• Korean Journal of Veterinary Research
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• v.38 no.1
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• pp.17-28
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• 1998

Drug-metabolizing activities of Korean native cattle and swine were investigated from viewpoints of the cytochrome P-450's level, their dependent mixed function oxidase activities, the reactive oxygen species formation and cytosolic enzyme acitivities from each liver homogenates. Level of cytochrome P-450 in the liver microsome of Korean native cattle was $0.28{\pm}0.05nmole/mg$ and that in pigs $0.35{\pm}0.03nmole/mg$. Level of cytochrome $b_5$ of Korean native cattle was $0.24{\pm}0.06nmole/mg$, and that of pigs $0.2{\pm}0.05nmole/mg$, showing no difference between two species. NADPH P-450 reductase were higher in Korean native cattle ($58.3{\pm}5.3nmole/mg/min$) than in pigs ($29.9{\pm}3.8nmole/mg/min$)(p<0.01). The activities of cytochrome P-450 dependent monooxygenases such as ethoxyresorufin O-deethylase (cattle, $96.5{\pm}12.5nmole/mg/min$ ; pigs, $13.6{\pm}2.1nmole/mg/min$), N-benzphetamine N-demethylase (cattle, $5.23{\pm}0.82nmole/mg/min$ ; pigs, $0.76{\pm}0.3nmole/mg/min$) and aniline hydroxylase (cattle, $0.95{\pm}0.1nmole/mg/min$ ; pigs, $0.33{\pm}0.08nmole/mg/min$) were much higher in Korean native cattle than in swine(p<0.01). However, the activity of testosterone $7{\alpha}$-hydroxylase was higher in swine ($90.4{\pm}1.2nmole/mg/min$) than cattle (cattle, $32.8{\pm}1.2nmole/mg/min$). Interestingly, testosterone $16{\alpha}$-hydroxylase, a marker enzyme for P-450 IIA was not detected in both animal species. These results suggest that Korean native cattle and pigs have high contents of P-450 IA1 and P-450 IIIA. Total sulfhydryl compound (cattle, $10.3{\pm}1.1nmole/mg$ ; Pigs, $14.5{\pm}1.8nmole/mg$) and glutathione related enzymes except glutathione reductase (cattle, $38.1{\pm}7.9nmole/mg/min$; swine, $22{\pm}3.6nmole/mg/min$) showed higher levels in swine than in Korean native cattle. Superoxide dismutase (cattle, $7.64{\pm}0.84nmole/mg/min$ ; pigs, $4.47{\pm}0.94nmole/mg/min$) and catalase (cattle, $30.4{\pm}3.7nmole/mg/min$ ; pigs, $17.2{\pm}1.8nmole/mg/min$) were remarkably higher in Korean native cattle than in swine (p<0.05).

• The Korean Journal of Pharmacology
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• v.28 no.2
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• pp.201-212
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• 1992

Effect of exogenous taurine on HOCl, $NH_2Cl$ and other oxidants-induced degradation of hyaluronic acid was investigated. The scavenging action of taurine on HOCl, $NH_2Cl$ and other oxidants was examined. The antioxidant action of taurine was also compared with that of thiol compounds. Viscosity of hyaluronic acid was markedly decreased by HOCl and $NH_2Cl$ on a dose dependent fashion. The degradative effect of HOCl on hyaluronic acid was greater than that of $NH_2Cl$. Taurine effectively inhibited HOCl-and $NH_2Cl-induced$ degradation of hyaluronic acid in a dose dependent fashion. The degradative effect of HOCl was markedly inhibited by DMSO. $Fe^{2+}$ plus $H_2O_2-induced$ degradation of hyaluronic acid was inhibited by catalase and DMSO but not affected by taurine. The desradative action of xanthine and xanthine oxidase was effectively inhibited by SOD and catalase but not affected by taurine. HOCl was significantly decomposed by taurine, DMSO, GSH and MPG. Both absorbance of HOCl at 250 nm and absorbance of $NH_2Cl$ at 242 nm were significantly increased by the addition of taurine. Interaction of $NH_2Cl$ with GSH or MPG showed an initial peak absorbance, but these absorbances were gradually decreased with time. OH production in the presence of $Fe^{2+}$ and $H_2O_2$ was inhibited by catalase and DMSO but not affected by taurine. Taurine did not affect $^1O_2$ production by U.V. irradiation which is responsible for DABCO and DABA. GSH and MPG markedly inhibited the degradative action of HOCl. These results suggest that the protective action of taurine on oxidants-induced damages of tissue components, including degradation of hyaluronic acid may be attributable to both its scavenging action on HOCl and $NH_2Cl$ and the complex formation of taurine with HOCl or $NH_2Cl$ without scavenging action on oxygen free radicals. Sulfhydryl group of taurine appears to show partially a protective action on HOCl-and $NH_2Cl-induced$ degradation.