Novel in vitro models for pathogen detection based on organic transistors integrated with living cells.

Tria, Scherrine

18 October 2013

In biological systems, different tissues have evolved to form a barrier. An example is the intestinal epithelium, consisting of a single layer of cells lining the wall of the stomach and colon. It restricts the passage of harmful chemicals or pathogens from the light into the tissue, while selectively absorbing the most nutrients, electrolytes and water are necessary for the host. Tight junctions are structures which limit the passage of the material through the space between the cells. The ability to measure the paracellular and transcellular transport is of vital importance because it provides a wealth of information on the state of the barrier, indicative of certain disease states , since the disruption or malfunction of the structures involved in the transport through the tissue barrier is often caused or is indicative of toxicity or disease. In addition, the degree of integrity of the barrier is a key indicator of the relevance of a particular model in vitro for use in toxicology and drug screening. The advent of organic electronics has created a unique opportunity to connect the worlds of electronics and biology, using devices such as organic electrochemical transistor (OECT), which provides a very sensitive way to detect ionic currents. These devices have unprecedented sensitivity in a format that can be mass produced at low cost.The purpose of this study was to integrate a monolayer of cells representative of the gastro intestinal barrier with OECTs , to create devices that detect disruptions of the barrier in a timely and sensitive manner. This technique was demonstrated to be at least as sensitive, but a higher speed than current techniques on the market

[SPI:OTHER] Engineering Sciences/Other

Organic bioelectronics

Toxicology

Barrier tissue

Tight junctions

Paracellular transport

The design of novel nano-sized polyanion-polycation complexes for oral protein delivery

Khan, Ambreen Ayaz

January 2014

Introduction Oral delivery of proteins faces numerous challenges due to their enzymatic susceptibility and instability in the gastrointestinal tract. In recent years, the polyelectrolyte complexes have been explored for their ability to complex protein and protect them against chemical and enzymatic degradation. However, most of the conventional binary polyelectrolyte complexes (PECs) are formed by polycations which are associated with toxicity and non-specific bio-interactions. The aim of this thesis was to prepare a series of ternary polyelectrolyte complexes (APECs) by introduction of a polyanion in the binary complexes to alleviate the aforementioned limitations. Method Eight non-insulin loaded ternary complexes (NIL APECs) were spontaneously formed upon mixing a polycation [polyallylamine (PAH), palmitoyl grafted-PAH (Pa2.5), dimethylamino-1-naphthalenesulfonyl grafted-PAH (Da10) or quaternised palmitoyl-PAH (QPa2.5)] with a polyanion [dextran sulphate (DS) or polyacrylic acid (PAA)] at 2:1 ratio, in the presence of ZnSO4 (4μM). A model protein i.e., insulin was added to a polycation, prior to addition of a polyanion and ZnSO4 to form eight insulin loaded (IL) APECs. PECs were used as a control to compare APECs. The complexes were characterised by dynamic light scattering (DLS) and transmission electron microscope (TEM). In vitro stability of the complexes was investigated at pH (1.2-7.4), temperature (25˚C, 37˚C and 45˚C) and ionic strength (NaCl-68mM, 103mM and 145mM). Insulin complexation efficiency was assessed by using bovine insulin ELISA assay kit. The in vitro cytotoxicity was investigated on CaCo2 and J774 cells by MTT (3-4,5 dimethyl thialzol2,5 diphenyl tetrazolium bromide) assay. All complexes were evaluated for their haemocompatibility by using haemolysis assay, oxidative stress by reactive oxygen species (ROS) assay and immunotoxicity by in vitro and in vivo cytokine generation assay. The potential of the uptake of complexes across CaCo2 cells was determined by flow cytometry and fluorescent microscopy. The underlying mechanism of transport of complexes was determined by TEER measurement, assessment of FITC-Dextran and insulin transport across CaCo2 cells. 15 Results NIL QPa2.5 APECs (except IL QPa2.5-DS) exhibited larger hydrodynamic sizes (228-468nm) than all other APECs, due to the presence of bulky quaternary ammonium moieties. QPa2.5 APECs exhibited lower insulin association efficiency (≤40%) than other APECs (≥55%) due to a competition between the polyanion and insulin for QPa2.5 leading to reduced association of insulin in the complexes. DS based APECs generally offered higher insulin association efficiency (≥75%) than PAA based APECs (≤55%) due to higher molecular weight (6-10kDa) of DS. In comparison to other complexes, Pa2.5 PECs and APECs were more stable at varying temperature, ionic strength and pH due to the presence of long palmitoyl alkyl chain (C16) which reduced the chain flexibility and provided stronger hydrophobic association. The cytotoxicity of polycations on CaCo2 and J774 cells is rated as PAH>Da10=Pa2.5>QPa2.5. The introduction of PAA in Pa2.5 and Da10 brought most significant improvement in IC50 i.e., 14 fold and 16 fold respectively on CaCo2 cells; 9.3 fold and 3.73 fold respectively on J774 cells. In comparison to other complexes, Da10 (8mgml-1) induced higher haemolytic activity (~37%) due to a higher hydrophobic load of 10 percent mole grafting of dansyl pendants. The entire range of APECs displayed ≤12% ROS generation by the CaCo2 cells. The degree of in vitro TNFα production (QPa2.5≥Da10≥Pa2.5=PAH) and in vitro IL-6 generation (QPa2.5≥Pa2.5=PAH≥Da10) by J774 cells established an inverse relationship of cytotoxicity with the cytokine generation. Similar to MTT data, the introduction of PAA in APECs brought more significant reduction in in vitro cytokine secretion than DS based APECs. Pa2.5-PAA brought the most significant reduction in both in vitro and in vivo cytokine generation. All the formulations were able to significantly reduce original TEER, however did not demonstrate appreciable paracellular permeation of a hydrophilic macromolecular tracer of paracellular transport i.e., FITC Dextran. The uptake study revealed internalisation of APECs predominantly by a transcellular route. Transcellular uptake of IL QPa2.5 (≤73%), IL QPa2.5-DS (67%) was higher than their NIL counterparts, whereas the uptake of NIL Pa2.5 (≤89%), NIL Pa2.5-PAA (42%) was higher than their IL counterparts. Conclusion In essence, amphiphilic APECs have shown polyanion dependent ability to reduce polycation associated toxicity and they are able to facilitate transcellular uptake of insulin across CaCo2 cells.

615.1

L’entérotoxine STb d’Escherichia coli affecte les jonctions serrées des cellules intestinales épithéliales

Ngendahayo Mukiza, Clément

08 1900

La toxine thermostable d’E.coli (STb) est une cause de diarrhée chez l’homme et l’animal. STb se lie au sulfatide, son récepteur, puis s’internalise. Dans le cytoplasme, par une cascade d’événements, STb déclenche l’ouverture des canaux ioniques permettant la sécrétion des ions et la perte d’eau menant à la diarrhée. Les jonctions serrées forment une barrière physique intercellulaire dans les cellules épithéliales intestinales, contrôlant ainsi le flux paracellulaire des ions et de l’eau. Les jonctions serrées sont affectées par divers pathogènes et par leurs toxines. À ce jour, l’effet de STb sur les jonctions serrées n’a pas été étudié. L’étude entreprise visait à explorer l’effet de STb sur les jonctions serrées et la barrière épithéliale des cellules intestinales. Des cellules épithéliales intestinales du colon humain (T84) ont été traitées pendant 24h soit avec la toxine STb purifiée soit avec une souche d’E.coli exprimant STb. La résistance transépithéliale (TER), le flux de marqueurs paracellulaires et la microscopie confocale ont été utilisés pour analyser les effets de STb sur les jonctions serrées. Les monocouches traitées par la souche E.coli exprimant STb et la toxine STb purifiée ont manifesté une forte réduction de TER (p<0.0001) parallèlement à une augmentation significative de la perméabilité paracellulaire à l’Albumine de Sérum Bovin marqué avec l’IsoThioCyanate Fluoroscéine, BSA-FITC (p<0.0001) comparativement aux cellules non traitées et aux cellules traitées par une souche d’E.coli commensale non-toxinogène. L’augmentation de la perméabilité paracellulaire induite par STb a été associée à une dissolution générale et une condensation des fibres de stress centrales des filaments d’actine. Le réarrangement des filaments d’actine a été accompagné par une redistribution et une fragmentation des protéines des jonctions serrées dont l’occludine, la claudine-1 et la Zonula Occludens-1. Les mêmes modifications on été observées après l’intoxication des cellules T84 avec un octapeptide synthétique retrouvé dans la séquence de STb correspondant à une séquence consensus de la toxine ZOT de Vibrio cholerae, impliquée dans la réorganisation des jonctions serrées. Cet effet n’a pas été observé lorsque les cellules ont été traitées avec un octapeptide synthétique comportant les mêmes acides aminés mais distribués de façon aléatoire ou avec la toxine mutée (D30V). Nos résultats montrent pour la première fois que STb induit le dysfonctionnement de la barrière épithéliale intestinale en modifiant la distribution des protéines des jonctions serrées. Ces résultats ouvrent une nouvelle voie pour la compréhension de la pathogenèse de diarrhée causée par la toxine STb. / Escherichia coli heat-stable toxin (STb) causes diarrhea in Man and animals. STb binds to sulfatide, its receptor, followed by its internalization. Inside the cytoplasm, through a cascade of events, STb triggers the opening of ion channels allowing ion secretion and water loss leading to diarrhea. Tight junctions (TJs) are well known for controlling paracellular traffic of ions and water by forming a physical intercellular barrier in epithelial cells. Some bacterial toxinz are known to affect adversibly TJs. To date, the impact of STb on TJs has not been investigated. The present study aimed to explore the effect of STb on TJs and the barrier function in intestinal epithelial cells. Human colon intestinal epithelial cells (T84) were treated for 24h with either purified STb toxin or an E. coli strains expressing STb. TransEpithelial Resistance (TER), paracellular flux marker and confocal microscopy were used to analyze the effect of STb toxin on TJs. An E. coli strains expressing STb as well as purified STb caused a significant reduction of TER (p<0.0001) parallely to an increase in paracellular permeability to BSA-FITC (p<0.0001) compared to untreated cells or a commensal non toxinogenic E.coli strain. The increased paracellular permeability induced by STb was associated with a marked general dissolution and condensation of central F-actin stress fibers. F-actin disorganisation was accompanied by redistribution and fragmentation of occludin, claudin-1 and ZO-1 (Zonula Occludens-1) proteins. These changes were also observed following intoxication of T84 cells with an 8 amino acids peptide found in the STb sequence corresponding to a consensus sequence of Vibrio cholerae Zot toxin, shown to be involved in TJs disassembly. This effect was not observed with the scramble peptide and D30V mutant. Our findings suggest that STb induces epithelial barrier dysfunction by changes in tight junction proteins that could contribute to the observed diarrhea. These results provide new insight into the diarrhea pathogenesis caused by STb.

Jonctions serrées

Cytosquelette d’actine

Résistance transépithéliale

Diarrhée

Perméabilité paracellulaire

Escherichia coli

Sécrétion

Toxine STb

Tight junctions

Actin cytoskeleton

Transepithelial resistance

Diarrhea

Paracellular permeability

Escherichia coli

Secretion

STb toxin

Experimentelle und klinische Untersuchung des Einflusses von Prä- und Probiotika auf bakterielle Translokation und postoperative Infektionen nach abdominalchirurgischen Eingriffen

Rayes, Nada

28 May 2004

In der vorliegenden Arbeit wurde der Einfluss von Prä- und Probiotika auf bakterielle Translokation (BT) und postoperative Infektionen nach großen viszeralchirurgischen Eingriffen untersucht. Dabei wurde aus methodischen Gründen zunächst BT nach Leber- (LR) und Colonresektion (CR) allein oder in Kombination experimentell im Rattenmodell quantifiziert und deren potentielle Pathomechanismen untersucht. Anschließend wurde der Einfluss von einzelnen Probiotika und einer Kombination verschiedener Probiotika und Präbiotika auf die Inzidenz bakterieller Infektionen nach Lebertransplantation (LTX) und pyloruserhaltender Pankreaskopfresektion (PPPD) in zwei prospektiv randomisierten klinischen Studien analysiert. Im experimentellen Teil der Untersuchungen wurde BT nach LR vor allem in Leber und Milz, nach CR hauptsächlich in mesenterialen Lymphknoten (MLK) und Milz nachgewiesen. Kombination von LR und CR führte zu einer Potenzierung der BT, parallel zum Ausmaß der LR. Durch Gabe von Probiotika wurde die Konzentration von Bakterien in den MLK signifikant gesenkt. Tiere mit einer hohen coecalen Laktobazillenkonzentration hatten eine signifikant niedrigere bakterielle Konzentration in allen untersuchten Organen als Tiere mit weniger Laktobazillen. CR führten zu einer Zunahme der coecalen gramnegativen Bakterienkonzentration und zu einer Abnahme der Laktobazillen. Histologische Veränderungen der Darmmukosa wurden nicht beobachtet. Die parazelluläre Permeabilität für Ionen, nicht aber für die höhermolekulare Laktulose war im Colon in allen Gruppen im Vergleich zur Kontrollgruppe erhöht. Probiotika beeinflussten die Zusammensetzung der coecalen Flora und damit auch die BT. In der ersten klinischen Studie verminderte postoperative orale Gabe von Laktobazillus plantarum und einer ballaststoffhaltigen Ernährungslösung die Inzidenz von bakteriellen Infektionen nach LTX im Vergleich zu selektiver Darmdekontamination und ballaststofffreier Ernährung signifikant. Die Gabe von Ballaststoffen und hitzeinaktivierten Laktobazillen führte zwar auch zu einer geringen Reduktion der Infektionen; diese war jedoch nicht signifikant. In der Mehrzahl wurden enteropathogene Bakterien isoliert. Die zweite klinische Studie untersuchte den Einfluss einer Kombination von vier verschiedenen Milchsäurebakterien und vier Präbiotika auf die Inzidenz bakterieller Infektionen nach LTX und PPPD. Im Vergleich zu Präbiotika und Placebo kam es zu einer deutlichen Verminderung der Infekte, die nach LTX auch signifikant war. In beiden Studien wurde die enterale Ernährung gut vertragen mit relativ wenig Nebenwirkungen. BT tritt somit sehr häufig auch nach kleineren viszeralchirurgischen Eingriffen auf und hat organspezifisch verschiedene Ursachen. Probiotika konnten sowohl tierexperimentell die BT vermindern als auch klinisch die Inzidenz bakterieller Infektionen nach großen viszeralchirurgischen Eingriffen senken. Da sie leicht zu verabreichen sind und wenig Nebenwirkungen verursachen, könnten sie breit eingesetzt werden. / In the present study, the impact of pre- and probiotics on bacterial translocation (BT) and postoperative bacterial infection rates was assessed. Due to methodological reasons, we first quantified BT following single liver (LR) and colon resection (CR) or a combination of both and analysed potential pathogenic mechanisms for BT. Then, we performed two prospective randomised clinical studies to analyse the influence of a single probiotic strain and a combination of different pre- and probiotics on the incidence of bacterial infections in patients with liver transplantation (OLT) or pylorus preserving partial pancreatoduodenectomy (PPPD). In the rat model, BT after LR mainly occurred in the liver and spleen, after CR mainly in the mesenteric lymph nodes (MLN) and spleen. BT was increased in the animals with combined operation, in parallel to the extent of liver resection. Probiotics significantly decreased the bacterial concentration in the MLN. Animals with a high cecal concentration of lactobacilli had significantly less BT than the others. CR led to an increase of cecal gramnegative bacterial concentrations and to a decrease of lactobacilli. No histological changes were observed in the intestine. Paracellular permeability for ions, but not for the larger molecule lactulose, was increased in the colon in all groups compared to the sham group. Probiotics had an influence on cecal bacterial concentration. In the first clinical study, postoperative oral administration of Lactobacillus plantarum and a fibre-enriched enteral diet significantly decreased bacterial infection rates after OLT compared to selective bowel decontamination and a fibre-free diet. Fibre and heat-inactivated Lactobacillus also led to a slight, but not significant decrease of infections. Mainly gut-derived bacteria were isolated. The second clinical study analysed the influence of a combination of four different lactic acid bacteria and fibres on bacterial infection rates after OLT and PPPD. Compared to fibres and placebo, infection rates were significantly lower after OLT and markedly lower after PPPD. In both studies, the study substances were well tolerated without serious side effects. BT even occurs following minor abdominal surgery and is caused by different mechanisms related to the kind of operation. Probiotics were able to diminish BT in the rat model as well as to decrease bacterial infection rates following major abdominal surgery in the clinical studies. As they are easy to administer and do not cause severe side effects, they could be useful in clinical practice.

bakterielle Translokation

Leberresektion

Colonresektion

parazelluläre Permeabilität

Leberregeneration

Probiotika

Präbiotika

bakterielle Infektion

Lebertransplantation

Pankreasresektion

bacterial translocation

liver resection

colon resection

paracellular permeability

liver regeneration

bacterial infection

liver transplantation

pancreas resection

610 Medizin

33 Medizin

YI 2204

YI 2504

ddc:610

L’entérotoxine STb d’Escherichia coli affecte les jonctions serrées des cellules intestinales épithéliales

Ngendahayo Mukiza, Clément

08 1900

La toxine thermostable d’E.coli (STb) est une cause de diarrhée chez l’homme et l’animal. STb se lie au sulfatide, son récepteur, puis s’internalise. Dans le cytoplasme, par une cascade d’événements, STb déclenche l’ouverture des canaux ioniques permettant la sécrétion des ions et la perte d’eau menant à la diarrhée. Les jonctions serrées forment une barrière physique intercellulaire dans les cellules épithéliales intestinales, contrôlant ainsi le flux paracellulaire des ions et de l’eau. Les jonctions serrées sont affectées par divers pathogènes et par leurs toxines. À ce jour, l’effet de STb sur les jonctions serrées n’a pas été étudié. L’étude entreprise visait à explorer l’effet de STb sur les jonctions serrées et la barrière épithéliale des cellules intestinales. Des cellules épithéliales intestinales du colon humain (T84) ont été traitées pendant 24h soit avec la toxine STb purifiée soit avec une souche d’E.coli exprimant STb. La résistance transépithéliale (TER), le flux de marqueurs paracellulaires et la microscopie confocale ont été utilisés pour analyser les effets de STb sur les jonctions serrées. Les monocouches traitées par la souche E.coli exprimant STb et la toxine STb purifiée ont manifesté une forte réduction de TER (p<0.0001) parallèlement à une augmentation significative de la perméabilité paracellulaire à l’Albumine de Sérum Bovin marqué avec l’IsoThioCyanate Fluoroscéine, BSA-FITC (p<0.0001) comparativement aux cellules non traitées et aux cellules traitées par une souche d’E.coli commensale non-toxinogène. L’augmentation de la perméabilité paracellulaire induite par STb a été associée à une dissolution générale et une condensation des fibres de stress centrales des filaments d’actine. Le réarrangement des filaments d’actine a été accompagné par une redistribution et une fragmentation des protéines des jonctions serrées dont l’occludine, la claudine-1 et la Zonula Occludens-1. Les mêmes modifications on été observées après l’intoxication des cellules T84 avec un octapeptide synthétique retrouvé dans la séquence de STb correspondant à une séquence consensus de la toxine ZOT de Vibrio cholerae, impliquée dans la réorganisation des jonctions serrées. Cet effet n’a pas été observé lorsque les cellules ont été traitées avec un octapeptide synthétique comportant les mêmes acides aminés mais distribués de façon aléatoire ou avec la toxine mutée (D30V). Nos résultats montrent pour la première fois que STb induit le dysfonctionnement de la barrière épithéliale intestinale en modifiant la distribution des protéines des jonctions serrées. Ces résultats ouvrent une nouvelle voie pour la compréhension de la pathogenèse de diarrhée causée par la toxine STb. / Escherichia coli heat-stable toxin (STb) causes diarrhea in Man and animals. STb binds to sulfatide, its receptor, followed by its internalization. Inside the cytoplasm, through a cascade of events, STb triggers the opening of ion channels allowing ion secretion and water loss leading to diarrhea. Tight junctions (TJs) are well known for controlling paracellular traffic of ions and water by forming a physical intercellular barrier in epithelial cells. Some bacterial toxinz are known to affect adversibly TJs. To date, the impact of STb on TJs has not been investigated. The present study aimed to explore the effect of STb on TJs and the barrier function in intestinal epithelial cells. Human colon intestinal epithelial cells (T84) were treated for 24h with either purified STb toxin or an E. coli strains expressing STb. TransEpithelial Resistance (TER), paracellular flux marker and confocal microscopy were used to analyze the effect of STb toxin on TJs. An E. coli strains expressing STb as well as purified STb caused a significant reduction of TER (p<0.0001) parallely to an increase in paracellular permeability to BSA-FITC (p<0.0001) compared to untreated cells or a commensal non toxinogenic E.coli strain. The increased paracellular permeability induced by STb was associated with a marked general dissolution and condensation of central F-actin stress fibers. F-actin disorganisation was accompanied by redistribution and fragmentation of occludin, claudin-1 and ZO-1 (Zonula Occludens-1) proteins. These changes were also observed following intoxication of T84 cells with an 8 amino acids peptide found in the STb sequence corresponding to a consensus sequence of Vibrio cholerae Zot toxin, shown to be involved in TJs disassembly. This effect was not observed with the scramble peptide and D30V mutant. Our findings suggest that STb induces epithelial barrier dysfunction by changes in tight junction proteins that could contribute to the observed diarrhea. These results provide new insight into the diarrhea pathogenesis caused by STb.

Jonctions serrées

Cytosquelette d’actine

Résistance transépithéliale

Diarrhée

Perméabilité paracellulaire

Escherichia coli

Sécrétion

Toxine STb

Tight junctions

Actin cytoskeleton

Transepithelial resistance

Diarrhea

Paracellular permeability

Escherichia coli

Secretion

STb toxin

Tight Junctions - The Link Between HIV-Associated Intestinal Barrier Dysfunction and Loss of Immune Homeostasis

Chung, Charlotte Yuk-Yan

09 February 2015

No description available.

Virology

Immunology

Cellular Biology

Pharmacology

tight junction

HIV

paracellular permeability

systemic inflammation

immune activation

intestinal epithelial cells

microbial translocation

ART-treated

intestinal barrier dysfunction

transepithelial resistance

IEC - T cell interaction