Inhibitory effect of salicylate on 2,4-dinitrophenol and diethyl maleate in isolated rat intestinal epithelial cells

Studies on the mechanism of chemically induced intestinal epithelial injury were carried out using isolated, rat small intestinal epithelial cells. Compounds such as 2,4-dinitrophenol (DNP) and diethyl maleate (DEM), caused NADH loss, an increase in cytosolic Ca2+ concentration and protein thiol loss. Further, these compounds accelerated cell aggregation and decreased cell viability. Calmodulin antagonists inhibited protein thiol loss induced by either of the compound, inhibited cell aggregation and prolonged cell viability, but did not influence NADH loss. It has been reported that the calmodulin-binding protein may regulate cytoskeletal activity. Therefore, the inhibition of protein thiol loss by calmodulin antagonist may be due to a dissociation of calmodulin-binding proteins from cytoskeletal elements. Salicylate also inhibited protein thiol loss induced by DNP and DEM, and inhibited cell aggregation. However, salicylate may have a direct effect in reducing the cytosolic free Ca2+ concentration by complexation and subsequent facilitated release of Ca2+ from cells. Further, in the present study, the induction of cell aggregation may be caused by the appearance of specific sites on the cell membrane surface to which arsenazo III could adsorb, since adsorption of arsenazo III to the isolated epithelial cells seemed to correlate with increased cell aggregation.     

Effects of sodium salicylate on epithelial cells of the rectal mucosa of the rat: A light and electron microscopic study

Using a ligation method, rat rectal epithelium was exposed to 2% sodium salicylate, and light and electron microscopic methods were used to assay for: 1) permeability of the epithelium to a marker dye, trypan blue, and 2) damage expressed in terms of disruption of the epithelial surface. Rectal mucosa was exposed to salicylate at pH 4.8, 7.0, and 9.0, and the effects of pretreatment with phlorizin were also studied. Results indicated that 2% sodium salicylate does very little damage to rectal epithelial cells at pH 7.0 while enhancing their permiability to trypan blue, an effect that is reversed upon washing out the sodium salicylate. The major cellular change induced by salicylate was a reduction in the length or distribution of glycocalyx filaments on microvilli of epithelial cells. It was also noted that pretreatment with phlorizin counteracted some of the effects of salicylate treatment.     

Chylomicron apoprotein localization within rat intestinal epithelium: studies of normal and impaired lipid absorption.

Monospecific antisera were produced to two chylomicron apoproteins (apoB, apoA-I) and utilized for indirect immunofluorescent localization of these apoproteins within rat intestinal epithelium during normal and impaired lipid absorption. Isolated intestinal epithelial cells prepared after different periods of lipid absorption from in situ intestinal segments revealed a rapid increase in fluorescence for both apoproteins that filled the entire apical portion of the cell. Prolonged lipid absorption for as long as 5 hr demonstrated sustained immunofluorescence and gave no indication of a depletion of the intestinal mucosa for either apoprotein during normal lipid absorption. [(3)H]Leucine incorporation into mesenteric lymph chylomicron apoproteins showed a linear decrease in specific activity of total chylomicron protein as well as apoB over 4 hr of a continuous lipid infusion indicating sustained active apoprotein synthesis during prolonged lipid absorption. Acetoxycloheximide, a potent inhibitor of protein synthesis, was employed to determine the dynamics of chylomicron apoproteins during an experimental condition of impaired lipid absorption. In animals with inhibited protein synthesis, fluorescence for both apoproteins was present early in the course of lipid absorption; however, at 60 min after the onset of lipid absorption, fluorescence for both apoproteins was absent. Fluorescence for both apoproteins returned during the recovery of protein synthesis. The present studies have confirmed previous results that localized two chylomicron apoproteins within intestinal epithelial cells. The present studies extend these observations and disclose a rapid and sustained synthesis of these apoproteins during prolonged chylomicron formation. During an experimental condition of impaired protein synthesis there was a marked reduction in the mucosal content of both apoA-I and apoB. These results are the first demonstration of impaired mucosal apoprotein synthesis during an experimental model of impaired lipid absorption.     

Determination of salicylate,gentisic acid and salicyluric acid in human urine by capillary electrophoresis with laser-induced fluorescence detection

Acetylsalicylic acid (Aspirin) is rapidly metabolized to salicylic acid (salicylate) and other compounds, including gentisic acid and salicyluric acid. Monitoring of salicylate and its metabolites is of toxicological, pharmacological and biomedical interest. Three capillary electrophoresis (CE) methods featuring alkaline aqueous buffers, laser-induced fluorescence (LIF) detection and no solute extraction or derivatization have been explored. A competitive binding, electrokinetic capillary-based immunoassay is developed that recognizes the presence of salicylate and gentisic acid in urine. Differentiation of the two compounds, however, is problematic. With appropriate ultraviolet excitation, many salicylate-related compounds are fluorescent so that CE with direct urine injection and LIF detection permits the determination of salicylate, gentisic acid and salicyluric acid. Using a HeCd laser with 325 nm produces interference-free monitoring of all three compounds. Using 257 nm excitation from a frequency doubled Ar ion laser, native fluorescence of an endogenous urinary compound that co-migrates with gentisic acid is observed. With wavelength-resolved fluorescence detection, however, the two substances are distinguished. Furthermore, this technique, with comparison to literature data, permits the putative assignment of several peaks to other salicylate metabolites, namely glucuronide conjugates of salicylate and salicyluric acid. All three CE-LIF techniques have been applied to toxicological patient urines and urines collected after ingestion of 500 mg acetylsalicylic acid. CE results compare favorably with those obtained by a commercial fluorescence polarization immunoassay and by a conventional photometric assay.     

Unexpected suppression of free phenytoin concentration by salicylate in uremic sera due to the presence of inhibitors: MALDI mass spectrometric determination of molecular weight range of inhibitors

Salicylate displaces phenytoin from protein binding leading to an increase in free phenytoin concentration. We observed unexpected decreases in free phenytoin concentration in the presence of salicylate. Serum pools containing no phenytoin or salicylate were supplemented with the same concentrations of phenytoin. Then to the aliquots of the individual pool, no salicylate (control), 150, 300 and 500 microg/ml of salicylate (therapeutic range: 15-300 microg/ml) were added. Specimens were incubated at 37 degrees C for 2 h and after re-equilibration at room temperature for 20 min, total and free phenytoin (in the protein free ultrafiltrates) concentrations were measured using fluorescence polarization immunoassay on the TDx/FLX analyzer. We observed an increase in free phenytoin concentration from 1.91 microg/ml (in the absence of salicylate) to 2.39 microg/ml in the presence of 500 microg/ml salicylate (total phenytoin: 13.3 microg/ml) in the normal pool. In sharp contrast, the free phenytoin concentrations decreased from an initial concentration of 3.82 microg/ml to 2.52 microg/ml in the presence of 500 microg/ml of salicylate (total phenytoin: 13.2 microg/ml) in the uremic pool. We also treated the uremic pool with activated charcoal. In the original uremic pool, the initial free phenytoin concentration was 3.05 microg/ml and the free concentrations then decreased to 2.28 microg/ml in the presence of 300 microg/ml of salicylate. In contrast, in the charcoal treated pool, the initial free phenytoin concentration increased from 1.61 microg/ml to 3.23 microg/ml in the presence of 300 microg/ml of salicylate. More interestingly when uremic toxins were extracted back from charcoal with methanol and the dry residue was added to an aliquot of normal serum, the normal serum behaved like a uremic serum and free phenytoin concentration was significantly decreased in the presence of salicylate. When an aliquot of methanol extract was studied by Matrix-Assisted Laser Desorption Ionization Mass Spectrometry (scan up to 10,000), we observed no peak at molecular weight over 551, indicating that these inhibitors are small molecules. We also identified hippuric acid as one of the inhibitors.     

Molecular dynamics simulations of salicylate effects on the micro- and mesoscopic properties of a dipalmitoylphosphatidylcholine bilayer

Salicylate, an amphiphilic molecule and a popular member of the nonsteroidal anti-inflammatory drug family, is known to affect hearing through reduction of the electromechanical coupling in the outer hair cells of the ear. This reduction of electromotility by salicylate has been widely studied, but the molecular mechanism of the phenomenon is still unknown. In this study, we investigated one aspect of salicylate's action, namely the perturbation of electrical and mechanical membrane properties by salicylate in the absence of cytoskeletal or membrane-bound motor proteins such as prestin. In particular, we simulated the interaction of salicylate with a dipalmitoylphosphatidylcholine (DPPC) bilayer via atomically detailed molecular dynamics simulations to observe the effect of salicylate on the microscopic and mesoscopic properties of the bilayer. The results demonstrate that salicylate interacts with the bilayer by associating at the water-DPPC interface in a nearly perpendicular orientation and penetrating more deeply into the bilayer than either sodium or chloride. This association has several affects on the membrane properties. First, binding of salicylate to the membrane displaces chloride from the bilayer-water interface. Second, salicylate influences the electrostatic potential and dielectric properties of the bilayer, with significant changes at the water-lipid bilayer interface. Third, salicylate association results in structural changes, including decreased headgroup area per lipid and increased lipid tail order. However, salicylate does not significantly alter the mechanical properties of the DPPC bilayer; bulk compressibility, area compressibility, and bending modulus were only perturbed by small, statistically insignificant amounts by the presence of salicylate. The observations from these simulations are in qualitative agreement with experimental data and support the conclusion that salicylate influences the electrical but not the mechanical properties of DPPC membranes.     

Differentiation-dependent induction of CYP1A1 in cultured rat small intestinal epithelial cells,colonocytes, and human colon carcinoma cells: basement membrane-mediated apoptosis

Rat small intestinal epithelial cells and human colon adenocarcinoma cells cultured on Matrigel expressed the differentiation specific enzyme, sucrase-isomaltase, as determined by indirect immunofluorescence. Rat small intestinal epithelial cells, rat colonocytes, and human colon adenocarcinoma cells developed an altered morphology when cultured on Matrigel and became apoptotic within 24-48 h. Benzo[a]pyrene and 2,3,7,8-tetrachlorodibenzo-p-dioxin caused a 2- and 5-fold induction, respectively, of ethoxyresorufin-o-deethylase activity in rat small intestinal epithelial cells cultured on Matrigel. Benzo[a]pyrene- or 2,3,7,8-tetrachlorodibenzo-p-dioxin-induced ethoxyresorufin-o-deethylase activity in rat small intestinal epithelial cells cultured on plastic was not detected. 2,3,7,8-tetrachlorodibenzo-p-dioxin treatment caused a 14-fold induction of transfected, rat CYP1A1-promoter-luciferase activity in rat small intestinal epithelial cells cultured on Matrigel. Benzo[a]pyrene and 2,3,7,8-tetrachlorodibenzo-p-dioxin treatment induced ethoxyresorufin-o-deethylase activity by 6- and 1.6-fold, respectively in rat colonocytes cultured on Matrigel. Induction of ethoxyresorufin-o-deethylase activity was not observed in rat colonocytes cultured on plastic. CYP1A1-promoter-luciferase activity was induced 3-fold by 2,3,7,8-tetrachlorodibenzo-p-dioxin in rat colonocytes cultured on Matrigel. Induction of CYP1A1-promoter-luciferase activity in rat small intestinal epithelial cells or rat colonocytes cultured on plastic was not observed. Ethoxyresorufin-o-deethylase activity in human colon adenocarcinoma cells, cultured on either plastic or Matrigel, was induced 7-fold by benzo[a]pyrene. 2,3,7,8-Tetrachlorodibenzo-p-dioxin-induced ethoxyresorufin-o-deethylase activity was 2-fold greater in human colon adenocarcinoma cells cultured on Matrigel compared to cells cultured on plastic. Extracellular matrix-mediated differentiation and apoptosis of intestinal cells provide in vitro systems for study of the regulation of CYP1A1 expression, carcinogen activation in the gut and mechanism(s) of apoptosis of colon cancer cells.     

Sodium ion transport in isolated intestinal epithelial cells. The effect of actively transported sugars on sodium ion efflux

A technique to measure Na⁺ efflux from isolated intestinal epithelial cells has permitted us to examine the mechanisms responsible for Na⁺ transport in absorptive cells without contamination by other cell types. We examined the effect of actively transported sugars on Na⁺ efflux from isolated rat jejunal epithelial cells to evaluate the mechanism by which actively transported non-electrolytes stimulate Na⁺ absorption. Glucose, galactose and 3-O-methylglucose, sugars known to be actively transported by the small intestine, stimulate total Na⁺ efflux from isolated epithelial cells. This stimulation results from an increase of active Na⁺ transport, since it is inhibited by ouabain. Glucose stimulation is significantly greater than that produced by galactose or 3-O-methylglucose, 2-Deoxyglucose, a sugar that is not actively transported, has no effect on total Na⁺ efflux from isolated cells. Phloridzin, which has no effect on Na⁺ efflux in a sugar-free medium, completely abolishes the effect of galactose. These findings (a) support the hypothesis that the increase in intestinal absorption of Na⁺ in the presence of actively transported non-electrolytes occurs by a transcellular route; and (b) are consistent with the ion-gradient model. The results are not compatible with the direct energy-coupling model.     

Dilantin and salicylate effects on hepatic thyroxine bio-availability and dialyzable thyroxine

Earlier studies have shown that drugs such as dilantin inhibit T4 binding by thyroid hormone binding globulin (TBG) and cause a displacement of T4 from TBG to prealbumin with no change in the albumin-bound T4 fraction. Since recent studies have shown albumin-bound T4 is freely transported into liver, the present studies are designed to investigate drug effects on T4 transport in liver. The effect of salicylate and diphenylhydantoin (Dilantin) on T4 in human serum were examined both in vitro by using equilibrium dialysis and in vivo in the rat liver by using a tissue sampling single injection technique. Serum was obtained from 6 healthy normal volunteers and was made either 0 or 0.5 mM Dilantin and either 0 or 10 mM sodium salicylate. The portal vein injection vehicle contained 125I-T4/3H-water (highly diffusible internal reference) mixed with either a) Ringer's (0.1 g/dl albumin), b) 5% T4 antiserum, or c) 80% human serum. The free dialyzable fraction in vitro was raised by 40 and 125% after the addition of Dilantin and salicylate respectively. However, the percent of total T4 that was transported into liver on one pass, 17 +/- 1%, was not different in the control, the salicylate treated, or the Dilantin-treated sera. Therefore, in contrast to the in vitro dialyzable measurement of free T4, which is elevated by toxic concentrations of Dilantin or salicylate, the bio-available fraction of T4 as determined by the single pass perfusion technique, is unchanged in rat liver in vivo. These drug-induced changes in free T4 in vitro and bio-available T4 in vivo are similar to the ones reported previously in non-thyroidal illness.     

Electron microscopic research on the mechanism of intestinal secretion

Electron microscopic investigation of the rat small intestine revealed a great number of vesicles 50-75 nm in diameter with enterocyte microvilli. The number of vesicles increased with the increase of digestive activity in the small intestine. Vesicles were formed by gemmation of enterocyte microvilli from the lateral membrane in contraction of microvillous actin skeleton. Simultaneously with the production of exocytotic vesicles, the formation of pinocytotic vesicles in the base of microvilli was observed. There is a supposition that the vesicle gemmation is a natural process of the intestinal secretion to fulfil numerous important function: it promotes the penetration of enterocyte hydrolases into the parietal layer; equilibrates an increase in the enterocyte volume during absorption. This is a possible way of translocation of synthesized enzymes into the cytoplasm and of transport proteins on the apical surface of epithelial cells.     

Measuring orientation of actin filaments within a cell: orientation of actin in intestinal microvilli.

Orientational distribution of actin filaments within a cell is an important determinant of cellular shape and motility. To map this distribution we developed a method of measuring local orientation of actin filaments. In this method actin filaments within cells are labeled with fluorescent phalloidin and are viewed at high magnification in a fluorescent microscope. Emitted fluorescence is split by a birefringent crystal giving rise to two images created by light rays polarized orthogonally with respect to each other. The two images are recorded by a high-sensitivity video camera, and polarization of fluorescence at any point is calculated from the relative intensity of both images at this point. From the value of polarization, the orientation of the absorption dipole of the dye, and thus orientation of F-actin, can be calculated. To illustrate the utility of the method, we measured orientation of actin cores in microvilli of chicken intestinal epithelial cells. F-actin in microvillar cores was labeled with rhodamine-phalloidin; measurements showed that the orientation was the same when microvillus formed a part of a brush border and when it was separated from it suggesting that "shaving" of brush borders did not distort microvillar structure. In the absence of nucleotide, polarization of fluorescence of actin cores in isolated microvilli was best fitted by assuming that a majority of fluorophores were arranged with a perfect helical symmetry along the axis of microvillus and that the absorption dipoles of fluorophores were inclined at 52 degrees with respect to the axis. When ATP was added, the shape of isolated microvilli did not change but polarization of fluorescence decreased, indicating statistically significant increase in disorder and a change of average angle to 54 degrees. We argue that these changes were due to mechanochemical interactions between actin and myosin-I.     

Effects of salicylate on insulin and glucagon secretion by the isolated and perfused rat pancreas

The effects of sodium salicylate, a prostaglandin synthesis inhibitor, on glucose-induced secretion of insulin and glucagon by the isolated perfused rat pancreas have been studied. Sodium salicylate inhibited both basal (2.8 mM glucose) and stimulated (16.7 mM glucose) insulin release in a dose dependent manner (1, 5 and 10 mM). This inhibition is not interpretable in terms of a simple inhibition of cyclooxygenase by sodium salicylate. Basal glucagon release was not changed by 1 mM sodium salicylate but the latter partially blocked its inhibition by 16.7 mM glucose. Higher doses of sodium salicylate (5 and 10 mM) inhibited basal glucagon secretion without affecting its response to 16.7 mM glucose. These findings suggest a predominant stimulatory action of endogenous prostaglandins on glucagon release.     

The effects of salicylate on the activity of rat liver tryptophan pyrrolase in vitro and in vivo

1. Salicylate, in concentrations of 0.05mm and above, inhibits the basal activity of tryptophan pyrrolase in homogenates of rat liver and the activity induced by cortisol but not that induced by tryptophan. The inhibition is abolished by adding haematin to the reaction mixtures. 2. The intraperitoneal injection of 400mg of sodium salicylate/kg in the rat causes a decrease in the tryptophan pyrrolase activity in the liver at 30min, the activity is restored to normal at 2h, increases to sixfold after 5h and returns to the basal value at 12h. The activation of the enzyme by salicylate is prevented by the administration of cycloheximide but not by pretreatment with actinomycin D. The effects of the combined injection of salicylate and cortisol are additive, whereas those of salicylate plus tryptophan are not. The injection of salicylate causes a progressive increase in the holo-/apo-enzyme ratio and an increased content of tryptophan in the liver over a period of 3h. 3. It is suggested that salicylate inhibits tryptophan pyrrolase activity in vitro and in vivo by interacting with iron protoporphyrins and causes a later enhancement of the enzyme activity in vivo by a mechanism involving the release of tryptophan from its binding sites on circulating albumin and on other proteins.     

Embryonal disposition of salicylate: in vivo-in vitro comparisons

The distribution of salicylate to embryonal compartments for in situ and in vitro rat embryos under equivalent exposure conditions, and salicylate disposition in the in vivo mid-gestation embryo and late gestation fetus, were compared. Pregnant Sprague-Dawley CD rats were exposed to steady-state blood levels of salicylate by infusing 14C-salicylic acid iv for a 24 hour period from gestation day 11.5 to 12.5. Cultured Sprague-Dawley rat embryos (in medium consisting of 100% male rat serum) were exposed to the steady-state 14C-salicylate concentration achieved in maternal serum in vivo for the same 24 hour developmental period. At the end of the exposure period radioactivity in visceral yolk sac, extra-embryonic fluid and embryos, and in maternal tissues, was measured. The distribution of salicylate to embryonal tissues was statistically comparable in vivo and in vitro, although the embryos in vitro accumulated slightly (but not significantly) less of the chemical. There was considerable binding of salicylate by maternal serum and culture medium proteins: less than 20% of the chemical was free at the 40 micrograms/ml concentration used in this experiment. Consequently, the salicylate concentration in embryonal compartments appeared to be quite low when compared to the surrounding serum/medium, but was actually equal to or greater than the concentration of unbound salicylate in serum or culture medium. The proportion of free salicylate in serum increased at concentrations higher than 40 micrograms/ml, resulting in somewhat higher concentrations of salicylate in in vitro embryos and extraembryonic fluid (as compared to medium) when cultured in the presence of 200 or 400 micrograms/ml salicylate.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cholesterol modulation of membrane fluidity and VIP receptor/effector system in rat prostatic epithelial cells.

Treatment of rat prostatic epithelial cells with cholesteryl hemisuccinate (ChH) resulted in a time- and dose-dependent inhibition of the stimulatory effect of the neuropeptide vasoactive intestinal peptide (VIP) on cyclic AMP accumulation, with a 40% decrease in the response to a maximally effective VIP concentration. Cell treatment with ChH led also to a similar blocking of isoproterenol (a beta-adrenergic agonist) action but did not modify forskolin (which is assumed to act directly on the catalytic unit of adenylate cyclase) activity upon cyclic AMP levels. The levels of the transduction protein Gs were similar in membranes from both control and ChH-treated cells as suggested by experiments on cholera toxin-catalyzed ADP-ribosylation. The inhibitory effect of ChH was accompanied by an increase of membrane microviscosity as estimated by measurements of fluorescence polarization. Experiments on VIP binding indicated that increasing cholesterol concentration in the plasma membrane led to a higher VIP binding capacity without changes in the affinity of VIP receptors. These data suggest that membrane cholesterol incorporation diminishes the coupling efficiency between adenylate cyclase and the VIP-receptor complex or other receptor systems (i.e., desensitization) due to an increase of plasma membrane rigidity.     

Immunocytochemical localization of vasopressin at its absorption by cells of rat small intestine

Morpho-physiological characteristics of the transport of cyclic nonapeptide arginine vasopressin (AVP) across the rat intestinal epithelium was studied in experiments in vitro. A partial absorption of physiologically active AVP was followed when filling the isolated intestinal lumen by hormone solution. By methods of immunoelectron and immunofluorescence confocal microscopy, using polyclonal anti-AVP antibodies, cytoplasmic localization of AVP label was shown in enterocytes. The AVP label was also observed in the intercellular space in the basal area of epithelium. No label was revealed in the intercellular junctions, and no predominant label accumulation was found in any cytoplasmic structures of the epithelial cells. The obtained results are considered as evidence for the transcellular pathway of partial AVP absorption in rat small intestine.     

Effect of ethanol on glycylsarcosine absorption

Glycylsarcosine (GlySar) absorption by the rat intestine is not altered by acute ethanol administration (luminal perfusion of a 0.7 M ethanol solution) or by chronic consumption of a 15% ethanol solution in drinking water. Both total absorption, per entire rat small intestine, and specific absorption per mg dry weight of mucosa, were unaffected by ethanol. During the absorption of GlySar, glycine, produced by hydrolysis of the peptide in the cytosol of the intestinal cells, appears in the intestinal lumen. During acute ethanol administration the luminal appearance of glycine is decreased probably due to a reduction in intracellular hydrolysis of the dipeptide.     

Detection of a Na+-activated, furosemide-inhibited ATPase activity in rat intestinal mucosa

An ouabain-insensitive, Mg++-dependent, Na+-stimulated ATPase activity which is inhibited by furosemide was found in mucosal homogenate of rat small intestine. The subcellular localization of this ATPase activity was studied by means of isolated purified brush borders and basolateral plasma membranes. The results suggest a nearly identical distribution of Na+-activated and (Na+K+)-activated ATPase within the epithelial cells. Under conditions of alloxan and streptozotocin diabetes an increase of both ATPase activities can be found only in the basolateral plasma membranes. These observations agree well with the convective model of intestinal absorption.