L-Carnitine dissimilation in the gastrointestinal tract of the rat

Results of previous studies in this laboratory and others have suggested that L-carnitine is degraded in the gastrointestinal tract of the rat, perhaps by the action of indigenous flora. L-[methyl-14C]Carnitine was administered to rats either orally or intravenously in doses of 86 nmol or 124 mumol, and expired air, 48-h urine and fecal collections, and selected tissues at 48 h after isotope administration were examined for radiolabeled carnitine and metabolites. Urine and feces of rats receiving oral L-[methyl-14C]carnitine consistently contained two radiolabeled metabolites which were identified as trimethylamine N-oxide (primarily in urine) and gamma-butyrobetaine (primarily in feces). In these rats, these metabolites accounted for up to 23% and 31% of the administered dose, respectively. By contrast, for rats receiving intravenous L-[methyl-14C]carnitine or germ-free rats receiving the isotope orally or intravenously, virtually all of the radioactivity recovered was in the form of carnitine. Analyses for 14CO2 and [14C]trimethylamine in expired air revealed little or no (less than 0.1% of dose) conversion to these compounds, regardless of size of dose or route of administration. Results of this study demonstrate conclusively that L-carnitine is degraded in the gastrointestinal tract of the rat and that indigenous flora are responsible for these transformations.     

Metabolism of sialic acids from exogenously administered sialyllactose and mucin in mouse and rat

A mixture of N-acetyl-[4,5,6,7,8,9-14C]neuraminosyl-alpha (2-3(6]-galactosyl-beta (1-4-glucose[( 14C]sialyl-lactose) and N-acetylneuraminosyl-alpha (2-3(6]-galactosyl-beta(1-4)-glucit-1-[3H]ol(sialyl-[3H]lactitol) as well as porcine submandibular gland mucin labeled with N-acetyl- and N-glycoloyl-[9-(3)H]neuraminic acid were administered orally to mice. The distribution of the different isotopes was followed in blood, tissues and excretion products of the animals. One half of the [14C]sialyl-lactose/sialyl-[3H]lactitol mixture given orally was excreted unchanged in the urine. The other half was hydrolysed by sialidase and partly metabolized further, followed by the excretion of 30% of the 14C-radioactivity as free N-acetyl-[4,5,6,7,8,9-14C]neuraminic acid and 60% of this radioactivity in the form of non-anionic compounds including expired 14CO2 within 24 h. The 14C-radioactivity derived from the [14C]sialyl-lactose/sialyl-[3H]lactitol mixture which remained in the bodies of fasted mice after 24 h was less than 1%. In the case of well-fed mice, a higher amount of the sialic acid residues was metabolized. The bulk of radioactivity of the mucin was resorbed within 24 h. About 40% of the radioactivity administered was excreted by the urine within 48 h; 30% of this radioactivity represented sialic acid and 70% other anionic and non-anionic metabolic products. 60% of the radioactivity administered remained in the body, and bound 3H-labeled sialic acids were isolated from liver. Sialyl-alpha (2-3)-[3H]lactitol was injected intravenously into rats; the substance was rapidly excreted in the urine without decomposition. These studies show that part of the sialic acids bound to oligosaccharides and glycoproteins can be hydrolysed in intestine by sialidase and be resorbed. This is followed either by excretion as free sialic acid or by metabolization at variable degrees, which apparently depends on the compound fed and on the retention time in the digestive tract.     

The tissue distribution and the pattern of excretion of [14C]-13-labeled 12, 13-epoxytrichothec-9-ene in mice and rats

The distribution in the mouse tissues of 13-[14C]-12,13-epoxtrichothec-9-ene administered intravenously was determined by whole-body autoradiography and by tracing the radioactivity of the tissues oxidized in an Auto Sample Oxidizer. The appearance of the label in urine and feces was also followed by the tracer technique. The distributions of radioactivity in tissues as determined by the two methods were almost identical. On the autoradiograms of mice killed 10 min after the injection, marked blackening of the film was observed at the sites corresponding to the liver, kidney, and bladder with urine, and much less darkening at other sites. The radioactivities contained in the liver, kidney, urine and small intestine were 13.3, 2.3, 2.6 and 10.2% of the dose, respectively. The labeled toxin was rapidly excreted into urine and feces, 56.0 and 4.9% in 6 hr and 66.7 and 28.0% in 24 hr after injection, respectively. Oral administration of the labeled toxin to mother mice resulted in the appearance of radioactivity in the stomach contents of 7-day suckling mice, thus demonstrating indirectly the secretion of the toxin into the milk. An attempt to show a respiratory route of excretion in rats given the radioactive compound orally or intravenously failed to detect any radioactivity in the expired CO2 collected for 6 hr, suggesting that the 14C in the epoxy ring was intact.     

Reduction of 3 alpha-hydroxy-5 beta-chol-6-en-24-oic acid to lithocholic acid in rats

After [24-14C]delta 6-lithocholic acid was injected into the cecum of rats, [14C]lithocholic acid was identified as a metabolite in feces. When the labeled delta 6-bile acid was injected intraperitoneally into bile-fistula rats, radioactivity excreted in bile was contained most abundantly in the taurine-conjugated fraction of bile acids. In the fraction, taurine conjugate of [14C]delta 6-lithocholic acid but of neither [14C]lithocholic acid nor other bile acids was found. The results showed that [24-14C]delta 6-lithocholic acid was reduced to [14C]lithocholic acid by the intestinal flora but not by the liver, which, however, was capable of conjugating delta 6-lithocholic acid with taurine.     

Tracer mixing: sites of tracer infusion and sampling

Controversy exists in the literature concerning the correct infusion and sampling sites in studies measuring substrate turnover rates. To investigate this problem, we examined the results obtained with various infusion and sampling sites in 7 anesthetized dogs. [1-14C]lactate was infused by a primed continuous infusion method in three different sites (the left ventricle, ascending aorta, and the aortic arch) in a sequential fashion; samples were obtained simultaneously from five sites (femoral artery, carotid artery, pulmonary artery, superior vena cava and inferior vena cava) for each of the three different infusion sites. [U-13C]lactate was also infused in a femoral vein and simultaneous samples were obtained in the carotid artery and femoral artery for analysis of the stable isotope. [14C]lactate analysis demonstrated that infusion of the tracer into the left ventricular chamber resulted in a uniform distribution in the systemic circulation. Infusion into the ascending aorta near the aortic valve resulted in uniform distribution of tracer in four out of five experiments. Tracer infusion into the aortic arch resulted in nonuniform systemic distribution of tracer. The [U-13C]lactate results showed that infusion into the femoral vein gives uniform systemic distribution, similar to that observed with left ventricular infusion. The pulmonary artery lactate specific activities varied from those in the superior vena cava. Thus, this study shows that the tracer must be infused in the left ventricle or upstream from this chamber to obtain optimal systemic distribution. Vena caval sampling, especially superior vena caval sampling, will not give a consistent mixed venous concentration of the lactate tracer. Therefore, aortic tracer infusion with vena caval sampling may lead to errors in determining substrate turnover values.     

Radioactive uptake of [14C]histamine by certain tissues in guinea-pigs treated and untreated with chlorpromazine

1. Oral administration of [14C]histamine induced the presence of small amounts of [14C]histamine in stomach and ileal tissues of control guinea-pigs. In contrast, much larger amounts were found after 8 h infusion. 2. Similar amounts of [14C]histamine were found in the tissues when [14C]histamine was given by intravenous infusion from 24-30 h after chlorpromazine injection.     

Metabolism of 5-thio-D-glucopyranose and 6-thio-D-fructopyranose in rats.

5-Thio-α-d-[U-¹⁴C]glucopyranose and 6-thio-β-d-[U-¹⁴C]fructopyranose were administered orally and intravenously to rats. On intravenous administration of 5-thio-d-[U-¹⁴C]glucopyranose, 1% was oxidized to [¹⁴C]carbon dioxide, 93% was excreted in the urine, and 1.6% was retained in the carcass. On oral administration of 5-thio-d-[U-¹⁴C]glucopyranose, 1% was exhaled as [¹⁴C]carbon dioxide, 90% was excreted in feces and urine, and 4% was retained in the carcass after 72 h. On intravenous administration of 6-thio-β-d-[U-¹⁴C]fructopyranose, 56% was exhaled as [¹⁴C]carbon dioxide, 23% was excreted in the urine, and 7.5% was retained in the carcass; after oral administration, 35% was oxidized to [¹⁴C]carbon dioxide, 50% was excreted in feces and urine, and 6% was retained in the animal after 72 h.On intravenous administration of 5-thio-d-glucose to fasted male rats, blood d-glucose levels increased at lower doses than on oral administration. A dose of 50 mg/kg raised blood d-glucose to 226 mg/100 ml within 2.5 h after intravenous but only to 173 mg/100 ml within 2 h after oral administration from basal level of 70–90 mg/100 ml. Blood d-glucose concentration returned to normal levels within 9 h in both cases. 6-Thio-d-fructopyranose showed no diabetogenic action. The LD₅₀ of 6-thio-d-fructopyranose was 11,200 mg/kg when tested in mice.     

Stimulation of dieldrin elimination by a thiouracil derivative and DDT in the rat: Enhancement of dieldrin oxidative metabolism?

Oral treatment of rats with either DDT or 1-benzyl-2-thio-5,6-dihydrouracil (BTDU) enhanced the elimination of intraperitoneally administered [¹⁴C]dieldrin. Both DDT and BTDU caused a severalfold increase in the urinary elimination of [¹⁴C]dieldrin. The increase in [¹⁴C]dieldrin elimination in the feces was less pronounced.     

Role of intestinal microbiota in transformation of bismuth and other metals and metalloids into volatile methyl and hydride derivatives in humans and mice

The present study shows that feces samples of 14 human volunteers and isolated gut segments of mice (small intestine, cecum, and large intestine) are able to transform metals and metalloids into volatile derivatives ex situ during anaerobic incubation at 37 degrees C and neutral pH. Human feces and the gut of mice exhibit highly productive mechanisms for the formation of the toxic volatile derivative trimethylbismuth [(CH(3))(3)Bi] at rather low concentrations of bismuth (0.2 to 1 mumol kg(-1) [dry weight]). An increase of bismuth up to 2 to 14 mmol kg(-1) (dry weight) upon a single (human volunteers) or continuous (mouse study) administration of colloidal bismuth subcitrate resulted in an average increase of the derivatization rate from approximately 4 pmol h(-1) kg(-1) (dry weight) to 2,100 pmol h(-1) kg(-1) (dry weight) in human feces samples and from approximately 5 pmol h(-1) kg(-1) (dry weight) to 120 pmol h(-1) kg(-1) (dry weight) in mouse gut samples, respectively. The upshift of the bismuth content also led to an increase of derivatives of other elements (such as arsenic, antimony, and lead in human feces or tellurium and lead in the murine large intestine). The assumption that the gut microbiota plays a dominant role for these transformation processes, as indicated by the production of volatile derivatives of various elements in feces samples, is supported by the observation that the gut segments of germfree mice are unable to transform administered bismuth to (CH(3))(3)Bi.     

Impaired formylation and uptake of tetrahydrofolate by rat small gut following cobalamin inactivation

The effect of inactivation of cobalamin by N2O on the intestinal absorption of folate was studied using rat everted gut sacs. Further, in view of uncertainties about the presence of methionine synthetase in gut [1], this enzyme was measured. Everted gut sacs were incubated with [2-14C]tetrahydrofolate, and the subsequent appearance of labelled formyl- and methyl [14C] tetrahydrofolate in everted segments of small intestine of rats was studied. Considerable methionine synthetase activity was present in washed everted gut sacs but not in gut segments in the absence of such treatment. Methionine synthetase activity declined after exposure to N2O, which oxidizes and inactivates cob(I)alamin. Folate uptake by gut sacs was not affected by 24 h exposure of the animals to N2O but fell significantly after 7 days exposure. There was a significant fall in the amount of formyltetrahydrofolate formed after cobalamin inactivation and this was reversed by supplying either methionine, methylthioadenosine or sodium formate. Serine had no effect. The data support the hypothesis that methionine and methylthioadenosine act by supplying single carbon units at the formate level of oxidation.     

Inhibition of BC3H-1 cell growth by heparin is related to decreased mitogenic signalling

We examined the effect of heparin and heparin fragments on BC3H-1 muscle cell proliferation. Heparin significantly inhibited BC3H-1 cell growth and this inhibitory effect was related to the ability of heparin to bind to cell surface; low molecular weight heparins were poorly efficient in binding and inhibiting proliferation. Analysis by gel filtration of heparin bound to cell surface showed selective binding of the high molecular weight fraction. Heparin inhibited serum-stimulated incorporation of [3H]thymidine; this effect, however, was only evident when heparin was administered concomitantly with serum. Similarly, heparin inhibited serum-induced inositol lipid turnover only when present with serum. Heparin fragments unable to inhibit cell growth did not affect the metabolism of inositol lipids. Taken together these data suggest that heparin inhibits cell growth by interfering with growth factor-mediated mitogenic signalling.     

Glucosamine metabolism in regenerating rat liver.

1. Glycoprotein synthesis was investigated with [1-14C]glucosamine in vivo. [14C]Glucosamine was administered intravenously 24h after hepatectomy to rats. 2. Incorporation into the acid-soluble fraction was maximum at 15 min after injection both in sham-operated and hepatectomized rats. 3. Enhancement of incorporation into UDP-N-acetylhexosamine in regenerating liver was observed. However, its specific activity was lower, because of a greater enhancement of synthesis de novo of the amino sugar. 4. In the liver acid-insoluble fraction, maximum incorporation of [14C]glucosamine was at 30 min in sham-operated rats and 2 h in hepatectomized rats respectively. 5. In sham-operated rats, incorporation into the plasma acid-insoluble fraction followed that of the liver acid-insoluble fraction, but hepatectomy resulted in a rapid enchancement of incorporation into plasma. 6. It is concluded that synthesis of liver glycoproteins is stimulated after partial hepatectomy and that glycoproteins synthesized are released rapidly into the plasma.     

Synthesis, intestinal absorption and metabolism of sarcosine conjugated ursodeoxycholic acid

Sarcosine conjugated ursodeoxycholic acid (SUDC) was synthesized and its intestinal absorption and metabolism were studied in rat and hamster. Intestinal absorption study using bile fistula rat shows that more than 90% of SUDC administered intraduodenally was excreted in the bile within 24 hr. No change of the administered bile acid was seen during the absorption from the intestine, the passage of the liver, and the excretion into the bile. When [24-14C]SUDC and [11,12-3H2]-ursodeoxycholic acid were administered orally to a hamster, more than 95% of both the administered 14C and 3H were recovered from the feces within 6 days. Most (77%) of the fecal 14C-labeled compound was SUDC, whereas 95% of the fecal 3H-labeled compound was unconjugated lithocholic acid. These results indicate that SUDC, unlike taurine or glycine conjugated bile acid, resists bacterial deconjugation and 7-dehydroxylation.     

Imparied formylation and uptake of tetrahydrofolate by rat small gut following cobalamin inactivation

The effect of inactivation of cobalamin by N₂O in the intestinal absorption of folate was studied using rat everted gut sacs. Further, in view of uncertainties about the presence of methionine synthetase in gut [1], this enzyme was measured. Everted gut sacs were incubated with [2-¹⁴C]tetrahydrofolate, and the subsequent appearance of labelled formyl- and methyl[¹⁴C]tetrahydrofolate in everted segments of small intestine of rats was studied. Considerable methionine synthetase activity was present in washed everted gut sacs but not in gut segments in the absence of such treatment. Methionine synthetase activity declined after exposure to N₂O, which oxidizes and inactivates cob(I)alamin. Folate uptake by gut sacs was not affected by 24 h exposure of the animals to N₂O but fell significantly after 7 days exposure. There was a significant fall in the amount of formlytetrahydrofolate formed after cobalamin inactivation and this was reversed by supplying either methionine, methylthioadenosine or sodium formate. Serine had no effect. The data support the hypothesis that methionine and methylthioadenosine act by supplying single carbon units at the formate level of oxidation.     

Identification of S-(2,5-dihydroxyphenyl)-cysteine and S-(2,5-dihydroxyphenyl)-N-acetyl-cysteine as urinary metabolites of acetaminophen in the mouse. Evidence for p-benzoquinone as a reactive intermediate in acetaminophen metabolism

S-(2,5-Dihydroxyphenyl)-cysteine and S-(2,5-dihydroxyphenyl)-N-acetyl-cysteine [the cysteine- and N-acetyl-cysteine adducts, respectively, of hydroquinone (HQ)] were identified and quantified in the urine of mice administered [ring-U-14C]acetaminophen [14C]APAP, 200 mg kg-1, i.p.). Urine was collected for 24 h and fractionated by HPLC to isolate the above adducts. These conjugates were then converted to a common derivative, viz. O,O',S-tris-acetyl-3-thio-hydroquinone, which was characterized by GC/MS. Neither of the HQ adducts was detected in the urine of control mice which had not received APAP. Quantification of urinary HQ-cysteine and HQ-N-acetyl-cysteine was performed by HPLC techniques, which indicated that these conjugates accounted for approx. 1.5% of the administered dose of APAP after 24 h, a figure which is equivalent to 6.3% of the corresponding APAP-thiol conjugates in the urine. These findings provide strong indirect evidence that p-benzoquinone is formed as a reactive, but apparently non-hepatotoxic, metabolite of APAP in vivo.     

Metabolism of 3-deoxyglucosone,an intermediate compound in the Maillard reaction,administered orally or intravenously to rats

Tha Amadori rearrangement compound, the product in the early step of the Maillard reaction of proteins with glucose, is known to be degraded into 3-deoxyglucosone (3DG), a 2-oxoaldehyde. In order to elucidate the metabolic pathway of 3DG, [¹⁴C]3DG was synthesized from [¹⁴C]-glucose and administered to rats orally and intravenously. 2 h after oral administration of [¹⁴C]3DG, the percentages of radioactivity (RaI%) in stomach, small intestine and urine were 3.9, 60 and 6.4%, respectively, while RaI% in liver, kidney, spleen, blood and CO₂ were less than 0.5%. The absorption rate of 3DG was obviously lower in comparison with that of glucose. 3 h after intravenous administration of [¹⁴C]3DG, the RaI% in urine was 72% and those in liver, kidney, spleen, blood and CO₂ were less than 1%. It therefore appeared that the absorbed 3DG was not biologically utilized by the rats, but was rapidly excreted in the urine. Some metabolites of [¹⁴C]3DG were detected in urine by TLC-autoradiography. The main metabolite was purified and identified as 3-deoxyfructose by FD-MS and ¹³C-NMR spectroscopy, indicating that the aldehyde group of 3DG was reduced to an alcohol.     

Effects of isolation and culture on prostaglandin synthesis by porcine aortic endothelial and smooth muscle cells

Freshly isolated neonatal porcine aortic tissue (smooth muscle with or without endothelium present) produced approximately 30 ng/mg wet tissue of 6-oxo-prostaglandin F1 alpha (the stable hydrolysis product from prostacyclin) and approximately 15 ng/mg of prostaglandin E2, as measured by radioimmunoassay after 24 h incubation in culture medium. Primary cultures of porcine endothelial and smooth muscle cells (isolated by enzymic digestion of aortic tissue) exhibited the same pattern of prostaglandin production, but absolute values were greater than for fresh tissue, particularly in the case of endothelium. Subcultures of endothelium produced smaller amounts of prostaglandins, although the pattern remained similar. In contrast, subcultures of smooth muscle cells produced a greater total amount of prostaglandins than did primary cultures, and the main product was prostaglandin E2. Experiments with [14C] prostaglandin H2 or [14C]arachidonic acid confirmed that aortic tissue, cultured endothelium, and primary cultures or aortic smooth muscle cells synthesized prostacyclin, and demonstrated that subcultured smooth muscle cells enzymically isomerised prostaglandin H2 to prostaglandin E2. Kinetic studies showed that prostaglandin production by cultured vascular cells was transiently increased by subculture or changing the growth medium, and that production per cell declined with increasing cell density. The change in pattern of prostaglandin production during culture was shown to be due to a rapid decline in the rate of prostacyclin production (which apparently began immediately after tissue isolation), together with a more gradual rise in prostaglandin E2 production. These results indicate that the amounts and ratios of prostaglandins produced by vascular endothelial and smooth muscle cells are greatly affected by the conditions used to isolate and culture the cells; vascular cells in vivo may similarly alter their pattern of prostaglandin production in response to local changes in their environment.     

Action de la flore microbienne du tractus digestif sur la biosynthese de l'acide cholique chez le rat

Axenic and holoxenic (conventional) rats were fed a diet containing trace amounts of [2,4-³H]cholic and [24-¹⁴C]chenodeoxycholic acids. In the feces of both groups of rats, the percentage of labelled bile acids which were ³H-labelled was slightly different. In the experimental conditions used, the intestinal microflora only slightly modified the synthesis of 12α-hydroxylated bile acids.     

Comparative in vivo and in vitro study of the influence of experimental diabetes on rat liver linoleic acid delta 6- and delta 5-desaturation

Rats with experimental diabetes were administered in vivo a tracer dose of either [1-14C]-linoleic, [1-14C]-gamma-linolenic or [2-14C]-dihomo-gamma-linolenic acid and sacrificed 48 h later. With all three radioactive precursors, the radioactivity incorporated into arachidonic acid was lower in experimental diabetes, compared to nondiabetic rats similarly treated, while the weights of hepatic arachidonic acid were not significantly affected by the diabetic state. Streptozotocin-treated rats were administered moderate or excessive quantities of protamine-zinc-insulin. Streptozotocin diabetes inhibits rat liver homogenate [2-14C]-dihomo-gamma-linolenic acid delta 5-desaturation; only moderate injections of protamine-zinc-insulin restore the in vitro delta 5-desaturation. These results suggest that experimental diabetes, a reported inhibitor of delta 6-desaturation, also causes partial inhibition of delta 5-desaturation in rat liver; this suggests that dihomo-gamma-linolenic acid desaturation, a secondary regulatory step in linoleic acid metabolism, may be restored through an optimum insulin therapy.     

Liver and kidney cortex gluconeogenesis from L-alanine in fed and starved rats

Circulating [14C]glucose 2, 5 and 10 min after intravenous injection of [U-14C]-L-alanine was greater in 24 hr starved than in fed rats. In vitro uptake of [14C]alanine by liver and kidney cortex slices from 24 hr starved and fed rats rose in parallel with increased medium substrate concentration. Formation of [14C]glucose from 1mM [14C]alanine was similar in liver and kidney cortex slices and increased in tissues from 24 hr starved compared with fed rats. With 5 mM [14C]alanine more [14C]glucose was produced by liver than by kidney cortex slices from 24 hr starved rats. Liver slices always produced more [14C]lactate and less [14C]-CO2 from [14C]alanine than kidney cortex slices. It is proposed that under physiological conditions, the kidneys cortex actively participates in glucose production from alanine.