Pathogen entry mechanisms and endocytic responses to plasma membrane damage

Nygård Skalman, Lars

January 2017

Endocytosis is a fundamental cellular process by which cells transport material from the outside to the inside of the cell through the formation of membrane invaginations that bud off from the plasma membrane. This process is important for nutrient uptake, regulating cell surface receptors and the overall plasma membrane composition. Cells have several different types of endocytic pathways where clathrin- mediated endocytosis is the most studied. Importantly, pathogens and secreted virulence factors bind to cell surface receptors and hijack the endocytic pathways in order to enter host cells. Depending on their size and molecular composition, pathogens and virulence factors are thought to make use of distinct endocytic pathways into the cell. This thesis focuses on early host cell interactions with virus, bacterial membrane vesicles and a pore-forming toxin, with a particular emphasis on endocytic mechanisms and plasma membrane repair. During entry of pathogens, it is thought that interactions with specific cell surface molecules drive the recruitment of endocytic proteins to the plasma membrane. Viruses possess a very defined molecular composition and architecture, which facilitate specificity to these interactions. We found that Adenovirus 37, a human ocular pathogen, binds to αVβ1 and α3β1 integrins on human corneal epithelial cells and that this interaction is important for infection. In contrast to viruses, membrane vesicles shed from Helicobacter pylori are heterogeneous in size and molecular composition. These vesicles harbour various adhesins and toxins that may facilitate binding to the cell surface and recruitment of different endocytic pathways. We developed a quantitative internalization assay and showed that the H. pylori vesicles were internalized mainly via clathrin-mediated endocytosis but were also capable of exploiting other endocytic pathways. Damage to the plasma membrane disrupts cellular homeostasis and can lead to cell death if not repaired immediately. Although endocytic mechanisms have been shown to be important for plasma membrane repair, little is known about their specific role. Listeriolysin O (LLO) is a bacterial toxin that can form pores in the plasma membrane and disrupt cellular homeostasis. We developed a reporter system for real-time imaging of the endocytic response to LLO pore formation. We found that two clathrin-independent endocytic pathways were important for plasma membrane repair. However, they were not directly involved in removing LLO pores from the plasma membrane. Our data suggests that these endocytic systems might rather influence membrane repair by their ability to regulate the plasma membrane composition, shape and tension. In conclusion, this thesis describes how pathogens and their virulence factors make use of specific mechanisms to enter host cells as well as revealing new insights on the role of the endocytic pathways in plasma membrane repair.

Endocytosis

plasma membrane

pathogens

virus

bacterial membrane vesicles

Helicobacter pylori

adenovirus 37

listeriolysin O

pore-forming toxins

membrane repair

Cell and Molecular Biology

Cell- och molekylärbiologi

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Microbiology

Mikrobiologi

Caractérisation du co-transporteur Na+/myo-inositol SMIT2 dans les membranes en bordure en brosse de rein de lapin et d’intestin de rat

Aouameur, Rym

03 1900

Le myo-inositol (MI) est un soluté organique impliqué dans diverses fonctions physiologiques de la cellule dont la signalisation cellulaire. Il est également un osmolyte compatible reconnu. Trois co-transporteurs de type actif secondaire responsables de son absorption ont été identifiés. Deux d’entre eux sont couplés au transport du sodium (SMIT1 et SMIT2) et le troisième est couplé au transport de protons (HMIT). L’objectif de cette étude a été la caractérisation du transport du MI par SMIT2 dans des membranes en bordure en brosse (BBMv) issues du rein de lapin et de l’intestin de rat ainsi qu’après expression dans les ovocytes de Xenopus laevis. La quantification de l’ARNm de SMIT1 et de SMIT2 dans le rein nous a appris que SMIT1 est majoritairement présent dans la médullaire alors que SMIT2 est principalement localisé dans le cortex. Ces résultats ont été confirmés par immunobuvardage en utilisant un anticorps dirigé contre SMIT2. Grâce à l’inhibition sélective de SMIT1 par le L-Fucose et de SMIT2 par le D-chiro-inositol (DCI), nous avons démontré que SMIT2 semble le seul responsable du transport luminal de MI dans le tubule contourné proximal avec un Km de 57 ± 14 µM. Pour ce qui est de l’intestin, des études de transport de MI radioactif ont démontré une absence de transport de MI chez le lapin alors que l’intestin de rat présente un transport de MI très actif. Une quantification par qRT-PCR nous a permis de constater que l’intestin de lapin ne semble pas posséder les transporteurs de MI nécessaires. Comme pour le rein, SMIT2 semble le seul transporteur de MI présent au niveau du pôle apical des entérocytes intestinaux chez le rat. Il est chargé du prélèvement du MI de l'alimentation avec un Km de 150 ± 40 µM. Les analyses fonctionnelles exécutées sur SMIT2 de rat en électrophysiologie après expression dans les ovocytes de Xenopus laevis donnent sensiblement les mêmes résultats que pour les BBMv de rein de lapin et d’intestin de rat. Dans les ovocytes, SMIT2 présente une grande affinité pour le MI (270 ± 19 µM) et le DCI (310 ± 60 µM) et aucune affinité pour le L-fucose. Il est ii également très sensible à la phlorizine (16 ± 7 µM). Une seule exception persiste : la constante d’affinité pour le glucose dans les BBMv d’intestin de rat est 40 fois plus petite que celle observée sur les ovocytes de Xenopus laevis. Nous avons également testé la capacité de certains transporteurs de sucre présents à la surface des membranes apicales des entérocytes à prélever le MI. Vu que l'inhibition de ces transporteurs (SGLT1 et GLUT5) ne changeait rien au taux de MI radioactif transporté, nous en avons conclu qu'ils ne sont pas impliqués dans son transport. Finalement, l’efflux de MI à partir du pôle basolatéral des entérocytes n’est pas effectué par GLUT2 puisque ce dernier lorsqu'il est exprimé dans des ovocytes, est incapable de transporter le MI. / Myo-inositol (MI) is an organic solute involved in various aspects of cell physiology, including cell signaling. It is also known as a compatible osmolyte. Three secondary active MI cotransporters have been identified; two are Na+- coupled (SMIT1 and SMIT2) and one is H+-coupled (HMIT). The main aim of this study was to characterize MI uptake throught SMIT2 as expressed in epithelial cells and in Xenopus laevis oocytes. In order to achieve the characterization of this transport system, we used purified brush border membrane vesicles (BBMv) isolated from rabbit kidney and rat intestine. We first performed a quantification of mRNA levels in rabbit kidney using real time PCR for both SMIT1 and SMIT2. We found that SMIT1 is mainly expressed in the renal medulla while SMIT2 is mainly localized in the renal cortex. This result was confirmed on Western blots using an antibody raised against SMIT2. Through inhibition studies using selective substrates for SMIT1 (inhibited by L-fucose) and SMIT2 (inhibited by D-chiroinositol), we showed that SMIT2 seems to be responsible for all the apical transport of MI into the proximal convoluted tubule with a Km of 57 ± 14 µM. By transport studies we established that rabbit intestine seems to lack apical transport of MI while rat intestine has a very active uptake of this molecule. qRT-PCR quantification confirmed the absence of MI transporters in rabbit intestine. As for kidney, SMIT2 seems to be the only transporter responsible for apical MI uptake in enterocytes with a Km of 150 ± 40 µM. Functional analysis of rat SMIT2 activity, via electrophysiological studies in Xenopus oocytes, demonstrated similarities to the activities of SMIT2 from rat intestine and rabbit kidney. SMIT2 displays high affinities for MI (270 ± 19 µM), DCI (310 ± 60 µM) and no affinity for L-fucose. SMIT2 is very sensitive to phlorizin (Pz; 16 ± 7 µM). Although these functional characteristics essentially confirmed those found in rat intestine, a iv discrepancy exists between the two systems studied. Indeed, the affinity constant for glucose was approximately 40-fold lower in vesicles than in oocytes. We also tested the ability of SGLT1 and GLUT5, other sugar transport systems present in enterocytes apical membranes, to perform MI uptake. Because the inhibition of these transporters did not alter radiolabeled MI uptake, we concluded that they had no significant contribution to MI transport in rat intestine. Finally, the basolateral efflux of MI was not mediated by GLUT2 because when expressed in oocytes, this transporter was not able to transport MI.

Smit2

Myo-inositol

D-chiro-inositol

Phlorizine

Smit1

Glucose

Ovocytes

transport membranaire

Smit2

Myo-inositol

Phlorizin

Smit1

Glucose

D-chiro-inositol

Brush-border membrane vesicles

Oocytes

Membrane transport

Caracterización estructural de bacterias antárticas adaptadas al frío y detección de nuevos emulsionantes: estudio de la cepa "Shewanella vesiculosa M7(T)”

Frías Seoane, Alina

25 September 2012

Esta memoria doctoral forma parte del proyecto financiado por el Ministerio de Ciencia e Innovación (CICYT, CTQ2010-21183-C02-01), el cual tiene entre sus objetivos la búsqueda de nuevas cepas con capacidad para producir emulsionantes naturales poliméricos. Existe un interés real en el aislamiento y caracterización estructural y funcional de nuevos exopolímeros (EPS) obtenidos a partir de microorganismos de ambientes extremos que pudieran ser utilizados con estos fines en diversas industrias. Para ello, se realizó en primer lugar el estudio de los EPS desde el punto de vista ultraestructural, de cepas antárticas adaptadas al frío, mediante técnicas de microscopía electrónica de transmisión (MET) después de procesar las muestras por criofijación a alta presión seguida de criosustitución (HPF-FS). Estas técnicas aportaron numerosos detalles sobre la ultraestructura de las distintas cepas y el material extracelular que producen, al lograr preservar el material biológico próximo a su estado natural. Se observó que este material polimérico extracelular es para la mayoría de las cepas complejo con la presencia de material capsular alrededor de las células y abundantes estructuras vesiculares dispersas en la matriz extracelular secretada por las bacterias. Es la primera vez que se describen y visualizan de manera tan clara y abundante las vesículas de membrana externa (VME) que producen bacterias no patógenas de ambientes naturales antárticos. De igual forma, es la primera vez que se reporta la presencia de estas estructuras en cepas de los géneros Marinobacter y Psychrobacter. Asimismo, se estudió el origen de las proteínas presentes en las VME mediante geles SDS-PAGE donde se mostraron los perfiles proteicos comparados con las proteínas de membrana externa. Esto evidenció el origen de estas VME formadas a partir de esta membrana, al presentar proteínas en la fracción de VME, que comigraron con proteínas que estaban presentes en la fracción de membrana externa, además en el perfil proteico de la membrana externa se detectaron proteínas adicionales que no estaban presentes en VME. Se estudió la influencia de la temperatura sobre la producción y morfología de VME producidas en la cepa S. livingstonensis NF22T Para esta bacteria psicrotolerante se demostró que la temperatura influye en la producción de VME. A bajas temperaturas la cantidad de VME que produce la cepa es mayor, su tamaño es menor y más regular y el perfil electroforético muestra la expresión diferencial de algunas proteínas, viéndose sobrexpresadas proteínas relacionadas con funciones de transporte a nivel de membrana. Se realizaron análisis proteómicos para identificar las proteínas presentes en las VME producidas a 4 y 16 ºC a partir de S. livingstonensis NF22T y S. vesiculosa M7T. Para ambas cepas se identificaron fundamentalmente proteínas de membrana externa y periplasmáticas con diferentes funciones fisiológicas, destacando por su abundancia las proteínas implicadas en el transporte y metabolismo de iones inorgánicos así como las relacionadas en la biogénesis de las envueltas celulares. El material extracelular (EPS) obtenido y purificado a partir de Shewanella vesiculosa M7T presentó mayor actividad emulsionante frente a aceites comestibles que los emulsionantes comercializados goma arábiga y xantano y su caracterización reveló que contiene abundantes VME y polímeros polisacarídicos, siendo sus componentes químicos mayoritarios azúcares neutros y aminados, lípidos de membrana y aminoácidos. / The present work is part of the research project (CICYT, CTQ2010-21183-C02-01), which has among its objectives the search for new strains capable to produce natural polymeric emulsifiers. There is a real interest in the isolation and structural and functional characterization of new exopolymers (EPS) derived from microorganisms of extreme environments that could be used for these purposes in various industries. Many Gram-negative, cold-adapted bacteria from the Antarctic environment produce large amounts of extracellular matter, which has potential biotechnology applications. We examined the ultrastructure of extracellular matter from Antarctic bacteria by transmission electronic microscopy after high pressure freezing and freeze substitution. All analyzed extracellular matter appeared as a netlike mesh composed of a capsular polymer around cells and large numbers of outer membrane vesicles (OMV), which have not been described for members of the genera Psychrobacter and Marinobacter so far. OMV showed the typical characteristics described for these structures, and seemed to be surrounded by the same capsular polymer as that found around cells. The analysis of OMV proteins from Antarctic strains by SDS-PAGE showed different banding profiles in OMV compared to the outer membrane, suggesting some kind of protein sorting during membrane vesicle formation. For the psychrotolerant bacterium, S. livingstonensis NF22T, the growth temperature seemed to influence the amount and morphology of OMV. In an initial attempt to elucidate the functions of OMV from S. livingstonensis NF22T and S. vesiculosa M7T we conducted a proteomic analysis on membrane vesicles obtained at 4 and 16°C. At both temperatures, OMV were highly enriched in outer membrane proteins and periplasmic proteins related to nutrient processing and transport in Gram-negative bacteria, suggesting that OMV could be related with nutrient sensing and bacterial survival. Differences were observed in the expression of some proteins depending on incubation temperature but further studies will be necessary to define their roles and implications in the survival of bacteria in the extreme Antarctic environment. The extracellular material (EPS) obtained and purified from Shewanella vesiculosa M7T had a higher emulsifying activity against edible oils than commercial emulsifiers like arabic and xanthan gums. Characterization of this EPS revealed that it contains abundant OMV and polysaccharides polymers, with neutral and amino sugars, membrane lipids and aminoacids as its major chemical components.

Antàrtida

Regiones antárticas

Antarctica

Vesícules de membrana externa

Vesículas de membrana externa

Bacteris

Bacterias

Bacteria

Outer membrane vesicles

Sustancias poliméricas extracelulares

Extracellular polymeric substances

Emulsionants

Emulsionantes

Emulsifiers

Ciències de la Salut

579

Caractérisation du co-transporteur Na+/myo-inositol SMIT2 dans les membranes en bordure en brosse de rein de lapin et d’intestin de rat

Aouameur, Rym

03 1900

Le myo-inositol (MI) est un soluté organique impliqué dans diverses fonctions physiologiques de la cellule dont la signalisation cellulaire. Il est également un osmolyte compatible reconnu. Trois co-transporteurs de type actif secondaire responsables de son absorption ont été identifiés. Deux d’entre eux sont couplés au transport du sodium (SMIT1 et SMIT2) et le troisième est couplé au transport de protons (HMIT). L’objectif de cette étude a été la caractérisation du transport du MI par SMIT2 dans des membranes en bordure en brosse (BBMv) issues du rein de lapin et de l’intestin de rat ainsi qu’après expression dans les ovocytes de Xenopus laevis. La quantification de l’ARNm de SMIT1 et de SMIT2 dans le rein nous a appris que SMIT1 est majoritairement présent dans la médullaire alors que SMIT2 est principalement localisé dans le cortex. Ces résultats ont été confirmés par immunobuvardage en utilisant un anticorps dirigé contre SMIT2. Grâce à l’inhibition sélective de SMIT1 par le L-Fucose et de SMIT2 par le D-chiro-inositol (DCI), nous avons démontré que SMIT2 semble le seul responsable du transport luminal de MI dans le tubule contourné proximal avec un Km de 57 ± 14 µM. Pour ce qui est de l’intestin, des études de transport de MI radioactif ont démontré une absence de transport de MI chez le lapin alors que l’intestin de rat présente un transport de MI très actif. Une quantification par qRT-PCR nous a permis de constater que l’intestin de lapin ne semble pas posséder les transporteurs de MI nécessaires. Comme pour le rein, SMIT2 semble le seul transporteur de MI présent au niveau du pôle apical des entérocytes intestinaux chez le rat. Il est chargé du prélèvement du MI de l'alimentation avec un Km de 150 ± 40 µM. Les analyses fonctionnelles exécutées sur SMIT2 de rat en électrophysiologie après expression dans les ovocytes de Xenopus laevis donnent sensiblement les mêmes résultats que pour les BBMv de rein de lapin et d’intestin de rat. Dans les ovocytes, SMIT2 présente une grande affinité pour le MI (270 ± 19 µM) et le DCI (310 ± 60 µM) et aucune affinité pour le L-fucose. Il est ii également très sensible à la phlorizine (16 ± 7 µM). Une seule exception persiste : la constante d’affinité pour le glucose dans les BBMv d’intestin de rat est 40 fois plus petite que celle observée sur les ovocytes de Xenopus laevis. Nous avons également testé la capacité de certains transporteurs de sucre présents à la surface des membranes apicales des entérocytes à prélever le MI. Vu que l'inhibition de ces transporteurs (SGLT1 et GLUT5) ne changeait rien au taux de MI radioactif transporté, nous en avons conclu qu'ils ne sont pas impliqués dans son transport. Finalement, l’efflux de MI à partir du pôle basolatéral des entérocytes n’est pas effectué par GLUT2 puisque ce dernier lorsqu'il est exprimé dans des ovocytes, est incapable de transporter le MI. / Myo-inositol (MI) is an organic solute involved in various aspects of cell physiology, including cell signaling. It is also known as a compatible osmolyte. Three secondary active MI cotransporters have been identified; two are Na+- coupled (SMIT1 and SMIT2) and one is H+-coupled (HMIT). The main aim of this study was to characterize MI uptake throught SMIT2 as expressed in epithelial cells and in Xenopus laevis oocytes. In order to achieve the characterization of this transport system, we used purified brush border membrane vesicles (BBMv) isolated from rabbit kidney and rat intestine. We first performed a quantification of mRNA levels in rabbit kidney using real time PCR for both SMIT1 and SMIT2. We found that SMIT1 is mainly expressed in the renal medulla while SMIT2 is mainly localized in the renal cortex. This result was confirmed on Western blots using an antibody raised against SMIT2. Through inhibition studies using selective substrates for SMIT1 (inhibited by L-fucose) and SMIT2 (inhibited by D-chiroinositol), we showed that SMIT2 seems to be responsible for all the apical transport of MI into the proximal convoluted tubule with a Km of 57 ± 14 µM. By transport studies we established that rabbit intestine seems to lack apical transport of MI while rat intestine has a very active uptake of this molecule. qRT-PCR quantification confirmed the absence of MI transporters in rabbit intestine. As for kidney, SMIT2 seems to be the only transporter responsible for apical MI uptake in enterocytes with a Km of 150 ± 40 µM. Functional analysis of rat SMIT2 activity, via electrophysiological studies in Xenopus oocytes, demonstrated similarities to the activities of SMIT2 from rat intestine and rabbit kidney. SMIT2 displays high affinities for MI (270 ± 19 µM), DCI (310 ± 60 µM) and no affinity for L-fucose. SMIT2 is very sensitive to phlorizin (Pz; 16 ± 7 µM). Although these functional characteristics essentially confirmed those found in rat intestine, a iv discrepancy exists between the two systems studied. Indeed, the affinity constant for glucose was approximately 40-fold lower in vesicles than in oocytes. We also tested the ability of SGLT1 and GLUT5, other sugar transport systems present in enterocytes apical membranes, to perform MI uptake. Because the inhibition of these transporters did not alter radiolabeled MI uptake, we concluded that they had no significant contribution to MI transport in rat intestine. Finally, the basolateral efflux of MI was not mediated by GLUT2 because when expressed in oocytes, this transporter was not able to transport MI.

Smit2

Myo-inositol

D-chiro-inositol

Phlorizine

Smit1

Glucose

Ovocytes

transport membranaire

Smit2

Myo-inositol

Phlorizin

Smit1

Glucose

D-chiro-inositol

Brush-border membrane vesicles

Oocytes

Membrane transport

Résistance adaptative aux polymyxines chez Pseudomonas aeruginosa / Adaptive résistance to polymyxins in Pseudomonas aeruginosa

Noguès, Aurélie

03 September 2015

La résistance aux polymyxines chez P. aeruginosa résulte en partie de la modification du lipide A par addition de 4-amino-aL-arabinose (L-Ara4N), due à l'expression de l'opéron arnBCADTEF-ugD (arn), activée par au moins 6 systèmes de régulation à deux composants (S2C). Nous avons mis en évidence que P. aeruginosa était capable de s'adapter de manière transitoire à la présence de fortes concentrations de polymyxines (8 x CMI) aussi bien in vitro que in vivo dans un modèle murin d'infection pulmonaire aiguë. La délétion de l'opéron arn chez la souche sauvage n'a pas modifié la capacité d'adaptation de P. aeruginosa. Afin d'identifier les gènes impliqués dans le processus adaptatif, le transcriptome global du mutant PAOl/z«;-Aar«-ATCS délété des principaux S2C (parRS, pmrAB, cprRS eiphoPQ) et de l'opéron arn a été réalisé en présence de différentes concentrations de colistine par RNA-Seq. Deux nouveaux mécanismes ont ainsi été identifiés. L'un repose sur l'expression de l'opéron mmsAB codant des enzymes du catabolisme des acides gras et l'autre fait intervenir le facteur sigma alternatif AlgU. Seule la délétion conjointe du gène algW participant à l'activation de AlgU et des opérons arn, mmsAB, pmrAB, parRS, phoPQ et cprRS a permis d'abolir complètement la résistance adaptative à la colistine. Par ailleurs, nous avons mis en évidence le rôle des vésicules de membrane externe (OMVs) dans la séquestration de l'antibiotique, dont la production semble régulée au moins par AlgU et le PQS. Ces travaux offrent des perspectives intéressantes pour l'identification de nouvelles cibles antibactériennes et pour l'amélioration de l'effet bactéricide des polymyxines. / Resistance to polymyxins in Pseudomonas aeruginosa involves the addition of 4-amino-L-arabinose (Ara4N) to LPS phosphates, thanks to an enzymatic modification due to the operon named arnBCADTEF-ugD (arn) whose expression is activated by at least 6 two component regulatory Systems (TCS). We demonstrated that P. aeruginosa was able to resist in a transient way to high concentrations of polymyxins (8x MIC) in vitro and in vivo in a mice lung infection model. Arn operon deletion in the wild type strain did not modify the ability to adapt to polymyxins. In order to identify gènes involved in adaptive resistance, we performed RNA-seq transcriptomes of quintuple mutant PAO\lux-Aaw-ATCS exposed to different concentrations of colistin or non exposed. Two new mechanisms were identified. The first one is based upon mmsAB operon encoding fatty acid catabolism enzymes and the second one is due to the sigma factor AlgU. Only the deletions of algW%enz involved in AlgU activation and arn, mmsAB, pmrAB, parRS, phoPQ and cprRS operons completely abolished the adaptive process. We also demonstrated the role of outer membrane vesicles in the sequestration of colistin whose production is regulated by AlgU and PQS. This study provides knoweldge essential for the design of novel strategies aimed at tackling the adaptive resistance to polymyxins.

Résistance adaptative

Polymyxines

Peptides antimicrobiens

Systèmes à deux composants

Vésicules de membrane externe

Luminescence

Facteur sigma alternatif

Lipide A

Adaptive résistance

Polymyxins

Antimicrobial peptides

Two component Systems

Outer membrane vesicles

Luminescence

Sigma Factor

Lipid A

616

Comparative Sugar Transport by Crustacean Hepatopancreas and Intestine

Duka, Ada

01 January 2013

Glucose is transported in crustacean hepatopancreas and intestine by Na+-dependent co-transport, while Na+-dependent D-fructose influx has only been described for the hepatopancreas. It is still unclear if the two sugars are independently transported by two distinct cotransporter carrier systems. In this study lobster (Homarus americanus) hepatopancreas brush border membrane vesicles (BBMV) were used to characterize, in detail, the cation-dependency of both D-[3H] glucose and D-[3H] fructose influxes, while in vitro perfused intestines were employed to determine the nature of cation-dependent sugar transport in this organ. Over the sodium concentration range of 0-100 mM, both 3H-D-glucose and 3H-D-fructose influxes (0.1 mM; 1 min uptakes) by hepatopancreatic BBMV were hyperbolic functions of [Na+], exhibiting Km values of 2.30 ± 0.59 and 2.58 ± 0.95 mM, respectively. D-[3H] glucose and fructose influxes by hepatopancreatic BBMV over a potassium concentration range of 15-100 mM were hyperbolic functions of [K+], exhibiting Km values of 9.85 ± 0.41 and 12.6 ± 0.80 mM respectively. Both sugars displayed significant (p < 0.01) Na+/K+-dependent and Na+-independent uptake processes. Transepithelial 25 μM D-[3H] glucose and D-[3H] fructose fluxes across lobster intestine over a luminal sodium and potassium concentration range of 0 – 50 mM and 5-100 mM, respectively, were hyperbolic functions of luminal [Na+] and [K+]. As with hepatopancreatic sugar transport, transepithelial intestinal sugar transport exhibited both significant (p < 0.01) Na+/K+-dependent and Na+-independent processes. Results suggest that both D-glucose and D-fructose are transported by a single carrier process in each organ with sodium being the preferred cation for both sugars in the hepatopancreas, and potassium being the preferred cation for both sugars in the intestine.

Thesis

University of North Florida

UNF

American lobster

hepatopancreas

brush border membrane vesicles

BBMV

Biology

Comparative and Evolutionary Physiology

Systems and Integrative Physiology

THE GUT MICROBIOME IN HUMAN GASTROINTESTINAL DISEASES: CHRONIC OPIOID USE & INFLAMMATORY BOWEL DISEASE

Cruz Lebron, Angelica Iris

22 January 2021

No description available.

Bioinformatics

Biomedical Research

Microbiology

Immunology

Virology

Molecular Biology

Microbiota

metabolites

Akkermansia muciniphila

intestinal barrier integrity

chronic opioid use

methadone

outer membrane vesicles

tight junction proteins

inflammatory bowel disease

immune mediators

HIV

MAIT cells