The incubation of xanthine-oxidase (XOD) with rat cardiac membranes induced the formation of free radicals; they were identified by electron spin resonance spectroscopy (ESR) studies using 0.1 M 5,5-dimethyl-1-pyrroline-1-oxide (DMPO) for spin-trapping. The following DMPO adducts were measured: DMPO-OH, which was produced during the first minute of incubation, DMPO-R radicals, which were present after 4 min of incubation and where the signal intensity remained constant for at least 20 min. The binding studies performed after 15 min incubation showed that XOD (1-50 mU) dose dependently reduced 3H-nitrendipine binding. This reduction was caused by a decrease in the density of binding sites while the affinity remained unchanged. These results suggest that ethoxy radical formation may be an important step in the regulation of L type calcium channels.
Do ethoxy radicals reduce 3H-nitrendipine binding in rat cardiac membranes? / Matucci R; Ottaviani M; Campana S; Bianchi B; Bennardini F; Moneti G; Giotti A; Franconi F. - In: PHARMACOLOGICAL RESEARCH. - ISSN 1043-6618. - STAMPA. - 26:(1992), pp. 151-159.
Do ethoxy radicals reduce 3H-nitrendipine binding in rat cardiac membranes?
MATUCCI, ROSANNA;OTTAVIANI, MARIA FRANCESCA;BIANCHI, BEATRICE;MONETI, GLORIANO;GIOTTI, ALBERTO;FRANCONI, FLAVIA
1992
Abstract
The incubation of xanthine-oxidase (XOD) with rat cardiac membranes induced the formation of free radicals; they were identified by electron spin resonance spectroscopy (ESR) studies using 0.1 M 5,5-dimethyl-1-pyrroline-1-oxide (DMPO) for spin-trapping. The following DMPO adducts were measured: DMPO-OH, which was produced during the first minute of incubation, DMPO-R radicals, which were present after 4 min of incubation and where the signal intensity remained constant for at least 20 min. The binding studies performed after 15 min incubation showed that XOD (1-50 mU) dose dependently reduced 3H-nitrendipine binding. This reduction was caused by a decrease in the density of binding sites while the affinity remained unchanged. These results suggest that ethoxy radical formation may be an important step in the regulation of L type calcium channels.
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