determined at 37 degrees C in Krebs-Henseleit buffer plus (in mM) 10 NH4Cl, 5 lactate, and 10 ornithine in 5% CO2-95% O2. The concentrations of sulfonamide carbonic anhydrase (CA) inhibitors required to reduce the rate of urea synthesis by 50% (I50) were (in mM): 0.07 ethoxzolamide, 0.5 methazolamide, 0.7 acetazolamide, and 5.0 p-aminomethylbenzenesulfonamide. ⋯ Inhibition constant (Ki) values for CA activity of disrupted mitochondria at 37 degrees C were 0.03 microM ethoxzolamide and 0.16 microM acetazolamide, and for disrupted hepatocytes were 150 microM ethoxzolamide and 50 microM acetazolamide. p-Aminomethylaminosulfonamide-affinity column purification yields one band of 29,000 mol wt for CA V purified from disrupted mitochondria; homogenized whole-liver supernatant yields an additional band of 20,000 mol wt (at greater than 100 times the concentration of CA V), which has some glutathione S-transferase activity. It is concluded that this 20,000-mol wt protein modifies the potency of ethoxzolamide in the liver cytosol.