Intestinal inflammation marker calprotectin regulates epithelial intestinal zinc metabolism and proliferation in mouse jejunal organoids.

Calprotectin (CP), a heterodimer of S100A8 and S100A9, is expressed by neutrophils and a number of innate immune cells and is used widely as a marker of inflammation, particularly intestinal inflammation. CP is a ligand for toll-like receptor 4 (TLR4) and the receptor for advanced glycation end products (RAGE). In addition, CP can act as a microbial modulatory agent via a mechanism termed nutritional immunity, depending on metal binding, most notably Zn2+. The effects on the intestinal epithelium are largely unknown. In this study we aimed to characterize the effect of calprotectin on mouse jejunal organoids as a model epithelium, focusing on Zn2+ metabolism and cell proliferation. CP addition upregulated the expression of the Zn2+ absorptive transporter Slc39a4 and of methallothionein Mt1 in a Zn2+-sensitive manner, while downregulating the expression of the Zn2+ exporter Slc30a2 and of methallothionein 2 (Mt2). These effects were greatly attenuated with a CP variant lacking the metal binding capacity. Globally, these observations indicate adaptation to low Zn2+ levels. CP had antiproliferative effects and reduced the expression of proliferative and stemness genes in jejunal organoids, effects that were largely independent of Zn2+ chelation. In addition, CP induced apoptosis modestly and modulated antimicrobial gene expression. CP had no effect on epithelial differentiation. Overall, CP exerts modulatory effects in murine jejunal organoids that are in part related to Zn2+ sequestration and partially reproduced in vivo, supporting the validity of mouse jejunal organoids as a model for mouse epithelium.

FXR-dependent and -independent interaction of glucocorticoids with the regulatory pathways involved in the control of bile acid handling by the liver.

Treatment with glucocorticoids (GCs) may cause adverse effects, including cholestasis. The ability of dexamethasone, prednisolone and budesonide to affect the liver handling of bile acids (BAs) has been investigated. In rats treated with GCs for 4 days, altered serum and bile BA levels, changed conjugation pattern, and delayed and decreased ability to conjugate/secrete exogenously administered deoxycholate, were found using HPLC-MS/MS. RT-QPCR analyses revealed that GC treatment also induced a down-regulation of liver nuclear receptors (Fxr, Gr and Shp), transporters (Ntcp, Mrp4 and Bcrp) and enzymes (Cyp7a1 and Baat), whereas Bsep, Mrp2 and Cyp27a1 were up-regulated. Human HepG2 and Alexander cell lines were used as in vitro models of liver cells with and without constitutive FXR expression, respectively. In HepG2 cells, GCs induced a decreased expression of FXR and SHP, and inhibited the regulatory effect of GW4064 on FXR-target genes. In Alexander cells, only when they were transfected with FXR+RXR, GW4064 caused up-regulation of SHP and OSTß, and a down-regulation of CYP27A1. GCs had the opposite effect on these genes, both in the absence and in the presence of FXR expression. Co-transfection of Alexander cells with IR-1-Luc and FXR+RXR revealed that GCs did not inhibit but moderately enhanced FXR activity. Moreover, GCs have a synergistic effect on GW4064-induced FXR activation, whereas chenodeoxycholate and GW4064 have an additive effect. In conclusion, GCs are able to directly or indirectly activate FXR but they also antagonize, through FXR-independent mechanisms, the expression of FXR and FXR target genes involved in the hepatic handling of BAs.

Exogenous alkaline phosphatase treatment complements endogenous enzyme protection in colonic inflammation and reduces bacterial translocation in rats.

Alkaline phosphatase (AP) inactivates bacterial lipopolysaccharide and may therefore be protective. The small intestine and colon express intestinal (IAP) and tissue nonspecific enzyme (TNAP), respectively. The aim of this study was to assess the therapeutic potential of exogenous AP and its complementarity with endogenous enzyme protection in the intestine, as evidenced recently. IAP was given to rats by the oral or intrarectal route (700U/kgday). Oral budesonide (1mg/kgday) was used as a reference treatment. Treatment with intrarectal AP resulted in a 54.5% and 38.0% lower colonic weight and damage score, respectively, and an almost complete normalization of the expression of S100A8, LCN2 and IL-1ß (p<0.05). Oral AP was less efficacious, while budesonide had a more pronounced effect on most parameters. Both oral and intrarectal AP counteracted bacterial translocation effectively (78 and 100%, respectively, p<0.05 for the latter), while budesonide failed to exert a positive effect. AP activity was increased in the feces of TNBS colitic animals, associated with augmented sensitivity to the inhibitor levamisole, suggesting enhanced luminal release of this enzyme. This was also observed in the mouse lymphocyte transfer model of chronic colitis. In a separate time course study, TNAP was shown to increase 2-3 days after colitis induction, while dextran sulfate sodium was a much weaker inducer of this isoform. We conclude that exogenous AP exerts beneficial effects on experimental colitis, which includes protection against bacterial translocation. AP of the tissue-nonspecific isoform is shed in higher amounts to the intestinal lumen in experimental colitis, possibly aiding in intestinal protection.

Persistent epithelial barrier alterations in a rat model of postinfectious gut dysfunction.

BACKGROUND: Mucosal mast cells (MMCs), epithelial barrier function (EBF) and the enteric nervous system (ENS) are interactive factors in the pathophysiology of functional gastrointestinal disorders. We characterized postinfectious EBF alterations in the Trichinella spiralis infection model of MMC-dependent intestinal dysfunction in rats. METHODS: Sprague-Dawley rats were infected with T. spiralis. 30 ± 2 days postinfection, jejunal EBF (electrophysiological parameters, fluorescein isothiocyanate-dextran fluxes and responses to secretagogues and MMC degranulators) was evaluated (Ussing chamber). In some experiments, participation of secretomotor neurons was examined by tetrodotoxin (TTX) pretreatment. Jejunal histology and MMC count and activity were also assessed. KEY RESULTS: 30 ± 2 days postinfection, when only a low grade inflammation was observed, increased MMC number and activity were associated with altered EBF. EBF alterations were characterized by increased mucosal permeability and ion secretion. In T. spiralis-infected animals, secretory responses to serotonin (5-HT) and immunoglobulin E (IgE)-dependent activation of MMCs were reduced. In contrast, responses to substance P (SP) and capsaicin were similar in infected and noninfected animals. Neuronal blockade with TTX altered secretory responses to SP and capsaicin only in infected rats. CONCLUSIONS & INFERENCES: Trichinella spiralis infection in rats, at late stages, results in persistent postinfectious intestinal barrier dysfunctions and mucosal mastocytosis, with other signs suggestive of a low grade inflammation. The altered permeability and the TTX-independent hyporesponsiveness to 5-HT and IgE indicate epithelial alterations. Changes in responses to SP and capsaicin after neuronal blockade suggest an ENS remodeling during this phase. Similar long-lasting neuro-epithelial alterations might contribute to the pathophysiology of functional and postinfectious gastrointestinal disorders.

Effects of flavonoids and other polyphenols on inflammation.

Flavonoids are a family of polyphenolic compounds which are widespread in nature (vegetables) and are consumed as part of the human diet in significant amounts. There are other types of polyphenols, including, for example, tannins and resveratrol. Flavonoids and related polyphenolic compounds have significant antiinflammatory activity, among others. This short review summarizes the current knowledge on the effects of flavonoids and related polyphenolic compounds on inflammation, with a focus on structural requirements, the mechanisms involved, and pharmacokinetic considerations. Different molecular (cyclooxygenase, lipoxygenase) and cellular targets (macrophages, lymphocytes, epithelial cells, endothelium) have been identified. In addition, many flavonoids display significant antioxidant/radical scavenging properties. There is substantial structural variation in these compounds, which is bound to have an impact on their biological profile, and specifically on their effects on inflammatory conditions. However, in general terms there is substantial consistency in the effects of these compounds despite considerable structural variations. The mechanisms have been studied mainly in myeloid cells, where the predominant effect is an inhibition of NF-κB signaling and the downregulation of the expression of proinflammatory markers. At present there is a gap in knowledge of in vitro and in vivo effects, although the pharmacokinetics of flavonoids has advanced considerably in the last decade. Many flavonoids have been studied for their intestinal antiinflammatory activity which is only logical, since the gastrointestinal tract is naturally exposed to them. However, their potential therapeutic application in inflammation is not restricted to this organ and extends to other sites and conditions, including arthritis, asthma, encephalomyelitis, and atherosclerosis, among others.

Flavonoids exert distinct modulatory actions on cyclooxygenase 2 and NF-kappaB in an intestinal epithelial cell line (IEC18).

BACKGROUND AND PURPOSE: Cyclooxygenase 2 (COX-2) is involved in inflammatory bowel disease, but the effect of flavonoids at the intestinal epithelial level is unknown. We aimed to characterize the effect and structure-activity relationship of nine selected flavonoids on COX-2 expression in intestinal epithelial cell (IEC)18 cells. We also investigated the signal transduction pathway(s) responsible for the effects observed. EXPERIMENTAL APPROACH: Intestinal epithelial cell 18, a non-tumour cell line with intestinal epithelial phenotype, was used. COX-2 was measured by Western blot and the involvement of the NF-kappaB pathway assessed by Western blot, pharmacological inhibition, luciferase reporter assays and nuclear translocation experiments. KEY RESULTS: The effect of flavonoids on COX-2 expression depended on the experimental conditions tested [non-stimulated and lipopolysaccharide (LPS)-stimulated]. Flavonoids caused an increase in COX-2 expression and NF-kappaB-dependent gene transcription under basal conditions. Conversely, under LPS stimulation flavonoids increased, decreased or did not affect COX-2 levels depending on the specific type. Variable effects were observed on extracellular signal regulated kinase/p38/c-Jun N-terminal kinase phosphorylation and p50/65 nuclear translocation. CONCLUSION AND IMPLICATIONS: The effect of flavonoids on COX-2 expression depended on the balance of the interference with IkappaB-alpha phosphorylation and other signalling targets, and therefore depends on the experimental conditions and on the type of flavonoids. This is expected to result in different effects in inflammatory conditions. In general, flavonoids may limit epithelial COX-2 expression in inflammatory conditions while favouring it when inflammation is not present.

Differences in AMPK expression between subcutaneous and visceral adipose tissue in morbid obesity.

Adenine monophosphate (AMP) activated protein kinase (AMPK) is an important regulator of obesity. The objective of the present work was to study and compare AMPK protein expression in visceral vs. subcutaneous adipose tissue of morbid obese subjects and to correlate it with adipose tissue characteristics. We selected a total population of 17 extreme obese (BMI>or=40 kg/m2) aged 42.8+/-10.2 years were included in this study. We measured anthropometric and body composition parameters. Adiponectin expression by qRT-PCR, isoproterenol-stimulated lipolytic rates, and AMPK alpha subunits expression by Western blot in adipose tissue explants were determined. Finally plasma concentrations of glucose, triacylglycerols, total cholesterol, HDL-c, LDL-c and insulin were also measured. Our results showed that AMPK alpha expression was higher in subcutaneous than in visceral tissue. A positive correlation between AMPK expression and adiponectin expression in human subcutaneous adipose tissue was observed. Furthermore, a positive correlation between AMPK expression and isoproterenol evoked upregulation of lipolysis rate was also observed. In conclusion, AMPK alpha expression differed according to adipose tissue location. The positive correlation between subcutaneous adipose tissue AMPK and adiponectin or the evoked lipolysis rate could indicate a protective role of AMPK in this tissue, counteracting insulin resistance in morbid obese patients.

Bovine glycomacropeptide ameliorates experimental rat ileitis by mechanisms involving downregulation of interleukin 17.

BACKGROUND AND PURPOSE: Bovine glycomacropeptide (BGMP) is an inexpensive, non-toxic milk peptide with anti-inflammatory effects in rat experimental colitis but its mechanism of action is unclear. It is also unknown whether BGMP can ameliorate inflammation in proximal regions of the intestine. Our aim was therefore two-fold: first, to determine the anti-inflammatory activity of BGMP in the ileum; second, to characterise its mechanism of action. EXPERIMENTAL APPROACH: We used a model of ileitis induced by trinitrobenzenesulphonic acid in rats. Rats were treated orally with BGMP and its efficacy compared with that of oral 5-aminosalicylic acid or vehicle, starting 2 days before ileitis induction. KEY RESULTS: BGMP pretreatment (500 mg kg(-1) day(-1)) resulted in marked reduction of inflammatory injury, as assessed by lower extension of necrosis and damage score, myeloperoxidase, alkaline phosphatase, inducible nitric oxide synthase, interleukin 1beta, tumour necrosis factor and interleukin 17. These effects were generally comparable to those of 5-aminosalicylic acid (200 mg kg(-1) day(-1)). Neither compound affected the production of interferon gamma, tumour necrosis factor and interleukin 2 by mesenteric lymph node cells isolated from animals with ileitis. The expression of Foxp3 was increased in ileitis and not reduced significantly by BGMP or aminosalicylate treatment. CONCLUSIONS AND IMPLICATIONS: These results demonstrate that BGMP has anti-inflammatory activity in the ileum with similar efficacy to 5-aminosalicylic acid. The mechanism of action may involve Th17 and regulatory T cells and perhaps macrophages but probably not Th1 lymphocytes. Patients with Crohn's ileitis may benefit from treatment with BGMP.

The bisphosphonate alendronate improves the damage associated with trinitrobenzenesulfonic acid-induced colitis in rats.

BACKGROUND AND PURPOSE: The nitrogen-containing bisphosphonates are drugs used successfully in the treatment of osteoporosis. They act inhibiting farnesyl diphosphate synthase. This mechanism may also produce anti-inflammatory effects. The therapeutic activity of alendronate was tested in vivo using a model of inflammatory bowel disease. EXPERIMENTAL APPROACH: The trinitrobenzenesulfonic acid model of colitis in the rat was used. Rats were treated orally with alendronate and its efficacy compared with that of oral sulphasalazine or vehicle, starting 2 h after colitis induction. The status of the animals was assessed 5 days later. KEY RESULTS: Alendronate treatment (25 or 75 mg kg(-1) day(-1)) resulted in a decrease in the colonic damage score and loss of body weight (at 25 mg kg(-1) day(-1) only). This was associated to a dramatic reduction in the mRNA levels of interleukin 1 beta (IL-1 beta), monocyte chemoattractant protein 1 (MCP-1) and interleukin 1 receptor antagonist (IL-1 ra). The magnitude of the beneficial effect was comparable to that of sulphasalazine (at a 6-20 fold higher dose). Thus sulphasalazine post-treatment reduced the mRNA levels of IL-1 beta/IL-1 ra and MCP-1 to the same extent as alendronate and additionally lowered colonic alkaline phosphatase activity, but failed to affect body weight loss or colonic damage score. Alendronate failed to exert beneficial effects when administered intraperitoneally. CONCLUSIONS AND IMPLICATIONS: Oral but not intraperitoneal alendronate significantly protected the colon in experimental rat colitis. Inflammatory bowel disease patients might benefit from exposure to oral alendronate.

Flavonoides y enfermedad inflamatoria intestinal / Flavonoides and Infl ammatory bowel disease

Estudios epidemiológicos han puesto en evidencia el papel que tienen los alimentos de origen vegetal en la prevenciónde numerosas enfermedades. Los antioxidantes naturales presentes en estos alimentos, entre los que destacanlos fl avonoides, pueden ser responsables de esta actividad. Los fl avonoides son compuestos de bajo peso molecularque se encuentran ampliamente distribuidos en el reino vegetal. Pueden mejorar los estados de diarrea aguda ycrónica a través de la inhibición de la secreción y motilidad intestinal y también ser muy útiles en la reducción deldaño infl amatorio crónico en el intestino, protegiéndolo del estrés oxidativo y preservando la función de la mucosa.Por ello, se proponen como agentes terapéuticos en el tratamiento de la Enfermedad Infl amatoria Intestinal, en laque factores diversos promueven una reacción inmunológica exacerbada que conduce a una infl amación crónicadel intestino

Epidemiological studies have revealed the important role that foodstuffs of vegetable origin have to play in the prevention ;;of numerous illnesses. The natural antioxidants present in such foodstuffs, among which the fl avonoids are widely ;;present, may be responsible for such an activity. Flavonoids are compounds that are low in molecular weight and widely ;;distributed throughout the vegetable kingdom. They may be of great utility in states of accute or chronic diarrhoea ;;through the inhibition of intestinal secretion and motility, and may also be benefi cial in the reduction of chronic infl ammatory ;;damage in the intestine, by affording protection against oxidative stress and by preserving mucosal function. ;;For this reason, the use of these agents is recommended in the treatment of infl ammatory bowel disease, in which ;;various factors are involved in extreme immunological reactions, which lead to chronic intestinal infl ammation

Experimental inflammation of the rat distal colon inhibits ion secretion in the proximal colon by affecting the enteric nervous system.

Intestinal inflammation causes hyporesponsiveness of the inflamed tissue to secretagogues but little is known about the behaviour of the areas proximal to the site of inflammation. We studied the responses of the proximal segment of the colon to carbachol, histamine, isobutylmethylxanthine (IBMX) and vasoactive intestinal peptide (VIP) in rats with trinitrobenzenesulphonic acid (TNBS)-induced, chronic inflammation of the distal colon. Macroscopic and biochemical analysis ruled out the presence of inflammation in the proximal colon. When mounted in Ussing chambers under voltage-clamp conditions, basal transport and conductance were not affected. However, the maximum response in the concentration/response curves (short-circuit current) for carbachol and histamine was reduced in TNBS-treated rats, without changes in the EC(50). This effect corresponded to reduced chloride secretion, as demonstrated by ion substitution experiments. The responses to IBMX and VIP were virtually unaffected. The inhibitory effect was abolished by pretreatment with the neural blockers tetrodotoxin and lidocaine but not indomethacin, suggesting that the enteric nervous system is responsible for the inhibition. In conclusion, chronic distal inflammation of the distal colon results in inhibition of calcium-dependent secretion in the proximal colon via a reduction of the contribution of the enteric nervous system.

Arginina, óxido nítrico y función endotelial / Arginine, nitric oxide and endothelial function

La arginina es un aminoácido semiesencial con importantes funciones fisiológicas. Entre ellas destaca su papel como precursora del óxido nítrico, una molécula producida a partir de la arginina por la enzima óxido nítrico sintasa en muchos tejidos y que en el endotelio vascular se comporta como vasodilatadora, antiaterogénica y antiagregante plaquetaria. El estudio detallado de esta reacción enzimática indica que la óxido nítrico sintasa tiene una gran afinidad por su sustrato, la arginina, que se encuentra en concentraciones altas en el endotelio. Por tanto, resultaba sorprendente que el funcionamiento de esta enzima estuviera condicionado por las variaciones en las concentraciones de arginina debidas al aporte nutricional. A esto se le llamó «paradoja de la arginina». Sin embargo, se ha demostrado recientemente la existencia de un inhibidor endógeno de la óxido nítrico sintasa denominado dimetilarginina asimétrica. Este compuesto disminuiría la formación del óxido nítrico por inhibición competitiva con el sustrato natural, la arginina. De ahí la importancia de la suplementación con arginina para contrarrestar este efecto. Además de la arginina, existen otros componentes de la dieta que pueden influir también en la síntesis de óxido nítrico por el endotelio vascular. el endotelio vascular (AU)

Arginine is a semi-essential amino acid with major physiological functions. One of the most outstanding of such is its role as an amino acid precursor of nitric oxide, a molecule produced, in many tissues, from arginine by the nitric oxide synthase enzyme. Within the vascular endothelium, nitric oxide behaves as a vasodilator, antiatherogenic, and anti-plaque aggregation agent. The detailed study of this enzymatic reaction indicates that nitric oxide synthase presents high affinity, aggregation agent. The detailed study of this enzymatic reaction indicates that nitric oxide synthase presents high affinity, for its substrate, arginine, which is found in high concentrations in the endothelium. Consequently, it is surprising that for its substrate, arginine, which is found in high concentrations in the endothelium. Consequently, it is surprising that the functionality of this enzyme is conditioned by variations in concentrations of arginine, produced by nutritional intake. the functionality of this enzyme is conditioned by variations in concentrations of arginine, produced by nutritional intake. This is known as «the arginine paradox». However, the existence of an endogenous nitric oxide synthase inhibitor, This is known as «the arginine paradox». However, the existence of an endogenous nitric oxide synthase inhibitor, known as asymmetric dimethylarginine, has been recently demonstrated. This compound would decrease the formation of nitric oxide through competitive inhibition with the natural substrate, arginine. It is for this reason that dietary supplementation with arginine would be important as a means to counteracting such an effect. In addition to arginine, supplementation with (..) (AU)

Disturbances of colonic ion secretion in inflammation: role of the enteric nervous system and cAMP.

We used the trinitrobenzenesulphonic acid (TNBS) rat model of experimental colitis to study the alterations in electrogenic ion transport in the inflamed distal colon. The distal colon exhibited decreased basal transport and reduced short-circuit current responses to carbachol and isobutylmethylxanthine (IBMX). The concentration/response curve for IBMX was also shifted to the right. Ion substitution experiments indicated that electrogenic transport was attributable chiefly to Cl(-) secretion. The mucosal layer of the inflamed distal colon (devoid of the submucosa) exhibited normal maximal responses to carbachol and IBMX, although the concentration/response curve for the latter was again shifted to the right. Tetrodotoxin markedly increased the response of the normal distal colon to both secretagogues and nullified the inhibition of the response to carbachol, but not that to IBMX, in the inflamed colon. The response of the mucosal preparation to 8-bromoadenosine 3',5'-cyclic monophosphate was similar in the normal and inflamed intestine, while the G protein activator NaF had a greater effect in the latter. The expression of the cystic fibrosis transmembrane conductance regulator (CFTR), as assessed by Northern blotting, was unchanged. cAMP levels in isolated colonocytes were markedly reduced by inflammation. We conclude that colonic inflammation produces disturbances of the enteric nervous system resulting in defective mucosal cAMP production and inhibition of ionic secretion.

Effect of quercitrin on the early stages of hapten induced colonic inflammation in the rat.

Quercitrin is a flavonoid with antiinflammatory activity in experimental colitis, associated with an antioxidative action and amelioration of water absorption in vivo. However, its mechanism of action is unclear. This study focuses on the effect of quercitrin (1 and 5 mg/kg) in the early stages (24 h) of trinitrobenzene sulfonic acid colitis. Treatment with the flavonoid prevented the increase in colonic malondialdehyde and inhibited nitric oxide synthase and alkaline phosphatase activity but had no significant effects on observable damage. No effect on neutrophil infiltration (myeloperoxidase) was observed. On the other hand, quercitrin exerted complex effects on colonic hydroelectrolytic transport, showing a slight potentiation of water absorption in vivo (5 mg/kg) as well as a normalization of carbachol stimulated electrogenic ionic transport in the proximal colon in vitro (5 mg/kg). It is concluded that the beneficial effects of quercitrin on trinitrobenzene sulfonic acid chronic colitis arise from an early downregulation of the inflammatory cascade that is associated with amelioration of the disturbances in hydroelectrolytic transport.

Half-lives of plasma membrane Na(+)/H(+) exchangers NHE1-3: plasma membrane NHE2 has a rapid rate of degradation.

The Na(+)/H(+) exchangers NHE2 and NHE3 are involved in epithelial Na(+) and HCO absorption. To increase insights into the functions of NHE2 vs. NHE3, we compared their cellular processing with each other and with the housekeeping isoform NHE1. Using biotinylated exchanger, we determined that the half-life of plasma membrane NHE2 was short (3 h) compared with that of NHE1 (24 h) and NHE3 (14 h) in both PS120 fibroblasts and Caco-2 cells. NHE2 transport and plasma membrane levels were reduced by 3 h of Brefeldin A treatment, whereas NHE1 was unaffected. NHE2 was degraded by the lysosomes but not proteosomes, as demonstrated by increasing levels of endocytosed NHE2 protein after inhibition of the lysosomes, but not with proteosome inhibition. Unlike that of NHE3, basal NHE2 transport activity was not affected by phosphatidylinositol 3-kinase inhibition and did not appear to be localized in the juxtanuclear recycling endosome. Therefore, for NHE2, protein degradation and/or protein synthesis probably play important roles in its basal and regulated states. These results suggest fundamental differences in the cellular processing and trafficking of NHE2 and NHE3. These differences may underlie the specialized roles that these exchangers play in epithelial cells.

Dietary vitamin E supplementation protects the rat large intestine from experimental inflammation.

Vitamin E, the most potent antioxidant in the lipid phase, was tested for antiinflammatory activity in trinitrobenzenesulfonic acid-induced rat colitis. Rats were fed a nonpurified diet (saline and control groups) or a vitamin E supplemented diet (treated group, 300 mg/kg nonpurified diet). Vitamin E supplementation, which resulted in increased colonic vitamin E levels, reduced colonic weight and damage score, prevented lipid peroxidation and diarrhea, reduced interleukin-1 beta levels and preserved glutathione reductase activity and total glutathione levels. However, it did not modify myeloperoxidase levels, which are indicative of neutrophil infiltration in the inflamed colon. Vitamin E protects the rat colon from oxidative stress associated with inflammation.

Patología molecular de las HDL / HDL Molecular Patholgy

Aunque existe una considerable evidencia epidemiológica sobre el carácter ateroprotector de las HDL, se conocen muy pocas alteraciones genéticas que expliquen los bajos niveles plasmáticos de las HDL que suponen riesgo aterosclerótico.Se sabe, no obstante, que algunas de estas alteraciones afectan a la estructura de las HDL: deficiencia de apoA-I, producción de apoA-I anormales y deficiencia de apoA-II. Otras alteraciones genéticas afectan al metabolismo de las HDL. Las deficiencias de la lipasa hepática o de la CETP originan aumentos de las HDL mientras que las deficiencias de la lipoproteín lipasa o la LCAT se traducen en un descenso. También disminuyen los niveles de HDL en la enfermedad de Tangier ya que estas lipoproteínas se captan y se degradan de forma excesiva por los macrófagos (AU)

Effect of psychogenic stress on gastrointestinal function.

This review summarizes the studies published over the last twenty years on the effects of psychogenic stress on gastrointestinal function, using animal models. The effects of stress on gastric ulceration have received wide attention and the central and local mechanisms of mucosal damage have been, for the most part, clearly delineated. In comparison, relatively few studies have focused on the impact of stress on intestinal and colonic physiology, even though its influence on intestinal motility, mucosal permeability and inflammation has been established. More work is necessary in this field, especially considering the importance of irritable bowel syndrome in modern society.

Effects of dietary polyunsaturated fatty acids and nucleotides on tissue fatty acid profiles of rats with carbon tetrachloride-induced liver damage.

The deficiency of polyunsaturated fatty acids (PUFA) that occurs in plasma of patients with liver cirrhosis has been assessed in rats with severe steatosis and mild liver necrosis induced by repeated administration of low doses of carbon tetrachloride (CCl(4)). The contribution of both dietary (n-3) long-chain PUFA and nucleotides to the recovery of the altered fatty acid profiles of tissue lipids of these rats has also been studied. Two groups of rats were used. The first was intraperitoneally injected 0.15 ml of a 10% (v/v) CCl(4)solution in paraffin per 100 g of body weight, three times a week for 9 weeks; the second received paraffin alone. After the treatment, six rats of each group were killed. Afterwards, the remaining controls were fed a semipurified diet (SPD) for 3 weeks, and the remaining rats in the CCl(4)group were divided into three new groups: the first was fed the SP diet; the second was fed the SP diet supplemented with 1% (n-3) polyunsaturated fatty acids (PUFA diet); and the third was fed the SP diet supplemented with 250 mg nucleotides per 100 g diet (NT diet). Fatty acids of plasma, erythrocyte membranes and liver microsomes were analyzed. Decreases in linoleic and arachidonic acids in both total plasma lipids and liver microsomal phospholipids were the main findings due to CCl(4)treatment. The rats that received CCl(4)and the PUFA diet showed the lowest levels of (n-6) PUFA and the highest levels of (n-3) PUFA in liver microsomal phospholipids, as well as a significant increase of (n-3) PUFAs in total plasma lipids. The animals that received the NT diet showed no signs of fatty infiltration and exhibited the highest levels of (n-6) PUFAs in liver microsomal phospholipids. These results show that CCl(4)affects fatty acid metabolism which is accordingly reflected in altered tissue fatty acid profiles, and that balanced diets containing PUFA and nucleotides are important for the recovery of the damaged liver in rats.

Quantitative contribution of NHE2 and NHE3 to rabbit ileal brush-border Na+/H+ exchange.

Intestinal neutral NaCl absorption, which is made up of brush-border (BB) Na+/H+ exchange linked to BB Cl-/HCO3- exchange, is up- and downregulated as part of digestion and diarrheal diseases. Glucocorticoids stimulate ileal NaCl absorption and BB Na+/H+ exchange. Intestinal BB contains two Na+/H+ exchanger isoforms, NHE2 and NHE3, but their relative roles in rabbit ileal BB Na+/H+ exchange has not been determined. A technique to separate the contribution of NHE2 and NHE3 to ileal BB Na+/H+ exchange activity was standardized by using an amiloride-related compound, HOE-694. Under basal conditions, both NHE2 and NHE3 contribute approximately 50% to ileal Na+/H+ exchange. Glucocorticoids (methylprednisolone) increase BB Na+/H+ exchange (2.5 times) but increase only ileal NHE3 activity (4.1 times), without an effect on NHE2 activity. Thus ileal BB Na+/H+ exchange in animals treated with glucocorticoids is 69% via NHE3. A quantitative Western analysis for NHE3 was developed, using as an internal standard a fusion protein of the COOH-terminal 85 amino acids of NHE3 and maltose binding protein. Glucocorticoid treatment increased the amount of BB NHE3. The quantitative Western analysis showed that NHE3 makes up 0.018% of ileal BB protein in control rabbits and 0.042% (2.3 times as much) in methylprednisolone-treated rabbits. Methylprednisolone treatment did not alter the amount of ileal BB NHE2 protein. NHE3 turnover number was estimated to be 458 cycles/s under basal conditions and 708 cycles/s in glucocorticoid-treated ileum. Thus methylprednisolone stimulates ileal BB Na+/H+ exchange activity only by an effect on NHE3 and not on NHE2; it does so primarily by increasing the amount of BB NHE3, although it also increases the NHE3 turnover number.