Effect of a hypertonic sucrose solution and 5-(N,N-hexamethylene)-amiloride on receptor-mediated and liquid-phase endocytosis

Hypertonic sucrose and amiloride or derivatives of the latter are commonly used to selectively inhibit clathrin-dependent (usually considered as a synonim of receptor-mediated endocytosis) or clathrin-independent endocytosis. Though these approaches are widely used in experimental practice, their limitations have not been studied in detail. In the present work, an attempt was made to evaluate possible side effects and selectivity of these agents towards the type of endocytosis. It was found that the incubation of A431 cells in 0.4 M sucrose resulted in a decrease in both intracellular accumulation and surface binding of the RME marker 125I-EGF. However, while the binding drops by about 3 times, the internalization of EGF in low concentrations was inhibited by more than 30 times, and that of high EGF concentrations by 5-10 times. It may evidence that at high EGF concentrations about 10-20% of ligand-receptor complexes can enter the cells through clathrin-independent pathway. Nevertheless, these results cannot be interpreted so unambigously, because we found that at the incubation longer than 30 min a significant portion of cells became dead or damaged, yielding about 50% of the whole population. By immunofluorescent assay, 5-(N,N-hexametylen)-amiloride commonly used to inhibit fluid phase endocytosis was demonstrated to reduce the staining of fluorescein-containing pinocytic vesicles, but it did not inhibit totally the entering of this marker. Under simultaneous stimulation of fluorescein and EGF endocytosis in the presence of the amiloride derivative, such a residual fluorescence shifted with time to the juxtranuclear region, which is characteristic of the late steps of RME. We suppose that a significant portion of extracellular fluid phase can be included in clathrin-dependent vesicles, whose formation is not disturbed by amiloride. It means that conclusions about the degree of pinocytosis inhibition are to be corrected, taking into account the constitutive clathrin-dependent endocytosis.     

Dietary induction of angiotensin-converting enzyme in proximal and distal rat small intestine

Induction of angiotensin-converting enzyme was examined in proximal and distal intestinal segments of rats fed a low-protein (4%) diet and then switched to a high-protein (gelatin) diet. Animals were killed at varying time points, and brush-border membranes and total RNA were prepared from the segments. In the proximal intestine, there was a fivefold increase in angiotensin-converting enzyme levels after 14 days but only a twofold change in mRNA. In the distal intestine, there was no increase in enzyme activity but mRNA increased 2.4-fold. Organ culture was used to measure changes in enzyme biosynthesis. There was a 5- to 6-fold increase in the biosynthesis of angiotensin-converting enzyme in the proximal intestine 24 h after the switch to the gelatin diet and a 1.6-fold increase in mRNA levels. No change in biosynthesis was observed in the distal small intestine despite an increase in mRNA. These results support the conclusion that rapid dietary induction of intestinal angiotensin-converting enzyme is differentially regulated in proximal and distal segments of the small intestine.     

The uptake of lead by small intestine, colon and gallbladder of the guinea pig in vivo

The binding and uptake of lead by the jejunal, colonic and gallbladder epithelium of guinea pig has been investigated by electron microscopy. Binding occurred rapidly, the most marked by the microvilli was by the jejunum, followed by colon and gallbladder. The tracer was subsequently internalised in small membrane bound vesicles and smooth endoplasmic reticulum. By 30 min, it appeared in multivesicular bodies at all three sites.     

The uptake of lead by small intestine,colon and gallbladder of the guinea pig in vivo

Summary The binding and uptake of lead by the jejunal, colonic and gallbladder epithelium of guinea pig has been investigated by electron microscopy. Binding occurred rapidly, the most marked by the microvilli was by the jejunum, followed by colon and gallbladder. The tracer was subsequently internalised in small membrane bound vesicles and smooth endoplasmic reticulum. By 30 min, it appeared in multivesicular bodies at all three sites.     

Transmucosal triglyceride transport rates in proximal and distal rat intestine in vivo.

Transmucosal transport rates for triolein in proximal and distal intestine were compared in unanesthetized rats. Emulsified [1-14-C] triolein together with bile and pancreatic juice from donor rats was infused for 6 hr into either the duodenum or the midpoint of the small intestine at such a rate that absorption was essentially complete in both regions of the intestine. Lymph was collected from the thoracic duct during triolein infusion and for an additional 6-hr period. The decrease in the rate of lymphatic output of labeled fat was found to follow a simple exponential function in all animals. This rate of decrease (decay rate) was used to calculate the half-times of lipid turnover through the intestinal wall and the fractional output rates. Distal intestine transported lipid 40% more slowly than proximal intestine, and the difference was associated with a greater accumulation of triglyceride in the distal intestinal wall. Chylomicron synthesis and/or release is the rate-limiting step for distal lymphatic fat transport in vivo, whereas fat uptake from the lumen is rate limiting for proximal intestine.     

The effect of 5'-(N,N-dimethyl)-amiloride on cytotoxic activity of doxorubicin and vincristine in CEM cell lines

Intracellular pH (pHi) plays an important role in anticancer drug accumulation in cancer cells. Resistant cells often express membrane P-glycoprotein responsible for active drug extrusion and participating in increased pHi. In the present paper, we report on the influence of Na+/H+-exchanger inhibitor, 5'-(N,N-dimethyl)-amiloride (AMI), on the cytotoxic effects of doxorubicin (DOXO) and vincristine (VCR) in the parental CEM, and resistant CEM/DNR and CEM/VCR cell lines. The obtained results revealed a potentiating effect of AMI to both anticancer drugs in parental CEM line. However, AMI did not significantly potentiate the effect of DOXO or VCR in resistant CEM cell lines. We conclude, that inhibition of Na+/H+-exchanger by AMI is not sufficient for reversal of drug resistance in the tested CEM/DNR and CEM/VCR cell lines and the possible change in pHi does not affect the mechanisms of cell resistance.     

Effects of cholera toxin on the potential difference and motor responses induced by distension in the rat proximal small intestine in vivo

Cholera toxin (CT) may induce uncontrolled firing in recurrent networks of secretomotor neurons in the submucous plexus. This hypothesis was tested in chloralose-anesthetized rats in vivo. The secretory reflex response to graded intestinal distension was measured with or without prior exposure to luminal CT. The transmural potential difference (PD) was used as a marker for electrogenic chloride secretion. In controls, distension increased PD, and this response was reduced by the neural blocker tetrodotoxin given serosally and the vasoactive intestinal peptide (VIP) receptor antagonist [4Cl-d-Phe(6),Leu(17)]VIP (2 mug.min(-1).kg(-1) iv) but unaffected by the serotonin 5-HT(3) receptor antagonist granisetron, by the nicotinic receptor antagonist hexamethonium, by the muscarinic receptor antagonist atropine, or by the cyclooxygenase inhibitor indomethacin. Basal PD increased significantly with time in CT-exposed segments, an effect blocked by granisetron, by indomethacin, and by [4Cl-d-Phe(6),Leu(17)]VIP but not by hexamethonium or atropine. In contrast, once the increased basal PD produced by CT was established, [4Cl-d-Phe(6),Leu(17)]VIP and indomethacin had no significant effect, whereas granisetron and hexamethonium markedly depressed basal PD. CT significantly reduced the increase in PD produced by distension, an effect reversed by granisetron, indomethacin, and atropine. CT also activated a specific motility response to distension, repeated cluster contractions, but only in animals pretreated with granisetron, indomethacin, or atropine. These data are compatible with the hypothesis that CT induces uncontrolled activity in submucous secretory networks. Development of this state depends on 5-HT(3) receptors, VIP receptors, and prostaglandin synthesis, whereas its maintenance depends on 5-HT(3) and nicotinic receptors but not VIP receptors. The motility effects of CT (probably reflecting myenteric activity) are partially suppressed via a mechanism involving 5-HT(3) and muscarinic receptors and prostaglandin synthesis.     

Action of mercury on sugar transport across rat small intestine, in vivo

Absorption of galactose from in vivo perfused rat jejunum was inhibited by 0.1-0.5 mM Hg2+. A few minutes' delay was required for maximal inhibition values. The effects remained after saline solution washing but were in part reversed by EDTA and in higher proportion by dithioerythritol. Absorption inhibition could be ascribed to impairment of the sugar-Na phlorizin-sensitive cotransport component: The passive apparently diffusional component that remains under 0.5 mM phlorizin and absorption of L-sorbose were unaffected by the metal. Hg action is explained as due to its binding to thiol and perhaps other chemical groups of proteins, at different depths in the membrane, which are directly or indirectly related to the sugar transport system.     

In vivo effects of 5-fluorouracil and ftorafur[1-(tetrahydrofuran-2-yl)-5-fluorouracil] on murine mammary tumors and small intestine.

The in vivo anti-tumour and toxic effects of ftorafur (FT) and 5-fluorouracil (FU) were studied in the C3H mouse. On a molar basis, FU was two to three times more potent than FT with respect to growth inhibition of murine mammary adenocarcinomas. However, FT produced less host toxicity than FU when both drugs were compared at dose levels which produced equivalent anti-tumor effects. The differences between FT and FU with respect to tumor growth inhibition and host toxicity were reflected in their ability to suppress deoxyuridine incorporation into tumor cell and intestinal DNA, respectively. Flow cytometry (FCM) studies indicated that FT and FU were capable of producing pertubations in the DNA distribution of tumour cells. Both drugs induced an initial accumulation of cells in S phase following their administration at equivalent anti-tumour dose levels. At later intervals, an apparent block of cell progression at the G1/S boundary was observed. Drug-induced perturbations in the DNA distribution of tumour cells as detected by FCM correlated with results obtained by classical autoradiographic techniques using tritiated thymidine. Both procedures showed that tumor cells were capable of moving through S phase even in the presence of an apparently near complete inhibition of deoxyuridine incorporation into DNA. That such cells were, in fact, capable of synthesizing DNA at moderate rates was shown by their ability to incorporate 32P into DNA. The possible relationship of these findings to the therapeutic and toxic activities of FT and FU is discussed.     

Pharmacological analysis of components of the change in transmural potential difference evoked by distension of rat proximal small intestine in vivo

The reflex response to distension of the small intestine in vivo is complex and not well understood. The aim of this study was to characterize the neural mechanisms contributing to the complex time course of the intestinal secretory response to distension. Transmucosal potential difference (PD) was used as a marker for mucosal chloride secretion, which reflects the activity of the secretomotor neurons. Graded distensions (5, 10, and 20 mmHg) of distal rat duodenum with saline for 5 min induced a biphasic PD response with an initial peak (rapid response) followed by a plateau (sustained response). The rapid response was significantly reduced by the neural blockers tetrodotoxin and lidocaine (given serosally) and by intravenous (iv) administration of the ganglionic blocker hexamethonium and the NK(1) receptor antagonist SR-140333. Serosal TTX and iv SR-140333 significantly reduced the sustained response, which was also reduced by the NK(3) receptor antagonist talnetant and by the vasoactive intestinal polypeptide (VPAC) receptor antagonist [4Cl-d-Phe(6), Leu(17)]-VIP. Serosal lidocaine and iv hexamethonium had no significant effect on this component. Inhibition of nitric oxide synthase had no effect on any of the components of the PD response to distension. The PD response to distension thus seems to consist of two components, a rapidly activating and adapting component operating via nicotinic transmission and NK(1) receptors, and a slow component operating via VIP-ergic transmission and involving both NK(1) and NK(3) receptors.     

Influence of nitrate and nitrite on electrolyte transport by the rat small and large intestine

1. The influence of nitrate and nitrite on net absorption of electrolytes (Na+, K+, Cl-) and water from ligated loops was studied at various intestinal sites in rats. 2. Nitrate strikingly reduced Cl- absorption in rat proximal and distal colon, whereas Na+ absorption was reduced only moderately. Nitrite also reduced Cl- absorption in the colon. 3. Nitrate showed no significant effect on electrolyte absorption in the small intestine. 4. The results suggest that Cl-/HCO3- on exchange is the major route of Cl- absorption in the colon, whereas this mechanism seems not to be of importance for Cl- absorption by the small intestine.     

Absorption kinetics for leucine, cycloleucine and alpha-aminoisobutyric acid by rat small intestine in vivo

The intestinal absorption kinetics of three neutral amino acids, leucine, cycloleucine and alpha-aminoisobutyric acid, has been studied in rat jejunum in vivo, with luminal perfusion during successive periods, by measuring the passive component and the active transport. The mass-transfer coefficients of the passive process, are similar for the three amino acids and increase with the perfusion rate. The transport component, obtained from the difference between total absorption and passive diffusion, shows saturation kinetics and also increases with the perfusion rate. The apparent Michaelis constants, Km, and the maximal transport rates for the three amino acids have been determined. The Km values are greater than those reported for in vitro studies, a result imputable to greater thickness of the unstirred layers in vivo and to the unequal signification of the constant in both conditions. Passive flux has proved to be an important component for in vivo absorption, even at low substrate concentrations (1-5 mM), so that its evaluation cannot be neglected for the calculation ot the kinetic constants of the mediated transport.     

Diet-induced epigenetic regulation in vivo of the intestinal fructose transporter Glut5 during development of rat small intestine

Metabolic complications arising from excessive fructose consumption are increasing dramatically even in young children, but little is known about ontogenetic mechanisms regulating Glut5 [glucose transporter 5; encoded by the Slc2a5 (solute carrier family 2 member 5) gene]. Glut5 expression is low postnatally and does not increase, unless luminal fructose and systemic glucocorticoids are present, until ≥ 14 days of age, suggesting substrate-inducible age- and hormone-sensitive regulation. In the present study, we perfused intestines of 10- and 20-day-old rats with either fructose or glucose then analysed the binding of Pol II (RNA polymerase II) and GR (glucocorticoid receptor), as well as acetylation of histones H3 and H4 by chromatin immunoprecipitation. Abundance of Glut5 mRNA increased only with fructose perfusion and age, a pattern that matched that of Pol II binding and histone H3 acetylation to the Glut5 promoter. Although many regions of the Glut5 promoter respond to developmental signals, fewer regions perceive dietary signals. Age- but not fructose-dependent expression of Sglt1 [sodium-dependent glucose co-transporter 1 encoded by the Slc5a1(solute carrier family 5 member 1) gene] also correlated with Pol II binding and histone H3 acetylation. In contrast, G6Pase (glucose-6-phosphatase; encoded by the G6pc gene) expression, which decreases with age and increases with fructose, is associated only with age-dependent changes in histone H4 acetylation. Induction of Glut5 during ontogenetic development appears to be specifically mediated by GR translocation to the nucleus and subsequent binding to the Glut5 promoter, whereas the glucocorticoid-independent regulation of Sglt1 by age was not associated with any GR binding to the Sglt1 promoter.     

Comparison of brush border membrane glycoproteins and glycoenzymes in the proximal and distal rat small intestine

Brush border membranes isolated from the proximal and distal portions of the rat small intestine were examined to see whether qualitative differences exist in their glycoprotein constituents. After SDS-polyacrylamide gel electrophoresis distinct differences were observed, indicating that the protein and glycoprotein profiles of the distal intestine are less complex. A competitive radioassay of lectin receptors revealed that there are significantly more wheat germ agglutinin and succinylated wheat germ agglutinin receptors present on brush border membranes from proximal intestine as compared to distal intestine. However, binding of Ricinus communis agglutinin I to brush border membranes of distal intestine was 2-times higher than that of proximal intestine. These segmental differences were also reflected in the binding patterns of individual brush border membrane hydrolases to wheat germ agglutinin and R. communis agglutinin I. Carbohydrate analysis demonstrated that the overall sugar content of brush border membranes is higher in distal intestine, with more galactose and sialic acid residues. No difference was found in the content of N-acetylglucosamine between the two segments. When brush border membranes from both segments were used as acceptors for galactosyltransferase, those from proximal intestine were better acceptors. Neuraminidase treatment significantly enhanced galactose oxidase/sodium borotritide labeling of brush border membranes from distal intestine and altered the electrophoretic mobility of dipeptidyl aminopeptidase IV and aminopeptidase N. No significant changes in labeling or enzyme electrophoretic mobility were noted in brush border membranes from proximal intestine after neuraminidase treatment. These studies indicate that the glycoproteins from brush border membranes of proximal and distal intestine are qualitatively different and that the glycoproteins from distal intestine may have more completed oligosaccharide side chains.     

Syncollin is differentially expressed in rat proximal small intestine and regulated by feeding behavior

Gradients of gene expression are maintained along the proximal-distal axis of the mammalian small intestine despite a continuously regenerating epithelium. To study the molecular mechanisms responsible for this phenomenon, we utilized a subtractive hybridization strategy to isolate genes differentially expressed in the duodenum but not ileum. We isolated and sequenced 15 clones. The clones were fragments of genes encoding lipases, proteases, and an esterase. A novel clone was characterized and subsequently shown to encode syncollin, a secretory granule protein that binds to syntaxin in a calcium-sensitive manner. RT-PCR and S1 nuclease protection assay were used to clarify the 5'-end of syncollin. Syncollin was expressed in the rat pancreas, spleen, duodenum, and colon. In situ hybridization localized syncollin expression in the pancreas to acinar cells and in the duodenum to villus epithelial cells.     

Differential stimulation of S-adenosylmethionine decarboxylase by difluoromethylornithine in the rat colon and small intestine.

The effects of sodium cyclobutyrate, a synthetic hydrocholeretic drug, on biliary lipid secretion and on the biliary outputs of several plasma-membrane enzymes were investigated in anaesthetized rats. Administration of a single oral dose of cyclobutyrol (0.72 mmol/kg body wt.) reduced biliary concentration and output of cholesterol and phospholipid. However, bile acid secretion was not significantly modified. This uncoupling effect of lipid secretion remained even when the choleretic response to the drug had ceased. It additionally led to a statistically significant decrease in the cholesterol/bile acid and phospholipid/bile acid molar ratios and in the lithogenic index of the bile. The biliary outputs of the plasma-membrane enzymes alkaline phosphatase and gamma-glutamyltransferase were markedly reduced by the drug. When cyclobutyrol was administered to rats which had been previously fed with a high-cholesterol diet, the effects of cyclobutyrol persisted, but were less marked. Our results demonstrate that the bile acid-independent choleresis induced by cyclobutyrol (related to its pharmacokinetic effect) is accompanied by a pharmacodynamic action that selectively reduces the secretion of biliary lipids. This is due to an uncoupling of the secretion of cholesterol and phospholipids from that of bile acids. Possible explanations for the biliary response to cyclobutyrol are discussed.     

1-Naphthol beta-D-glucuronide formed intraluminally in rat small intestine mucosa and absorbed into the colon

UDP-glucuronosyltransferase expressed in the rat intestinal epithelial cells is important as the first barrier against chemicals. The distribution of 1-naphthol and its glucuronide formed in rat intestine was estimated by using everted intestine. Roughly 60% of the 1-naphthol added to the mucosal fluid was absorbed into the mucosa of the small intestine and colon within 30 min. Approximately 66% of the 1-naphthol absorbed in the proximal intestine was secreted intraluminally as a glucuronide, and a minimal 9% was transported into the serosal fluid as a glucuronide. In the distal intestine, approximately 34% was secreted intraluminally and 30% was transported into the serosal fluid as a glucuronide. The greatest amount of the glucuronide (37% of the absorbed 1-naphthol) was transported into the serosal fluid, whereas a minimal 7% was secreted intraluminally in the colon. In marked contrast, the colon was found to transport 1-naphthol-glucuronide from the mucosal fluid into the serosal fluid at an approximately 8-fold higher rate than that of the small intestine. These results suggest that, in the small intestine, phenolic xenobiotics are mostly glucuronidated and secreted intraluminally and that the resulting glucuronide is absorbed and transported into the serosal side of the colon.