Superoxide radical formation in diverse organs of rats with experimentally induced obstructive jaundice

Abstract

Oxidative stress seems to be a cardinal feature of cholestasis, implicated in the pathophysiology of organ injury not only in the liver, but also in several extrahepatic tissues. The present study was designed to assess directly oxidative stress in vital organs of experimentally jaundiced rats by measuring the key oxidative stress marker superoxide radical (O2•−). Twelve male Wistar rats underwent laparotomy and were divided into two groups – group I (n = 6) sham operated, and group II (n = 6) bile-duct ligated. Ten days later, the O2•− formation rate was quantified in liver, intestine, kidney and heart of all animals. These measurements were done by application of a new ultrasensitive fluorescent assay for the in vivo quantification of O2•−, which is based on the 1:1 molar stoichiometric reaction of O2•− with dihydroethidine (DHE, an O2•− trap) that results in the formation of the specific product 2-OH-ethidium. 2-OH-Ethidium was measured by fluorescence in rats' organs and its formation rate was converted to O2•− production rate. As compared to sham-operated rats, in jaundiced rats there was a significant increase of O2•− in the intestine (136%, P < 0.01), liver (104%, P < 0.01), and kidney (95%, P < 0.01), whereas there was no significant difference in heart O2•− levels. Superoxide radical may play an important role in the pathophysiology of cholestatic liver injury, intestinal barrier failure and renal failure, associated with postoperative morbidity and mortality in obstructive jaundice. On the contrary, O2•− and oxidative stress are possibly not implicated in the pathophysiology of hepatic cardiomyopathy.