Effect of diethyl ether on the biliary excretion of acetaminophen

The biliary and renal excretion of acetaminophen and its metabolites over 8 hr was determined in rats exposed to diethyl ether by inhalation for 1 hr. Additional rats were anesthetized with urethane (1 g/kg ip) while control animals were conscious throughout the experiment (surgery was performed under hexobarbital narcosis: 150 mg/kg ip; 30-min duration). The concentration of UDP-glucuronic acid was decreased 80% in livers from ether-anesthetized rats but was not reduced in urethane-treated animals when compared to that in control rats. The concentration of reduced glutathione was not affected by either urethane or diethyl ether. Basal bile flow was not altered by the anesthetic agents. Bile flow rate after acetaminophen injection (100 mg/kg iv) was increased slightly over basal levels for 2 hr in hexobarbital-treated control rats, was unaltered in urethane-anesthetized animals, and was decreased throughout the 8-hr experiment in rats exposed to diethyl ether for 1 hr. In control and urethane-anesthetized animals, approximately 30-35% of the total acetaminophen dose (100 mg/kg iv) was excreted into bile in 8 hr, while only 16% was excreted in rats anesthetized with diethyl ether. Urinary elimination (60-70% of the dose) was not altered by exposure to ether. Separation of metabolites by reverse-phase high-pressure liquid chromatography showed that ether decreased the biliary elimination of unchanged acetaminophen and its glucuronide, sulfate, and glutathione conjugates by 47, 40, 49, and 73%, respectively, as compared to control rats. Excretion of unchanged acetaminophen and the glutathione conjugate into bile was depressed in urethane-anesthetized animals by 45 and 66%, respectively, whereas elimination of the glucuronide and sulfate conjugates was increased by 27 and 50%, respectively. These results indicate that biliary excretion is influenced by the anesthetic agent and that diethyl ether depresses conjugation with sulfate and glutathione as well as glucuronic acid.     

Effect of aluminum and deferoxamine on biliary iron elimination in the rat

Iron (Fe) and aluminum (Al) eliminations in bile were studied in rats after intravenous administration of Fe, Al, deferoxamine mesylate (Desferal, Ciba) (DFA), feroxamine (FeA), and aluminoxamine (AlA) at the dose of 50 mumole/kg body weight. Bile was obtained from the bile duct of anesthetized rats, and the concentrations of Fe and Al in bile were measured by an inductively coupled plasma optical emission spectrometer. The results showed an increase of Fe elimination in bile, from 10 to more than 20 mumole/liter after Fe and also after Al administration; an increase to about 350 mumole/liter after DFA administration; to 250 mumole/liter after FeA administration; and to 100 mumole/liter after AlA administration. Aluminum elimination in bile was increased only after Al and particularly after AlA administration but not after Fe and FeA administration. In conclusion, Al and AlA were able to increase Fe elimination in bile. Thus Al overload observed in hemodialyzed patients may induce an excessive iron loss in bile and partly explain microcytic anemia.     

Effect of 17alpha-ethinylestradiol on biliary excretion of bile acids.

The effect of 17alpha-ethinylestradiol on biliary bile acids has been investigated. The ratio of cholate to chenodeoxycholate was diminished by the estrogen in cholestyramine-treated rats. With low doses, this effect was due to increased excretion of chenodeoxycholate. With the highest dose, the decreased ratio was due to a reduction in the levels of cholic acid. In the intermediate dosage range, both factors contributed to the decreased ratio. Prolonged treatment with 500 mug daily of 17alpha-ethinylestradiol produced a reduction in the excretory rate of both bile acids in animals treated or not treated with cholestyramine.     

Effect of antibiotics on excretion of various microbial metabolites with feces

Concentrations of volatile fatty acids, free amino acids, ammonia, protein, carbohydrates, carboxylic acids and some cations were determined in feces of intact animals (rats) chromatographically and spectroscopically. Oral administration of 8 chemotherapeutic drugs in the therapeutic doses to the animals resulted in changing excretion of the majority of the above compounds associated with vital activity of the large intestine microflora which depended on the drug type. Investigation of metabolic activity of normal microflora of the gastrointestinal tract is shown promising for estimation of intestinal microbial biocenosis.     

Effect of bile salts on the biliary excretion of glycodihydrofusidate in the rat

The biliary elimination of glycodihydrofusidate (GDHF), a structural analogue of bile salts, was studied in bile fistula rats. GDHF was excreted in bile with a maximal excretory rate (Tm = 0.80 mumol min-1 kg-1) which is much lower than bile salts Tm. The effects of dehydrocholate and taurocholate on GDHF biliary secretion suggest a stimulatory effect of bile salts on canalicular excretion of the drug. (a) When a bolus intravenous injection of 3 mumol of GDHF was followed after 2 min by a continuous dehydrocholate perfusion (10 mumol min-1 kg-1), biliary excretion of GDHF was increased in comparison with control rats. (b) Upon attaining the biliary Tm by continuous perfusion of GDHF at a rate of 1.35 mumol min-1 kg-1, infusion with either taurocholate or dehydrocholate increased its Tm to a similar degree. These results are similar to those previously obtained with the effects of bile salt infusions on the Tm of bromosulfophthalein. They suggest therefore that hepatic transport of GDHF and bile salts occurs by routes which are distinct for canalicular transport in spite of the striking structural similarities between GDHF and bile salts.     

Effect of elimination of visual afferentation on electrical activity of various brain structures

Changes in spontaneous brain electrical activity were studied in experiments on rabbits totally blinded by enucleation befor acquiring vision, and on rabbits with direct vision excluded. Total exclusion of vision causes a sharp decrease in amplitude of electrical potentials in the cortex and subcortex. Depression of activity is greatest in the visual cortex and adjacent regions. Deprivation of direct vision also leads to definite changes in the EEG. The most marked changes are produced by restoration of normal vision. The possible mechanisms of the manifestation of depression in the brain electrical activity of animals with blocked visual function are discussed.Institute of Physiology, Academy of Sciences of the Georgian SSR, Tbilisi. Translated from Neirofiziologiya, Vol. 5, No. 5, pp. 497–501, September–October, 1973.     

Transhepatic absorption and biliary excretion of insulin

The application of insulin to the liver in rats is followed by an increase of the insulin concentration in the bile. The pathway of insulin from the liver surface to the bile may include a secretory process by the hepatic cells, or it may bypass the hepatic cells, using direct anatomical pathways from blood and lymph to bile. The concentration of insulin in arterial and venous blood, in lymph, and in bile was measured following application of insulin to the liver surface and following peritoneal or intravenous administration. The results confirm that insulin is absorbed from the surface of the liver, but the glucose modulating effect was less effective than after intravenous administration. The insulin concentration in bile was increased after insulin administration by all routes, with the highest and most prolonged increases found after intraperitoneal administration. The results suggest that following transhepatic and intravenous administration, insulin reaches the bile without passing through the liver cells.     

Effect of 3-methylcholanthrene on the biliary excretion of bromsulphthalein and eosine in newborn rats.

The biliary excretion rates of bromsulphthalein (BSP), bromsulphthalein-glutathione conjugate (BSP-GSH) and eosine have been studied in 3-methylcholanthrene (3-MC)-pretreated (100 mg/kg i.p.) and control rats aged 10 days. Liver weight was invariably increased after 3-MC treatment, associated with enhanced biliary excretion of total BSP. The increase in the biliary excretion of total BSP was due solely to the increased excretion of BSP-GSH. Following 3-MC pretreatment, BSP-GSH and eosine appeared in the bile in the same amount as in the control rats after i.v. administration of BSP-GSH and eosine. Pretreatment with 3-MC increased the ratio of BSP-GSH to BSP in the liver and bile. Our results suggest that the increased biliary excretion of total BSP following 3-MC treatment was due to an enhanced conjugation of BSP with GSH.