Proteolytic homeostasis is important at mucosal surfaces, but its actors and their precise role in physiology are poorly understood. Here we report that healthy human and mouse colon epithelia are a ...major source of active thrombin. We show that mucosal thrombin is directly regulated by the presence of commensal microbiota. Specific inhibition of luminal thrombin activity causes macroscopic and microscopic damage as well as transcriptomic alterations of genes involved in host-microbiota interactions. Further, luminal thrombin inhibition impairs the spatial segregation of microbiota biofilms, allowing bacteria to invade the mucus layer and to translocate across the epithelium. Thrombin cleaves the biofilm matrix of reconstituted mucosa-associated human microbiota. Our results indicate that thrombin constrains biofilms at the intestinal mucosa. Further work is needed to test whether thrombin plays similar roles in other mucosal surfaces, given that lung, bladder and skin epithelia also express thrombin.
Background Sexual dimorphism in biological responses is a critical knowledge for therapeutic proposals. However, gender differences in intestinal stem cell physiology have been poorly studied. Given ...the important role of the protease-activated receptor PAR.sub.2 in the control of colon epithelial primitive cells and cell cycle genes, we have performed a sex-based comparison of its expression and of the effects of PAR.sub.2 activation or knockout on cell proliferation and survival functions. Methods Epithelial primitive cells isolated from colons from male and female mice were cultured as colonoids, and their number and size were measured. PAR.sub.2 activation was triggered by the addition of SLIGRL agonist peptide in the culture medium. PAR.sub.2-deficient mice were used to study the impact of PAR.sub.2 expression on colon epithelial cell culture and gene expression. Results Colonoids from female mice were more abundant and larger compared to males, and these differences were further increased after PAR.sub.2 activation by specific PAR.sub.2 agonist peptide. The proliferation of male epithelial cells was lower compared to females but was specifically increased in PAR.sub.2 knockout male cells. PAR.sub.2 expression was higher in male colon cells compared to females and controlled the gene expression and activation of key negative signals of the primitive cell proliferation. This PAR.sub.2-dependent brake on the proliferation of male colon primitive cells was correlated with stress resistance. Conclusions Altogether, these data demonstrate that there is a sexual dimorphism in the PAR.sub.2-dependent regulation of primitive cells of the colon crypt. Keywords: Colon primitive cells, Sexual dimorphism, Protease-activated receptor
Prenatal stress is associated with a high risk of developing adult intestinal pathologies, such as irritable bowel syndrome, chronic inflammation, and cancer. Although epithelial stem cells and ...progenitors have been implicated in intestinal pathophysiology, how prenatal stress could impact their functions is still unknown. We have investigated the proliferative and differentiation capacities of primitive cells using epithelial crypts isolated from colons of adult male and female mice whose mothers have been stressed during late gestation. Our results show that stem cell/progenitor proliferation and differentiation in vitro are negatively impacted by prenatal stress in male progeny. This is promoted by a reinforcement of the negative proliferative/differentiation control by the protease-activated receptor 2 (PAR2) and the muscarinic receptor 3 (M3), two G protein-coupled receptors present in the crypt. Conversely, prenatal stress does not change in vitro proliferation of colon primitive cells in female progeny. Importantly, this maintenance is associated with a functional switch in the M3 negative control of colonoid growth, becoming proliferative after prenatal stress. In addition, the proliferative role of PAR2 specific to females is maintained under prenatal stress, even though PAR2-targeted stress signals Dusp6 and activated GSK3β are increased, reaching the levels of males. An epithelial serine protease could play a critical role in the activation of the survival kinase GSK3β in colonoids from prenatally stressed female progeny. Altogether, our results show that following prenatal stress, colon primitive cells cope with stress through sexually dimorphic mechanisms that could pave the way to dysregulated crypt regeneration and intestinal pathologies.
Primitive cells isolated from mouse colon following prenatal stress and exposed to additional stress conditions such as in vitro culture, present sexually dimorphic mechanisms based on PAR2- and M3-dependent regulation of proliferation and differentiation. Whereas prenatal stress reinforces the physiological negative control exerted by PAR2 and M3 in crypts from males, in females, it induces a switch in M3- and PAR2-dependent regulation leading to a resistant and proliferative phenotype of progenitor.
Abstract only
Alterations of gut microbiota have been implicated in a broad variety of intestinal diseases. The mechanisms whereby this may occur remains elusive. Gut mucosal microbiota is naturally ...organized as a polymicrobial biofilm, separated from the intestinal epithelium by a sterile mucus layer. We recently discovered that intestinal epithelium releases active thrombin, which plays a key role in segregation of intestinal biofilms from host tissue. Furthermore, we detected an upregulation of active thrombin in inflamed human patients and in models of colitis.
Objectives
Our study objective was to determine whether exposure to high thrombin, such as this occurring during inflammation, will alter commensal microbiota biofilms and promote the dispersion of bacteria predisposed to damage the intestinal epithelium.
Methods
Microbiota extracted from healthy human colon biopsies were seeded into the Calgary Biofilm Device and polystyrene coupons to develop, a multispecies anaerobic biofilm. Biofilms were exposed to various concentrations of thrombin (10 to 1000 Unit/ml). Dispersed bacteria released from thrombin‐treated biofilms were collected and their composition was assessed by 16S sequencing. These bacteria were apically exposed to human epithelial monolayers on transwells (Caco2 and HT29MTX). Adhesion (90 minutes), invasion (gentamicin assay, 3 hours) and translocation (4 hours) to basolateral side was quantified by plating on agar. Transwells were processed for fluorescent
in situ
hybridization for bacteria staining and phalloidin antibody for host cell cytoskeleton. Motility phenotype of biofilmdispersed bacteria was assessed on soft agarose gels (swarming and swimming). Mice (B6) were treated intracolonically with thrombin (5U per day for 10 days) or boiled thrombin (similar dose). Rats (Wistar) were treated with TNBS to induce colitis, and were treated for 3 days intracolonically with dabigatran (thrombin inhibitor, 1 μg/kg) or vehicle.
Results
Biofilm‐dispersed bacteria from thrombin‐treated biofilms attached more importantly to the epithelial monolayers compared to untreated biofilm. 3D reconstruction images confirmed such thrombin‐induced phenotype. Thrombin alters swarming and swimming motility in soft agarose gel. 16S analysis further precise the specific composition of biofilm‐dispersed bacteria after thrombin exposure. In mice, intrarectal administration of thrombin caused alterations of gut microbiota biofilms structure (16S sequencing) and organization ( in situ imaging of gut microbiota). During colitis in rats, local inhibition of thrombin activity prevented gut microbiota biofilms alterations associated with colitis (in situ imaging of gut microbiota and 16S analysis).
Conclusions
These data suggest that high concentration of thrombin released at gut mucosal surface during inflammation alters gut biofilm organization and modifies the phenotype of biofilm‐dispersed bacteria, which were able to invade and cross the epithelial barrier, thus increasing their likelihood to trigger inflammatory flares.
Chymotrypsin is a pancreatic protease secreted into the lumen of the small intestine to digest food proteins. We hypothesized that chymotrypsin activity may be found close to epithelial cells and ...that chymotrypsin signals to them via protease-activated receptors (PARs). We deciphered molecular pharmacological mechanisms and gene expression regulation for chymotrypsin signalling in intestinal epithelial cells.
The presence and activity of chymotrypsin were evaluated by Western blot and enzymatic activity tests in the luminal and mucosal compartments of murine and human gut samples. The ability of chymotrypsin to cleave the extracellular domain of PAR1 or PAR2 was assessed using cell lines expressing N-terminally tagged receptors. The cleavage site of chymotrypsin on PAR1 and PAR2 was determined by HPLC-MS analysis. The chymotrypsin signalling mechanism was investigated in CMT93 intestinal epithelial cells by calcium mobilization assays and Western blot analyses of (ERK1/2) phosphorylation. The transcriptional consequences of chymotrypsin signalling were analysed on colonic organoids.
We found that chymotrypsin was present and active in the vicinity of the colonic epithelium. Molecular pharmacological studies have shown that chymotrypsin cleaves both PAR1 and PAR2 receptors. Chymotrypsin activated calcium and ERK1/2 signalling pathways through PAR2, and this pathway promoted interleukin-10 (IL-10) up-regulation in colonic organoids. In contrast, chymotrypsin disarmed PAR1, preventing further activation by its canonical agonist, thrombin.
Our results highlight the ability of chymotrypsin to signal to intestinal epithelial cells via PARs, which may have important physiological consequences in gut homeostasis.
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•Five new daphnane-type diterpenes were isolated from the latex of Hura crepitans.•Huratoxin and epoxy-huratoxin induced growth inhibition on colorectal cancer cells.•PKCζ is involved ...in cytostatic and morphological activities of tested daphnanes.•Huratoxin and epoxy-huratoxin inhibit the growth of an ex vivo model of CRC.
Hura crepitans L. (Euphorbiaceae) is a thorn-covered tree widespread in South America, Africa and Asia which produces an irritating milky latex containing numerous secondary metabolites, notably daphnane-type diterpenes known as Protein Kinase C activators. Fractionation of a dichloromethane extract of the latex led to the isolation of five new daphnane diterpenes (1–5), along with two known analogs (6–7) including huratoxin. Huratoxin (6) and 4′,5′-epoxyhuratoxin (4) were found to exhibit significant and selective cell growth inhibition against colorectal cancer cell line Caco-2 and primary colorectal cancer cells cultured as colonoids. The underlying mechanism of 4 and 6 was further investigated revealing the involvement of PKCζ in the cytostatic activity.
Abstract only
Background
Current therapies for Inflammatory Bowel Disease (IBD) are unsatisfactory for proper tissue healing. Serine proteases belong to locally produced host factors that can fuel ...inflammatory processes in tissue from IBD patients, in part through activation of Protease‐Activated Receptors (PAR). We have recently discovered that intestinal epithelium was able to produce active thrombin, suggesting that mucosa itself could be an important source of high thrombin in IBD.
Objectives
We first aimed to determine whether mucosal thrombin was upregulated in animal models of colitis and in tissues from IBD patients. We then determined whether local thrombin upregulation could contribute to local tissue malfunctions. Finally, we evaluated therapeutic feasibility of local delivering of either direct thrombin inhibitors or PAR antagonist in animal models of colitis.
Methods
Colonic tissue samples were obtained from diagnosed IBD patients undergoing colonoscopy at the Toulouse Hospital. Colitis was induced by administering trinitrobenzene sulfonic acid (TNBS) in the colon of Wistar rats or C57Bl6 mice. Human tissue collection and animal procedures received ethical approval from local ethic committees. Thrombin (100 U/ml, 10 days), direct thrombin inhibitor (dabigatran, 1 μg/kg, 4 days) and PAR1 antagonist (Vorapaxar, 2.5 mg/kg, 7 days) were administered in the colon of healthy or TNBS animals under light anesthesia. At time of the sacrifice, colonic tissues were harvested and disease severity was assessed. Thrombin expression was detected using PCR, western blot and immunofluorescence. Thrombin activity was quantified in tissue supernatants using specific enzymatic assays.
Results
We confirmed an increased thrombin protein expression in human mucosal tissue by immunofluorescence and western blots. We found that some, but not all, forms of active thrombin were upregulated, particularly in tissues from Crohn’s disease patients. As observed in human, we found that increased thrombin mRNA expression and activity is also a feature of colitis in animal models of colitis. We demonstrated
in vivo
that colonic exposure to high dose of active thrombin can cause mucosal damage and tissue dysfunctions. Specific inhibition of thrombin activity, and PAR1 antagonists prevent some intestinal damage in TNBS colitis.
Conclusions
In this study, using both animal models and human IBD tissues, we showed that upregulation of mucosal thrombin alone can lead to inflammatory insults. We propose that targeting downstream events from high thrombin activity, rather than inhibiting thrombin directly, might be a better option for IBD because mucosal thrombin at low dose plays an important role on maintaining tissue homeostasis. Considering these promising preclinical results on PAR1 antagonist, future clinical studies in IBD patients could therefore be rapidly envisioned, particularly in patients with the strongest upregulation of thrombin activity.
Imbalance between proteases and their inhibitors plays a crucial role in the development of Inflammatory Bowel Diseases (IBD). Increased elastolytic activity is observed in the colon of patients ...suffering from IBD. Here, we aimed at identifying the players involved in elastolytic hyperactivity associated with IBD and their contribution to the disease. We revealed that epithelial cells are a major source of elastolytic activity in healthy human colonic tissues and this activity is greatly increased in IBD patients, both in diseased and distant sites of inflammation. This study identified a previously unrevealed production of elastase 2A (ELA2A) by colonic epithelial cells, which was enhanced in IBD patients. We demonstrated that ELA2A hyperactivity is sufficient to lead to a leaky epithelial barrier. Epithelial ELA2A hyperactivity also modified the cytokine gene expression profile with an increase of pro-inflammatory cytokine transcripts, while reducing the expression of pro-resolving and repair factor genes. ELA2A thus appears as a novel actor produced by intestinal epithelial cells, which can drive inflammation and loss of barrier function, two essentials pathophysiological hallmarks of IBD. Targeting ELA2A hyperactivity should thus be considered as a potential target for IBD treatment.
Abstract
Background and Aims
Thrombin levels in the colon of Crohn’s disease patients have recently been found to be elevated 100-fold compared with healthy controls. Our aim was to determine whether ...and how dysregulated thrombin activity could contribute to local tissue malfunctions associated with Crohn’s disease.
Methods
Thrombin activity was studied in tissues from Crohn’s disease patients and healthy controls. Intracolonic administration of thrombin to wild-type or protease-activated receptor-deficient mice was used to assess the effects and mechanisms of local thrombin upregulation. Colitis was induced in rats and mice by the intracolonic administration of trinitrobenzene sulphonic acid.
Results
Active forms of thrombin were increased in Crohn’s disease patient tissues. Elevated thrombin expression and activity were associated with intestinal epithelial cells. Increased thrombin activity and expression were also a feature of experimental colitis in rats. Colonic exposure to doses of active thrombin comparable to what is found in inflammatory bowel disease tissues caused mucosal damage and tissue dysfunctions in mice, through a mechanism involving both protease-activated receptors -1 and -4. Intracolonic administration of the thrombin inhibitor dabigatran, as well as inhibition of protease-activated receptor-1, prevented trinitrobenzene sulphonic acid-induced colitis in rodent models.
Conclusions
Our data demonstrated that increased local thrombin activity, as it occurs in the colon of patients with inflammatory bowel disease, causes mucosal damage and inflammation. Colonic thrombin and protease-activated receptor-1 appear as possible mechanisms involved in mucosal damage and loss of function and therefore represent potential therapeutic targets for treating inflammatory bowel disease.
Sexual dimorphism in biological responses is a critical knowledge for therapeutic proposals. However, gender differences in intestinal stem cell physiology have been poorly studied. Given the ...important role of the protease-activated receptor PAR
in the control of colon epithelial primitive cells and cell cycle genes, we have performed a sex-based comparison of its expression and of the effects of PAR
activation or knockout on cell proliferation and survival functions.
Epithelial primitive cells isolated from colons from male and female mice were cultured as colonoids, and their number and size were measured. PAR
activation was triggered by the addition of SLIGRL agonist peptide in the culture medium. PAR
-deficient mice were used to study the impact of PAR
expression on colon epithelial cell culture and gene expression.
Colonoids from female mice were more abundant and larger compared to males, and these differences were further increased after PAR
activation by specific PAR
agonist peptide. The proliferation of male epithelial cells was lower compared to females but was specifically increased in PAR
knockout male cells. PAR
expression was higher in male colon cells compared to females and controlled the gene expression and activation of key negative signals of the primitive cell proliferation. This PAR
-dependent brake on the proliferation of male colon primitive cells was correlated with stress resistance.
Altogether, these data demonstrate that there is a sexual dimorphism in the PAR
-dependent regulation of primitive cells of the colon crypt.