Maria Anna Pabst

Afferent nerve-mediated protection against deep mucosal damage in the rat stomach☆

Intragastric capsaicin protects against ethanol-induced gross mucosal lesion formation by stimulation of afferent nerve endings in the rat stomach. The aims of the present study were to examine histologically the protective effect of capsaicin and to test whether this effect is related to changes in mucosal eicosanoid formation and mucosal blood flow. Intragastric capsaicin (160 microM) significantly reduced gross mucosal lesion formation induced by 25% ethanol. Light microscopy revealed that the depth of erosions was attenuated likewise. However, capsaicin did not prevent ethanol from causing superficial damage to the mucosa as observed by light and scanning electron microscopy. The protective action of capsaicin against ethanol remained unchanged by a dose of indomethacin that reduced the ex vivo formation of prostaglandin E2 and 6-oxo-prostaglandin F1 alpha in the gastric mucosa by about 90%. Capsaicin alone did not affect the ex vivo formation of these prostaglandins and of leukotriene C4. Intragastric capsaicin (160 microM) enhanced gastric mucosal blood flow by 89% as measured by the hydrogen gas clearance technique. This effect was also observed when capsaicin was administered together with 25% ethanol. These data indicate that afferent nerve stimulation by intragastric capsaicin protects against deep mucosal damage in response to ethanol, an effect that seems related to an increase in mucosal blood flow but not to eicosanoid formation.

Intragastric capsaicin protects against aspirin-induced lesion formation and bleeding in the rat gastric mucosa

Previous work has indicated that capsaicin-sensitive afferent neurons are involved in gastric mucosal defense mechanisms. The present study investigated whether stimulation of these neurons by intragastric administration of capsaicin would protect against aspirin-induced mucosal damage in the luminally perfused rat stomach. Capsaicin (25-640 microM), administered together with acidified (pH 1.5) aspirin (25 mM), inhibited macroscopically visible lesion formation and gastric bleeding in a concentration-dependent fashion. Capsaicin (160 microM) also attenuated the aspirin-induced fall in the gastric potential difference. An inhibitory effect of capsaicin (160 microM) on aspirin-induced gastric injury was also seen by light and scanning electron microscopy. Aspirin alone caused a vast ablation of the gastric surface epithelium, resulting in exposure of the lamina propria. In the presence of capsaicin, the depth of mucosal injury, the area totally deprived of surface epithelial cells, and the severity of surface desquamation were diminished. As capsaicin is a selective stimulant of thin afferent neurons, it would appear that these neurons participate in mechanisms of gastric defense against aspirin injury. Prevention of hemorrhagic damage seems to be the primary effect of afferent nerve-mediated gastroprotection, although injury to the surface epithelium is also reduced to some degree.

Heterogeneity of microvascular endothelial cells isolated from human term placenta and macrovascular umbilical vein endothelial cells

The present study compares some phenotypic and physiologic characteristics of microvascular and macrovascular endothelial cells from within one human organ. To this end microvascular endothelial cells from human full-term placenta (PLEC) were isolated using a new method and compared with macrovascular human umbilical vein endothelial cells (HUVEC) and an SV40-transformed placental venous endothelial cell line (HPEC-A2). PLEC were isolated by enzymatic perfusion of small placental vessels, purified on a density gradient and cultured subsequently. Histological sections of the enzyme-treated vessels showed a selective removal of the endothelial lining in the perfused placental cotyledons. The endothelial identity of the cells was confirmed by staining with the endothelial markers anti-von Willebrand factor, Ulex europaeus lectin and anti-QBEND10. The cells internalized acetylated low-density lipoprotein and did not show immunoreactivity with markers for macrophages, smooth muscle cells and fibroblasts. The spindle-shaped PLEC grew in swirling patterns similar to that described for venous placental endothelial cells. However, scanning electron microscopic examination clearly showed that PLEC remained elongated at the confluent state, in contrast to the more polygonal phenotype of HPEC-A2 and HUVEC that were studied in parallel. The amount of vasoactive substances (endothelin-1,2, thromboxane, angiotensin II, prostacyclin) released into the culture medium and the proliferative response to cytokines was more similar to human dermal microvessels (MIEC) derived from non-fetal tissue than to HUVEC. Potent mitogens such as vascular endothelial growth factors (VEGF121, VEGF165) and basic fibroblast growth factor (FGF-2) induced proliferation of all endothelial cell types. Placental growth factors PIGF-1 and PIGF-2 effectively stimulated cell proliferation on PLEC (142 +/- 7% and 173 +/- 10%) and MIEC (160 +/- 20% and 143 +/- 28%) in contrast to HUVEC (9 +/- 8% and 15 +/- 20%) and HPEC-A2 (15 +/- 7% and 24 +/- 6%) after 48 h incubation time under serum-free conditions. These data support evidence for (1) the microvascular identity of the isolated PLEC described in this study, and (2) the phenotypic and physiologic heterogeneity of micro- and macrovascular endothelial cells within one human organ.

Intragastric capsaicin enhances rat gastric acid elimination and mucosal blood flow by afferent nerve stimulation

1 This study investigated the effects of intragastric capsaicin on acid output, clearance of aniline, potential difference, and morphology of the mucosa in the rat stomach. The experiments were carried out on rats anaesthetized with urethane in which the stomachs were continuously perfused with saline. 2 When the stomach was perfused with normal saline (pH ∼6), intragastric capsaicin (32–640 μm) had no effect on the output of titratable acid. In contrast, when acid output was stimulated by pentagastrin or when the stomach was perfused with acid saline (pH 3), capsaicin reduced acid output. Acid loss which occurred during perfusion with saline of pH 2 was not significantly increased by capsaicin. This suggests that capsaicin does not enhance acid back‐diffusion but facilitates acid elimination by other means. 3 The gastric clearance of [14C]‐aniline, which is an indirect index of gastric mucosal blood flow, was estimated while the stomach was perfused with saline of pH 3. The clearance of aniline rose by 50–60% following intragastric administration of capsaicin (160 μm) whereas the mean arterial blood pressure was increased by about 2.5 mmHg only. Combined pretreatment of the rats with atropine, phentolamine, and propranolol did not alter the effect of capsaicin on the gastric clearance of aniline. 4 The gastric potential difference was not altered by capsaicin (160 μm) administered together with saline of pH 3. This and the finding that there were no signs of mucosal damage by light and scanning electron microscopy indicate that intragastric capsaicin does not irritate the gastric mucosa. 5 The effects of intragastric capsaicin on gastric acid output and aniline clearance and on blood pressure were absent in rats in which capsaicin‐sensitive afferent neurones had been ablated by neonatal treatment with a neurotoxic dose of capasicin, which indicates that they result from stimulation of afferent nerve endings in the stomach. It is concluded that facilitation of acid elimination and mucosal blood flow may contribute to the previously reported protective action of capsaicin on the gastric mucosa.

Gastric Acid-Evoked c-fos Messenger RNA Expression in Rat Brainstem Is Signaled by Capsaicin-Resistant Vagal Afferents

BACKGROUND & AIMS Gastric acid is known to contribute to ulcer pain, but the mechanisms of gastric chemonociception are poorly understood. This study set out to investigate the pathways and mechanisms by which gastric acid challenge is signaled to the brain. METHODS Neuronal excitation in the rat brainstem and spinal cord after intragastric administration of HCl (0.35-0.7 mol/L) was examined by in situ hybridization autoradiography for the immediate early gene c-fos. RESULTS Gastric acid challenge did not induce c-fos transcription in the spinal cord but caused many neurons in the nucleus tractus solitarii and area postrema to express c-fos messenger RNA (mRNA). The HCl concentration-dependent excitation of medullary neurons was in part associated with behavioral manifestations of pain but not directly related to the acid-induced injury and contraction of the stomach. Subdiaphragmatic vagotomy suppressed the c-fos mRNA response to intragastric acid, and morphine inhibited it in a naloxone-reversible manner, whereas pretreatment of rats with capsaicin was without effect. CONCLUSIONS Gastric acid challenge is signaled to the brainstem, but not the spinal cord, through vagal afferents that are sensitive to acid but resistant to capsaicin. It is hypothesized that the gastric acid-induced c-fos transcription in the brainstem is related to gastric chemonociception.

Human fetal placental endothelial cells have a mature arterial and a juvenile venous phenotype with adipogenic and osteogenic differentiation potential

Growing interest in the sources of origin of blood vessel related diseases has led to an increasing knowledge about the heterogeneity and plasticity of endothelial cells lining arteries and veins. So far, most of these studies were performed on animal models. Here, we hypothesized that the plasticity of human fetal endothelial cells depends on their vascular bed of origin i.e. vein or artery and further that the differences between arterial and venous endothelial cells would extend to phenotype and genotype. We established a method for the isolation of fetal arterial and venous endothelial cells from the human placenta and studied the characteristics of both cell types. Human placental arterial endothelial cells (HPAEC) and human placental venous endothelial cells (HPVEC) express classical endothelial markers and differ in their phenotypic, genotypic, and functional characteristics: HPAEC are polygonal cells with a smooth surface growing in loose arrangements and forming monolayers with classical endothelial cobblestone morphology. They express artery-related genes (hey-2, connexin 40, depp) and more endothelial-associated genes than HPVEC. Functional testing demonstrated that vascular endothelial growth factors (VEGFs) induce a higher proliferative response on HPAEC, whereas placental growth factors (PlGFs) are only effective on HPVEC. HPVEC are spindle-shaped cells with numerous microvilli at their surface. They grow closely apposed to each other, form fibroblastoid swirling patterns at confluence and have shorter generation and population doubling times than HPAEC. HPVEC overexpress development-associated genes (gremlin, mesenchyme homeobox 2, stem cell protein DSC54) and show an enhanced differentiation potential into adipocytes and osteoblasts in contrast to HPAEC. These data provide collective evidence for a juvenile venous and a more mature arterial phenotype of human fetal endothelial cells. The high plasticity of the fetal venous endothelial cells may reflect their role as tissue-resident endothelial progenitors during embryonic development with a possible benefit for regenerative cell therapy.

Chemo‐nociceptive signalling from the colon is enhanced by mild colitis and blocked by inhibition of transient receptor potential ankyrin 1 channels

Background and purpose:  Transient receptor potential ankyrin 1 (TRPA1) channels are expressed by primary afferent neurones and activated by irritant chemicals including allyl isothiocyanate (AITC). Here we investigated whether intracolonic AITC causes afferent input to the spinal cord and whether this response is modified by mild colitis, morphine or a TRPA1 channel blocker.

Experimental gastritis in mice enhances anxiety in a gender-related manner

There is a gender-related comorbidity of pain-related and inflammatory bowel diseases with psychiatric diseases. Since the impact of experimental gastrointestinal inflammation on the emotional-affective behavior is little known, we examined whether experimental gastritis modifies anxiety, stress coping and circulating corticosterone in male and female Him:OF1 mice. Gastritis was induced by adding iodoacetamide (0.1%) to the drinking water for at least 7 days. Inflammation was assessed by gastric histology and myeloperoxidase activity, circulating corticosterone determined by enzyme immunoassay, anxiety-related behavior evaluated with the elevated plus maze and stress-induced hyperthermia tests, and depression-like behavior estimated with the tail suspension test. Iodoacetamide-induced gastritis was associated with gastric mucosal surface damage and an increase in gastric myeloperoxidase activity, this increase being significantly larger in female mice than in male mice. The rectal temperature of male mice treated with iodoacetamide was enhanced, whereas that of female mice was diminished. The circulating levels of corticosterone were reduced by 65% in female mice treated with iodoacetamide but did not significantly change in male mice. On the behavioral level, iodoacetamide treatment caused a decrease in nocturnal home-cage activity, drinking and feeding. While depression-related behavior remained unaltered following induction of gastritis, behavioral indices of anxiety were significantly enhanced in female but not male mice. There was no correlation between the estrous cycle and anxiety as well as circulating corticosterone. Radiotracer experiments revealed that iodoacetamide did not readily enter the brain, the blood-brain ratio being 20:1. Collectively, these data show that iodoacetamide treatment causes gastritis in a gender-related manner, its severity being significantly greater in female than in male mice. The induction of gastritis in female mice is associated with a reduction of circulating corticosterone and an enforcement of behavioral indices of anxiety. Gastric inflammation thus has a distinct gender-dependent influence on emotional-affective behavior and its neuroendocrine control.

Capsaicin‐sensitive extrinsic afferents are involved in acid‐induced activation of distinct myenteric neurons in the rat stomach

Abstract Challenge of the rat gastric mucosa with 0.5 mol L−1 HCl activates nitrergic neurons in the myenteric plexus as visualized by c‐Fos immunohistochemistry. In the present study, we characterized the activated neurons more extensively by their chemical coding and investigated whether a neural pathway that involves capsaicin‐sensitive extrinsic afferents and/or cholinergic neurons transmitting via nicotinic receptors contributes to the activation of myenteric neurons. In multiple labelling experiments, c‐Fos was examined for co‐localization with nitric oxide synthase (NOS), vasoactive intestinal peptide (VIP), neuropeptide Y (NPY), enkephalin (ENK), gastrin‐releasing peptide (GRP), substance P (SP), calbindin D‐28k (CALB) and neurofilament 145 (NF 145). All c‐Fos‐positive neurons were immunoreactive for NOS, VIP, NPY and NF 145, but not for SP, ENK, GRP and CALB. Nerve fibres co‐expressing NOS, VIP and NPY were predominantly found in the external muscle layer and in the muscularis mucosae but rarely in the mucosa. Pre‐treatment with capsaicin or hexamethonium or a combination of both pre‐treatments reduced HCl‐induced c‐Fos expression by 54, 66 and 63%, respectively. Acid challenge of the stomach, therefore, leads to activation of presumably inhibitory motor neurons responsible for muscle relaxation. Activation of these neurons is partly mediated by capsaicin‐sensitive afferents and involves ganglionic transmission via nicotinic receptors.

A tungsten supplemented diet attenuates bacterial translocation in chronic portal hypertensive and cholestatic rats: role of xanthine dehydrogenase and xanthine oxidase

BACKGROUND Bacterial translocation (BT) plays a major role in the pathophysiological process of spontaneous infections in portal hypertension (PH) and cholestatic jaundice. The major mechanisms promoting BT in experimental animal models are the disruption of the intestinal ecological equilibrium and disruption of the intestinal mucosal barrier. The enzymes xanthine dehydrogenase (XD) and xanthine oxidase (XO) are often implicated as a significant source of oxidants which have a major impact on the impairment of intestinal barrier function. AIM To investigate the incidence of BT in rats with PH and obstructive jaundice, and to evaluate the impact of XD and XO. METHODS Animals were subjected to sham laparotomy (SL), PH by calibrated stenosis of the portal vein, and common bile duct ligation (CBDL). They were fed either a standard pellet diet or a tungsten supplemented molybdenum-free diet. Four weeks after the operative procedure, intestinal colonisation and BT to portal vein, vena cava, mesenteric lymph nodes, liver, and spleen were determined. Intestinal XD and XO activity were measured enzymatically and histochemically. RESULTS Significant (p<0.01) intestinal bacterial overgrowth was present in all PH and CBDL groups compared with the SL group. In normally fed animals after SL, BT occurred in 12%. In PH and after CBDL, the rate of BT increased significantly (p<0.05) to 28% and 54% respectively. In the jejunum of normally fed animals subjected to PH or CBDL, a significant increase in XO was observed (p<0.01). Animals fed a tungsten supplemented diet showed a significant attenuation of BT to 14% in PH and 22% after CBDL (p<0.05). Tungsten treatment completely suppressed jejunal XD and XO activities. CONCLUSIONS Significant intestinal bacterial overgrowth, BT, and XD to XO conversion occurred in PH and after CBDL. XD and XO inactivation by a tungsten supplemented molybdenum-free diet significantly reduced the incidence of BT without affecting intestinal bacterial overgrowth. These data strongly support the hypothesis that increased XD to XO conversion may contribute to intestinal barrier failure in PH and after CBDL.