Glutamine regulates the expression of proteins with a potential health-promoting effect in human intestinal Caco-2 cells

Glutamine is an essential amino acid for the enterocytes with respect to maintaining the gut mucosal integrity and function. This study was conducted to explore a molecular basis for the beneficial effects of glutamine on intestinal cells by searching for glutamine-dependent changes in the proteome. Caco-2 cells were exposed to different concentrations of L-glutamine with or without L-methionine sulfoximine, an inhibitor of the glutamine synthetase activity. 2-DE combined with MALDI-TOF-MS was used to identify proteins whose expression is changed by glutamine. To assess the relative protein synthesis rate, incorporation of L-[2H5]glutamine into individual proteins was monitored. The expression levels of 14 proteins changed significantly with the glutamine availability. Examples of differentially expressed proteins with potential health-promoting effects on the intestine are plasma retinol-binding protein, ornithine aminotransferase, apolipoprotein A-I, mitochondrial 3-hydroxy-3-methylglutaryl-CoA synthase, and acyl-CoA synthetase 5. Expression of these proteins was not changed by arginine deprivation. The differential change in the expression levels of the proteins was not correlated with their rate of synthesis, excluding an effect of glutamine depletion on general protein synthesis. Together, this study shows a gene-specific effect of glutamine on intestinal cells.     

L-Alanine absorption in human intestinal Caco-2 cells driven by the proton electrochemical gradient

In human Caco-2 intestinal epithelial layers, xxxl-alanine absorption can be energized by a proton gradient across the brush-border membrane. Acidification of the apical medium, even in Na⁺-free media, is associated with a saturable net transepithelial absorption of xxxl-alanine. xxxl-Alanine transport causes cytosolic acidification consistent with proton/amino acid symport. xxxl-Alanine transport in Na⁺-free media is rheogenic, stimulating an inward short-circuit current in voltageclamped epithelial monolayers. By measurement of rapid xxxl-alanine influx across the apical membrane, xxxl-alanine-stimulated inward short-circuit current and intracellular acidification in the same cell batch, we estimate xxxl-alanine/proton stoichiometry to be 10.62 ±0.25 (xxxsd) (short-circuit current) or 10.73 ±0.19 (intracellular acidification). From competition studies, it is likely that xxxl-proline, -aminoisobutyric acid, and -alanine, but not xxxl-valine and xxxl-serine, are substrates for protonlinked, substrate transport in the brush border of Caco-2 cells.This study was supported by the Wellcome Trust (to D.T.T. and N.L.S.) and the LINK Programme in Selective Drug Delivery and Targeting (funded by the SERC/MRC/DTI and Industry). Charlotte Ward gave excellent technical assistance.     

Receptor-mediated uptake of ferritin-bound iron by human intestinal Caco-2 cells

Ferritin (Ft) is a large iron (Fe)-binding protein ( approximately 450 kDa) that is found in plant and animal cells and can sequester up to 4500 Fe atoms per Ft molecule. Our previous studies on intestinal Caco-2 cells have shown that dietary factors affect the uptake of Fe from Ft in a manner different from that of Fe from FeSO4, suggesting a different mechanism for cellular uptake. The objective of this study was to determine the mechanism for Ft-Fe uptake using Caco-2 cells. Binding of (59)Fe-labeled Ft at 4 degrees C showed saturable kinetics, and Scatchard analysis resulted in a K(d) of 1.6 muM, strongly indicating a receptor-mediated process. Competitive binding studies with excess unlabelled Ft significantly reduced binding, and uptake studies at 37 degrees C showed saturation after 4 h. Enhancing and blocking endocytosis using Mas-7 (a G-protein activator) and hypertonic medium (0.5 M sucrose), respectively, demonstrated that Ft-Fe uptake by Mas-7-treated cells was 140% of control cells, whereas sucrose treatment resulted in a statistically significant reduction in Ft-Fe uptake by 70% as compared to controls. Inhibition of macropinocytosis with 5-(N,N-dimethyl)-amiloride (Na+/H+ antiport blocker) resulted in a decrease (by approximately 20%) in Ft-Fe uptake at high concentrations of Ft, suggesting that enterocytes can use more than one Ft uptake mechanism in a concentration-dependent manner. These results suggest that Ft uptake by enterocytes is carried out via endocytosis when Ft levels are within a physiological range, whereas Ft at higher concentrations may be absorbed using the additional mechanism of macropinocytosis.     

Dietary polyphenols decrease glucose uptake by human intestinal Caco-2 cells

The effect of different classes of dietary polyphenols on intestinal glucose uptake was investigated using polarised Caco-2 intestinal cells. Glucose uptake into cells under sodium-dependent conditions was inhibited by flavonoid glycosides and non-glycosylated polyphenols whereas aglycones and phenolic acids were without effect. Under sodium-free conditions, aglycones and non-glycosylated polyphenols inhibited glucose uptake whereas glycosides and phenolic acids were ineffective. These data suggest that aglycones inhibit facilitated glucose uptake whereas glycosides inhibit the active transport of glucose. The non-glycosylated dietary polyphenols appear to exert their effects via steric hindrance, and (-)-epigallochatechingallate, (-)-epichatechingallate and (-)-epigallochatechin are effective against both transporters.     

Efflux of sphingoid bases by P-glycoprotein in human intestinal Caco-2 cells

The aim of this study was to determine whether sphingoid bases that originated from various dietary sources, such as mammals, plants, and fungi, are substrates for P-glycoprotein in differentiated Caco-2 cells, which are used as a model of intestinal epithelial cells. In Caco-2 cells, the uptake of sphingosine, the most common sphingoid base found in mammals, was significantly higher at physiological temperatures than those of cis/trans-8-sphingenine, trans-4, cis/trans-8-sphingadienine, 9-methyl-trans-4, trans-8-sphingadienine, or sphinganine. Verapamil, a potent P-glycoprotein inhibitor, increased the cellular accumulation of sphingoid bases, except for sphingosine, in a dose-dependent manner. Incubation with 1 microM digoxin for 48 h caused up-regulation of multidrug-resistance (MDR)1 mRNA and decreased the accumulation of sphingoid bases in Caco-2 cells, except for sphingosine. Thus P-glycoprotein probably contributes to the selective absorption of sphingosine from dietary sphingolipids in the digestive tract.     

乳杆菌微小膜蛋白对肠上皮细胞Caco-2的细胞毒性研究

目的 利用脂多糖（lipopolysaccharide,LPS）刺激模拟体外炎症环境,观察不同浓度下乳杆菌微小膜蛋白（micro integral membrane protein,MIMP）对肠上皮细胞Caco-2的生物学影响,评估其细胞毒性作用。方法 首先通过CCK-8实验检测在LPS刺激后不同浓度MIMP（0.01、0.1和1 ng/mL）对Caco-2细胞增殖活性的影响,并利用Toll样受体4（Toll-like receptor 4,TLR4）抑制剂作为阳性对照。其次利用流式细胞术检测不同浓度下MIMP对Caco-2细胞凋亡及细胞周期的影响。结果 在12 h的特定孵育时间内,单独应用不同浓度MIMP及TLR4抑制剂对Caco-2细胞增殖活性无显著影响（P＞0.05）,但是MIMP可以拮抗LPS对Caco-2细胞的促增殖作用（P<0.05）。不同浓度的MIMP对Caco-2细胞的周期和凋亡无明显影响（P＞0.05）。结论 不同浓度MIMP对Caco-2细胞的增殖、凋亡及细胞周期无明显影响,并可以拮抗LPS的促细胞增殖作用,因此具有较高的安全性,有望用于临床对炎症性肠病的治疗。     

Induction of apoptosis in Caco-2 and HT-29 human intestinal epithelial cells by enterohemolysin produced by classic enteropathogenic Escherichia coli

AIMS: Detect the cytotoxic effects of the Enterohemolysin from enteropathogenic Escherichia coli C3888 (O 26: H-) on Caco 2 and HT-29-human epithelial intestinal cells. METHODS AND RESULTS: The Caco 2 and HT-29 cells, which were treated with Enterohemolysin (EHly) within 10-15 min, became round, lost attachment to substrate, showed extensive surface blebbing, nucleus shrank, and the chromatin became more compact. After 10 min of exposure to the EHly, the cells showed lactate dehydrogenase (LDH) leakage and reduction of mitochondrial activity. The cells showed disorganization of the actin fibers at 15 min. The death of these human epithelial intestinal cells by apoptosis was confirmed by annexin V. CONCLUSIONS: Enterohemolysin induced apoptosis on human epithelial intestinal cells. SIGNIFICANCE AND IMPACT OF THE STUDY: The finding of EHly cytotoxic activity suggests the involvement of this hemolysin in the (Enteropathogenic Escherichia coli) EPEC infection mechanism and may facilitate the understanding of the diarrhea caused by EPEC.     

Uptake of 3,4-methylenedioxymethamphetamine and its related compounds by a proton-coupled transport system in Caco-2 cells

3,4-Methylenedioxymethamphetamine (MDMA) is an illegal amphetamine-type stimulant (ATS) that is abused orally in the form of tablets for recreational purposes. The aim of this work is to investigate the absorption mechanism of MDMA and other related compounds that often occur together in ATS tablets, and to determine whether such tablet components interact with each other in intestinal absorption. The characteristics of MDMA uptake by the human intestinal epithelial Caco-2 cell line were investigated. The Michaelis constant and the maximal uptake velocity at pH 6.0 were 1.11 mM and 13.79 nmol/min/mg protein, respectively, and the transport was electroneutral. The initial uptake rate was regulated by both intra- and extracellular pH. MDMA permeation from the apical to the basolateral side was inferior to that in the reverse direction, and a decrease in apical pH enhanced MDMA permeation from the basolateral to the apical side. These facts indicate that this transport system may be an antiporter of H⁺. However, under physiological conditions, the proton gradient cannot drive the MDMA uptake because it is inwardly directed. Large concentration differences of MDMA itself drive this antiporter. Various compounds with similar amine moieties inhibited the uptake, but substrates of organic cation transporters (OCT1-3) and an H⁺-coupled efflux antiporter, MATE, were not recognized.     

Inhibition of adhesion of enteroinvasive pathogens to human intestinal Caco-2 cells by Lactobacillus acidophilus strain LB decreases bacterial invasion

Abstract Salmonella typhimurium and enteropathogenic Escherichia coli (EPEC) were found to adhere to the brush border of differentiated human intestinal epithelial Caco-2 cells in culture, whereas Yersinia pseudotuberculosis and Listeria monocytogenes adhered to the periphery of undifferentiated Caco-2 cells. All these enterovirulent strains invaded the Caco-2 cells. Using a heat-killed human Lactobacillus acidophilus (strain LB) which strongly adheres both to undifferentiated and differentiated Caco-2 cells, we have studied inhibition of cell association with and invasion within Caco-2 cells by enterovirulent bacteria. Living and heat-killed Lactobacillus acidophilus strain LB inhibited both cell association and invasion of Caco-2 cells by enterovirulent bacteria in a concentration-dependent manner. The mechanism of inhibition of both adhesion and invasion appears to be due to steric hindrance of human enterocytic pathogen receptors by whole-cell lactobacilli rather than to a specific blockade of receptors.     

Common mechanisms of monoacylglycerol and fatty acid uptake by human intestinal Caco-2 cells

Free fatty acids (FFA) andsn-2-monoacylglycerol (sn-2-MG), the twohydrolysis products of dietary triacylglycerol, are absorbed from thelumen into polarized enterocytes that line the small intestine.Intensive studies regarding FFA transport across the brush-bordermembrane of the enterocyte are available; however, little is knownabout sn-2-MG transport. We therefore studied the kineticsof sn-2-MG transport, compared with those of long-chain FFA(LCFA), by human intestinal Caco-2 cells. To mimic postprandial luminaland plasma environments, we examined the uptake of taurocholate-mixed lipids and albumin-bound lipids at the apical (AP) and basolateral (BL)surfaces of Caco-2 cells, respectively. The results demonstrate thatthe uptake of sn-2-monoolein at both the AP and BL membranes appears to be a saturable function of the monomer concentration ofsn-2-monoolein. Furthermore, trypsin preincubation inhibits sn-2-monoolein uptake at both AP and BL poles of cells.These results suggest that sn-2-monoolein uptake may be aprotein-mediated process. Competition studies also support aprotein-mediated mechanism and indicate that LCFA and LCMG may competethrough the same membrane protein(s) at the AP surface of Caco-2 cells.The plasma membrane fatty acid-binding protein (FABP_pm) isknown to be expressed in Caco-2, and here we demonstrate that fattyacid transport protein (FATP) is also expressed. These putative plasmamembrane LCFA transporters may be involved in the uptake ofsn-2-monoolein into Caco-2 cells.

     

Accumulation and retention of micellar beta-carotene and lutein by Caco-2 human intestinal cells

Despite the interest in the diverse roles of dietary carotenoids in human health, little is known about the transfer of these plant pigments from foods to micelles during digestion and their subsequent transfer across the intestinal epithelium. We conducted this study to characterize the intestinal uptake of micellarized carotenoids using monolayers of differentiated Caco-2 human intestinal cells. Crystalline beta-carotene (BC) and lutein (LUT), solubilized in mixed micelles for delivery to cells, were stable in a tissue culture environment for 20 hours. Cellular accumulation of micellar BC and LUT was proportional to the media content of carotenoids at /=18 micromol/L. There was no indication that high levels of BC in medium or within cells adversely affected micellar LUT accumulation. These data support the use of the Caco-2 human cell line as a model for studying the intestinal uptake, absorption, and possible interactions of dietary carotenoids.     

Effects of mixed micellar lipids on carotenoid uptake by human intestinal Caco-2 cells

We reported previously that lysophosphatidylcholine remarkably enhanced β-carotene uptake from bile acid-mixed micelles by human intestinal Caco-2 cells. In the present study, we evaluated how mixed micelle components other than phospholipids, viz., fatty acids, monoolein, and cholesterol, affect carotenoid uptake by Caco-2 cells. Each component influenced the β-carotene uptake in a different way depending on micellar composition. Oleic acid at 200 μM significantly enhanced uptake in the absence of lysophosphatidylcholine. Cholesterol at 40 μM significantly reduced uptake in the presence of lysophosphatidylcholine, while no reduction was found in the presence of 200 μM oleic acid. Facilitated diffusion was suggested partly to mediate uptake in mixed micelles, except for mixed micelles containing 200 μM oleic acid. Uptake mediated by facilitated diffusion was approximately 20% of total uptake. Mixed micellar lipids have the potential to modify intestinal uptake.     

Characteristics of lysophosphatidylcholine in its inhibition of taurine uptake by human intestinal Caco-2 cells

The characteristics of lysophosphatidylcholine (LPC) in its inhibition of the taurine uptake by human intestinal Caco-2 cells were investigated. By treating the cells with 200 microM of LPC, the taurine uptake was rapidly decreased by approximately 60%. This decrease was accompanied by an increase in the Km value for the uptake. A rapid uptake of LPC itself by the cells was also observed. The inhibitory activity of LPC was specific to the uptake of taurine and certain amino acids, while the uptake of glucose, glutamic acid and peptide (glycylglutamine) was not affected by LPC. The activity was dependent on the structure of a polar head and the bound fatty acid. The phosphorylcholine residue was likely to have played an important role, and surface active LPC with fatty acids of C14 or longer was highly inhibitory. These results suggest that the interaction of LPC with the taurine transporter in the intestinal cell membrane was the cause of the reduced taurine uptake.     

Effects of tributyltin on barrier functions in human intestinal Caco-2 cells

The effect of tributyltin (TBT) on human intestinal epithelial cell functions was investigated by using human intestinal Caco-2 cell monolayers. We paid particular attention to the effect of TBT on two barrier functions: the tight junction as a physical barrier and MDR1/P-glycoprotein as a biological barrier. A loss of monolayer integrity was apparent from the TBT treatment and the paracellular permeability was increased by TBT. On the other hand, the activity of P-glycoprotein, which was examined by measuring the accumulation of Rhodamine-123 and daunomycin, was increased by prolonged TBT treatment in a concentration-dependent manner (1-100 nM). Furthermore, it was clarified by Western and Northern blots that this increase was accompanied by the increased expression of MDR1 mRNA and protein. The activation of a multidrug resistance transporter P-glycoprotein by TBT would cause a disorder of the human intestines by changing the drug pharmacokinetics.     

Induction of human defensins by intestinal Caco-2 cells after interactions with opportunistic Candida species

In this study we investigated the effects of Candida albicans, Candida krusei, Candida tropicalis and Candida parapsilosis on human beta-defensin 2 (HBD-2) production in Caco-2 intestinal cell line, and the production of alpha-defensins (human neutrophil peptides, HNP 1–3) in peripheral blood. Opportunistic pathogen yeasts can modulate the host immune function by inducing defensins, the natural antimicrobial peptides. Here we show that Candida spp. stimulated HBD-2 expression in and release from Caco-2 cells, with C. albicans inducing the highest levels of HBD-2. Similarly, HNP 1–3 secretion was significantly increased in whole blood after exposure to Candida yeast cells, with C. albicans producing the greatest effect. Our investigations underscore the important role of beta and alpha defensins produced by intestinal epithelial cells locally and neutrophils systemically in the antifungal defense against Candida.     

Genistein increases metallothionein expression in human intestinal cells, Caco-2.

Flavonoids found in common vegetables, fruits, and legumes have been shown to possess antioxidant property. This study is the first to demonstrate that one member of the flavonoid family, genistein, can induce the expression of metallothionein (a metal-binding protein with antioxidant property). We found the effect of genistein to be time- and dose-dependent (10-100 microM). The effect can be observed at both protein and mRNA levels and was synergistic to that of 30 microM zinc. Genistein was shown previously to interact with the estrogen receptor and induce gene expression similar to estrogens at a lower affinity. We thus tested the hypothesis that the effect of genistein on metallothionein expression was mediated through the steroid hormone pathway. We found that various glucocorticoids do not affect metallothionein expression in Caco-2 cells. 17Beta-estradiol at 10-100 microM (concentrations much higher than needed to activate the estrogen response element) induced metallothionein expression in Caco-2 cells. However, a synthetic estrogen, diethylstilbestrol, did not increase metallothionein level at 10 microM. 17Beta-estradiol also did not act synergistically with zinc. Thus, genistein may enhance metallothionein expression through an uncharacterized mechanism. Further studies are needed to delineate the molecular mechanism and to determine whether the expression of other genes is also affected by genistein.     

The human intestinal epithelial cell line Caco-2; pharmacological and pharmacokinetic applications

The gastrointestinal tract remains the most popular and acceptable route of administration for drugs. It offers the great advantage of convenience and many compounds are well absorbed and thereby provide acceptable plasma concentration-time profiles. Currently there is considerable interest from the pharmaceutical industry in development of cell culture systems that would mimic the intestinal mucosa in order to evaluate strategies for investigating and/or enhancing drug absorption. The intestinal epithelial cells of primary interest, from the standpoint of drug absorption and metabolism, are the villus cells, which are fully differentiated cells. Anin vitro cell culture system consisting of a monolayer of viable, polarized and fully differentiated villus cells, similar to that found in the small intestine, would be a valuable tool in the study of drug and nutrient transport and metabolism.The Caco-2 cell line, which exhibits a well-differentiated brush border on the apical surface and tight junctions, and expresses typical small-intestinal microvillus hydrolases and nutrient transporters, has proven to be the most popularin vitro model (a) to rapidly assess the cellular permeability of potential drug candidates, (b) to elucidate pathways of drug transport (e.g., passive versus carrier mediated), (c) to assess formulation strategies designed to enhance membrane permeability, (d) to determine the optimal physicochemical characteristics for passive diffusion of drugs, and (e) to assess potential toxic effects of drug candidates or formulation components on this biological barrier. Since differentiated Caco-2 cells express various cytochrome P450 isoforms and phase II enzymes such as UDP-glucuronosyltransferases, sulfotransferases and glutathione-S-transferases, this model could also allow the study of presystemic drug metabolism.     

Epithelial properties of human intestinal Caco-2 cells cultured in a serum-free medium

Human intestinal Caco-2 cells were cultured under serum-free conditions on an insoluble collagen and FCS matrix (Caco-2-SF), and a comparison was made between several characteristics of Caco-2 and Caco-2-SF cells. Their morphological appearance was identical. Slight differences were found in cell growth and expression of brush border enzymes between Caco-2 and Caco-2-SF cells. Similar levels of activity of Gly-Gly transport were expressed in both types of cell. Caco-2 cells cultured on permeable filters showed high transepithelial electrical resistance (TEER), indicating the high monolayer integrity. The transepithelial transport activity for glucose, alanine and Gly-Gly was detected by measuring the change in short-circuit current (Isc) after adding each of these nutrients to the apical chamber. In Caco-2-SF cells, such parameters as TEER and Isc were reduced drastically, suggesting that the monolayer integrity and cell polarity that are important for transepithelial transport were not attained. These parameters, however, could be restored by adding FCS or by milk whey. The result suggested that FCS and milk whey contain factors which regulate the formation of the tight junctions and, consequently, the development of cell polarity. Thus the Caco-2-SF cell-culture system will provide a useful model for studying factors which regulate the intestinal transepithelial transport functions.Abbreviations BCECF 2,7-bis(carboxyethyl)-5(6)-carboxyfluorescein - TEER transepithelial electrical resistance - LY lucifer yellow CH lithium salt