The swelling pressure of bentonite and sand mixtures

Sánchez González, Sandra

January 2013

The compacted bentonites are used as buffer and backfill materials for engineering barriers for high-level nuclear waste repositories located underground. For this purpose, it is very important to evaluate the swelling characteristics of this clay. The swelling capacity is one of the most important properties of the bentonite clay. The swelling behaviour is due two mechanisms, the crystalline swelling and the osmotic swelling. These mechanisms produce an increase in the distance between the layers of montmorillonite which is one component of bentonite. The result of the swelling capacity is the swelling pressure. It has been studied in several investigations. The results of experimental tests have been collected and compared in this thesis, considering only the Na-dominant bentonite and sand and distilled water as test solution. The experimental tests show that there is only an unique relation between different bentonites in the Na-dominant bentonite and sand mixture swollen depending on its final dry density. Also, the relation between the swelling pressure and the clay void ratio shows the mechanism of the swelling pressure. On the other hand, a mechanistic model is used to predict the swelling pressure of fully saturated bentonite and sand mixture in distilled water. Firstly, it has been compared with the results of experimental tests and it should be pointed out that the model gives good predictions. In addition, the model has been used to make sensitivity analysis with different parameters of bentonite. The most important conclusions in this section show that the swelling pressure mainly depends on the distance among particles. Also, the sensitivity analyses indicate which parameters should be fitted more carefully for future studies to validate this model with different bentonites.

Engineering and Technology

Teknik och teknologier

ROLE OF ENDOTHELIN-1 IN THE REGULATION OF THE SWELLING-ACTIVATED Cl- CURRENT IN ATRIAL MYOCYTES

Deng, Wu

29 July 2009

Swelling-activated Cl- current (ICl,swell) is an outwardly rectifying Cl- current that influences cardiac electric activities and acts as a potential effector of mechanoelectrical feedback that antagonizes the effects of stretch-activated cation channels. Persistent activation of ICl,swell has been observed in multiple models of cardiovascular diseases. Previously we showed that angiotensin II (AngII) signaling and reactive oxygen species (ROS) produced by NADPH oxidase (NOX) are involved in the activation of ICl, swell by both beta1-integrin stretch and osmotic swelling. Because endothelin-1 (ET-1) is a potential downstream mediator of AngII and ETA receptor blockade abrogates AngII-induced ROS generation, we studied how ET-1 signaling regulates ICl,swell and the relationship between AngII and ET-1 signaling. Under isosmotic conditions, ET-1 elicited an outwardly rectifying Cl- current that was fully blocked by the highly selective ICl,swell inhibitor DCPIB and by osmotic shrinkage. Selective ETA blockade (BQ123), but not ETB blockade (BQ788), fully suppressed the ET-1-induced current. ET-1-induced ICl,swell was abolished by blockade of EGFR kinase (AG1478) and PI-3K inhibitors (LY294002 and wortmannin), which also suppress beta1-integrin stretch- and swelling-induced ICl,swell. ET-1-induced ICl,swell was abrogated by ebselen, a membrane-permeant glutathione peroxidase mimetic that dismutates H2O2 to H2O, suggesting that ROS were required intermediates in ET-1-induced activation of ICl,swell. Both NOX and mitochondria are important sources of ROS in cardiomyocytes. Blocking NOX with apocynin or mitochondrial complex I with rotenone both completely suppressed ET-1-induced ROS generation and activation of ICl,swell, indicating that ROS from both NOX and mitochondria were required to activate ICl,swell, and complete block by inhibitors of either ROS source suggests mitochondrial and NOX must act in series rather than in parallel. ICl,swell elicited by antimycin A, which stimulates superoxide production by mitochondrial complex III, was insensitive to NOX inhibitor apocynin and the NOX fusion peptide inhibitor gp91ds-tat. Activation of ICl,swell induced by diazoxide, which stimulates mitochondrial ROS production by opening mitochondrial KATP channels, was not affected by gp91ds-tat. These data suggests that mitochondrial ROS is downstream from NOX in the regulation of ICl,swell. Mitochondrial ROS production that is enhanced by NOX ROS is likely to be responsible for the activation of ICl,swell by ET-1. In order to determine the role of ERK in the proposed signaling pathway that regulates ICl,swell, we examined the effect of ERK inhibitors (PD 98059 and U0216) on the activation of ICl,swell elicited by ET-1, EGF, and H2O2. ERK inhibitors partially blocked ET-1-induced ICl,swell but fully inhibited activation of ICl,swell in response to EGF. However, ERK inhibitors did not affect ICl,swell elicited by exogenous H2O2. We also established the the relationship of ET-1 to AngII and osmotic swelling in the regulation of ET-1 ICl,swell. ETA blockade abolished ICl,swell elicited by both AngII and osmotic swelling, whereas AT1 blockade did not effect ET-1-induced ICl,swell, suggesting that ET-1 signaling is downstream from AngII and osmotic swelling. HL-1 cell is a murine atrial cell line that retain phenotypic characteristics of adult cardiomyocytes. We showed that osmotic swelling and ET-1 turned on DCPIB-sensitive outwardly rectifying Cl- current in HL-1 cells with both physiological and symmetrical Cl- gradients. The swelling-induced current was suppressed by gp91ds-tat and rotenone but insensitive to apocynin. Blockade of ETA receptor (BQ123) and NOX (gp91ds-tat) completely inhibited ET-1-induced ICl,swell in HL-1 cells. These data indicate that ICl,swell is present in HL-1 cell and regulated by similar mechanisms as in native cells. Finally, we confirmed the production of ROS by ET-1 signaling by flow cytometry of HL-1 cells using the nominally H2O2-selective fluorescent probe C H2DCFDA-AM. Exposure to ET-1 increased ROS production, as did H2O2, a positive control. ET-1-induced ROS production was fully suppressed by both gp91ds-tat and rotenone. HL-1 cell ROS production also was stimulated by the mitochondrial complex III inhibitor antimycin A, and antimycin A-induced ROS production was blocked by rotenone but not by gp91ds-tat. These data suggest that ET-1 ETA receptor signaling elicits ICl,swell by sequentially stimulating ROS production by NOX and mitochondria. ETA receptor signaling is down stream from AngII in the osmotic swelling-induced activation of ICl,swell and is upstream from EGFR kinase and PI-3K. Endothelin signaling is likely to be an important means of activating ROS production and ICl,swell in a variety of cardiovascular diseases.

ion channels

endothelin

reactive oxygen species

NADPH oxidase

mitochondria

cardiac myocytes

osmotic swelling

chloride channels

atrial myocytes

HL-1 cells

Life Sciences

Physiology

Funktionelle Analyse des keimzellspezifischen Gens ADAM 27 / Functional analysis of germ cell specific gene ADAM 27

Baldauf, Christian

11 July 2011

No description available.

610 Medizin, Gesundheit

Medicine

ADAM 27

Infertilität

knockout

transgen

hypoosmotischer Schwelltest

Rescue-Experiment

Spermatozyten-Sertolizellinteraktion

ADAM 27

infertility

knock out

transgene

hypo-osmotic swelling test

rescue-experiment

sperm-sertolicell-interaction

42.64

44.48

MED 301: Humangenetik

Rôle des facteurs physico-chimiques du micro-environnement intestinal et des boucles inter-hélicales du Domaine I dans l’activité de la toxine insecticide Cry9Ca du bacille de Thuringe

Brunet, Jean-Frédéric

11 1900

Une fois ingérées par un insecte sensible, les toxines insecticides du bacille de Thuringe doivent être activées par les protéases intestinales de cet insecte. Leur premier domaine, un ensemble de sept hélices-α amphipathiques, est responsable de leur insertion dans la membrane luminale de certaines cellules de l’intestin médian, ce qui crée des pores peu sélectifs. La toxicité et la capacité à former des pores d’une telle toxine, la Cry9Ca, de ses mutants simples R164A et R164K et d’un fragment de 55 kDa résultant d’un clivage protéolytique au niveau de son résidu 164 ont été étudiées à l’aide d’une combinaison de modélisation par homologie, de bioessais, d’expériences de gonflement osmotique avec des vésicules de membrane en bordure en brosse de larves de sphinx du tabac et de mesures électrophysiologiques sur des intestins isolés. Ni les mutations simples ni le clivage protéolytique n’ont altéré la toxicité de la Cry9Ca. Dans une solution à faible force ionique, toutefois, la formation des pores dépend fortement du pH : une augmentation de celui-ci de 6,5 à 10,5 a entraîné une baisse irrégulière et par étapes successives de la perméabilité membranaire. Les quatre préparations de toxine ont néanmoins dépolarisé la membrane apicale d’intestins médians fraîchement isolés baignant dans une solution contenant 122 mM de KCl à pH 10,5. L’activité de la Cry9Ca, et des mutants R164A et R164K, a été grandement stimulée lorsque les expériences ont été effectuées en présence de suc intestinal, de lipides extraits d’un volume équivalent de suc intestinal ou d’un cocktail d’inhibiteurs de protéases solubles dans l’eau. De plus, le rôle des boucles inter-hélicales du Domaine I lors de l’insertion dans la membrane a été étudié avec des mutants doubles de la Cry9Ca dont les mutations introduisaient, neutralisaient ou renversaient une charge électrique. À l’exception de trois d’entres eux, tous ces mutants ont conservé une toxicité et une capacité à former des pores comparables à celles de la toxine parentale. L’ensemble de ces résultats suggère que le micro-environnement de l’intestin médian contribue à minimiser l’influence des charges de surface portées par les résidus des boucles inter-hélicales du Domaine I sur la capacité des toxines du bacille de Thuringe à former des pores. Il indique aussi que, d’une part, selon le site de clivage et les conditions expérimentales utilisées, des protéolyses supplémentaires de la toxine Cry9Ca activée peuvent soit stimuler, soit nuire à son activité et que, d’autre part, le suc intestinal du sphinx du tabac contient probablement un inhibiteur de protéases qui pourrait jouer un rôle important dans l’activité des toxines du bacille de Thuringe. / Once ingested by susceptible insects, Bacillus thuringiensis insecticidal toxins must be activated by the insect’s intestinal proteases. Their first domain, a bundle of seven amphipathic -helices, is responsible for their insertion into the luminal membrane of midgut cells, thereby creating poorly selective pores. The toxicity and pore-forming ability of one such toxin, Cry9Ca, its single-site mutants, R164A and R164K, and of the 55-kDa fragment resulting from its proteolytic cleavage at residue 164 were investigated using a combination of homology modeling, bioassays, osmotic swelling experiments with Manduca sexta larval midgut brush border membrane vesicles and electrophysiological measurements on isolated midguts. Neither the single mutations nor the proteolytic cleavage altered Cry9Ca toxicity. In low ionic strength solutions however, pore formation was highly dependent on pH: increasing pH from 6.5 to 10.5 resulted in an irregular step-wise decrease in membrane permeabilization. All four toxin preparations nevertheless depolarized the apical membrane of freshly isolated midguts bathing in a solution containing 122 mM KCl at pH 10.5. The activity of Cry9Ca, R164A and R164K was greatly enhanced when the experiments were conducted in the presence of midgut juice, the lipids extracted from an equivalent volume of midgut juice or a cocktail of water-soluble protease inhibitors. Additionally, the role of the interhelical loops of Domain I in membrane insertion was investigated with Cry9Ca double mutants with mutations that either introduced, neutralized or reversed an electrical charge. All but three mutants retained a toxicity and a pore-forming ability that were comparable to those of their parental toxin. Overall, the results suggest that the midgut microenvironment contributes to minimizing the influence of surface charges carried by Domain I interhelical loop residues on B. thuringiensis toxins pore-forming ability. They also indicate that, depending on the cleavage site and on the experimental conditions used, further proteolysis of the activated Cry9Ca toxin can either stimulate or be detrimental to its activity and that M. sexta midgut juice probably contains protease inhibitors that could play a major role in the activity of B. thuringiensis toxins in the insect midgut.

Toxines insecticides

Formation de pores

Micro-environnement

Protéolyse

Interactions électrostatiques

Gonflement osmotique

Électrophysiologie

Modélisation par homologie

Bacillus thuringiensis

Manduca sexta

Insecticidal toxins

Pore formation

Microenvironment

Proteolysis

Electrostatic interactions

Osmotic swelling assay

Electrophysiological assay

Homology modelling

Bacillus thuringiensis

Manduca sexta

Rôle des facteurs physico-chimiques du micro-environnement intestinal et des boucles inter-hélicales du Domaine I dans l’activité de la toxine insecticide Cry9Ca du bacille de Thuringe

Brunet, Jean-Frédéric

11 1900

Une fois ingérées par un insecte sensible, les toxines insecticides du bacille de Thuringe doivent être activées par les protéases intestinales de cet insecte. Leur premier domaine, un ensemble de sept hélices-α amphipathiques, est responsable de leur insertion dans la membrane luminale de certaines cellules de l’intestin médian, ce qui crée des pores peu sélectifs. La toxicité et la capacité à former des pores d’une telle toxine, la Cry9Ca, de ses mutants simples R164A et R164K et d’un fragment de 55 kDa résultant d’un clivage protéolytique au niveau de son résidu 164 ont été étudiées à l’aide d’une combinaison de modélisation par homologie, de bioessais, d’expériences de gonflement osmotique avec des vésicules de membrane en bordure en brosse de larves de sphinx du tabac et de mesures électrophysiologiques sur des intestins isolés. Ni les mutations simples ni le clivage protéolytique n’ont altéré la toxicité de la Cry9Ca. Dans une solution à faible force ionique, toutefois, la formation des pores dépend fortement du pH : une augmentation de celui-ci de 6,5 à 10,5 a entraîné une baisse irrégulière et par étapes successives de la perméabilité membranaire. Les quatre préparations de toxine ont néanmoins dépolarisé la membrane apicale d’intestins médians fraîchement isolés baignant dans une solution contenant 122 mM de KCl à pH 10,5. L’activité de la Cry9Ca, et des mutants R164A et R164K, a été grandement stimulée lorsque les expériences ont été effectuées en présence de suc intestinal, de lipides extraits d’un volume équivalent de suc intestinal ou d’un cocktail d’inhibiteurs de protéases solubles dans l’eau. De plus, le rôle des boucles inter-hélicales du Domaine I lors de l’insertion dans la membrane a été étudié avec des mutants doubles de la Cry9Ca dont les mutations introduisaient, neutralisaient ou renversaient une charge électrique. À l’exception de trois d’entres eux, tous ces mutants ont conservé une toxicité et une capacité à former des pores comparables à celles de la toxine parentale. L’ensemble de ces résultats suggère que le micro-environnement de l’intestin médian contribue à minimiser l’influence des charges de surface portées par les résidus des boucles inter-hélicales du Domaine I sur la capacité des toxines du bacille de Thuringe à former des pores. Il indique aussi que, d’une part, selon le site de clivage et les conditions expérimentales utilisées, des protéolyses supplémentaires de la toxine Cry9Ca activée peuvent soit stimuler, soit nuire à son activité et que, d’autre part, le suc intestinal du sphinx du tabac contient probablement un inhibiteur de protéases qui pourrait jouer un rôle important dans l’activité des toxines du bacille de Thuringe. / Once ingested by susceptible insects, Bacillus thuringiensis insecticidal toxins must be activated by the insect’s intestinal proteases. Their first domain, a bundle of seven amphipathic -helices, is responsible for their insertion into the luminal membrane of midgut cells, thereby creating poorly selective pores. The toxicity and pore-forming ability of one such toxin, Cry9Ca, its single-site mutants, R164A and R164K, and of the 55-kDa fragment resulting from its proteolytic cleavage at residue 164 were investigated using a combination of homology modeling, bioassays, osmotic swelling experiments with Manduca sexta larval midgut brush border membrane vesicles and electrophysiological measurements on isolated midguts. Neither the single mutations nor the proteolytic cleavage altered Cry9Ca toxicity. In low ionic strength solutions however, pore formation was highly dependent on pH: increasing pH from 6.5 to 10.5 resulted in an irregular step-wise decrease in membrane permeabilization. All four toxin preparations nevertheless depolarized the apical membrane of freshly isolated midguts bathing in a solution containing 122 mM KCl at pH 10.5. The activity of Cry9Ca, R164A and R164K was greatly enhanced when the experiments were conducted in the presence of midgut juice, the lipids extracted from an equivalent volume of midgut juice or a cocktail of water-soluble protease inhibitors. Additionally, the role of the interhelical loops of Domain I in membrane insertion was investigated with Cry9Ca double mutants with mutations that either introduced, neutralized or reversed an electrical charge. All but three mutants retained a toxicity and a pore-forming ability that were comparable to those of their parental toxin. Overall, the results suggest that the midgut microenvironment contributes to minimizing the influence of surface charges carried by Domain I interhelical loop residues on B. thuringiensis toxins pore-forming ability. They also indicate that, depending on the cleavage site and on the experimental conditions used, further proteolysis of the activated Cry9Ca toxin can either stimulate or be detrimental to its activity and that M. sexta midgut juice probably contains protease inhibitors that could play a major role in the activity of B. thuringiensis toxins in the insect midgut.

Toxines insecticides

Formation de pores

Micro-environnement

Protéolyse

Interactions électrostatiques

Gonflement osmotique

Électrophysiologie

Modélisation par homologie

Bacillus thuringiensis

Manduca sexta

Insecticidal toxins

Pore formation

Microenvironment

Proteolysis

Electrostatic interactions

Osmotic swelling assay

Electrophysiological assay

Homology modelling

Bacillus thuringiensis

Manduca sexta