Efeito do condroitim sulfato fucosilado e de um análogo da heparina na citoadesão e invasão de Plasmodium falciparum = Fucosylated chondroitin sulfate and an heparin analog effect on Plasmodium falciparum cytoadhesion and merozoite invasion / Fucosylated chondroitin sulfate and an heparin analog effect on Plasmodium falciparum cytoadhesion and merozoite invasion

Bastos, Marcele Fontenelle, 1986

29 August 2018

Orientador: Fabio Trindade Maranhão Costa / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-29T19:18:42Z (GMT). No. of bitstreams: 1 Bastos_MarceleFontenelle_D.pdf: 23599395 bytes, checksum: 51577c364bf25d45e672a187e5d0bc4a (MD5) Previous issue date: 2015 / Resumo: Acredita-se que o sequestro de eritrócitos infectados por Plasmodium falciparum (Pf-EIs) na microvasculatura de órgão vitais, contribua para a patogênese de síndromes graves da malária, como a malária cerebral (MC), síndrome da angústia respiratória grave, anemia grave e malária na gravidez. Apesar do tratamento com drogas antimaláricas eficazes, mortalidade significativa ainda é observada em casos graves da doença. Assim, tem sido sugerido o uso de terapias adjuvantes. Nesse sentido, polissacarídeos sulfatados, como a heparina, têm demonstrado capacidade em inibir a citoaderência de P. falciparum a vários receptores do hospedeiro, inibir a invasão de merozoítos e romper rosetas. A heparina foi utilizada no passado como tratamento para malária grave, no entanto o seu uso foi interrompido devido à ocorrência de efeitos colaterais graves, tais como hemorragia. Além disso, muitos desses polissacarídeos sulfatados são derivados de mamíferos, o que aumenta o risco de contaminação por agentes patogênicos, como príons. Apesar de muitos compostos terem sido testados como terapia adjuvante para diferentes aspectos patogênicos da malária grave, nenhum destes demonstrou evidência inequívoca de melhora dos pacientes nos testes clínicos. Sendo assim, nesse estudo, investigamos a ação de dois polissacarídeos sulfatados extraídos de invertebrados na citoadesão e desenvolvimento de P. falciparum. Já foi demonstrado que esses compostos; o condroitim sulfato fucosilado (FucCS), extraído do pepino-do-mar Ludwigothurea grisea, e o análogo da heparina (heparam sulfato), extraído do molusco bivalve Nodipecten nodosus; possuem ação anticoagulante e antitrombótica, porém em menor escala do que a heparina comercial. Além disso, apresentam efeito anti-inflamatório e antimetastático. Aqui, nós mostramos que o FucCS e o heparam sulfato (HS) de molusco foram eficazes em inibir a citoadesão de P. falciparum em condições estáticas e de fluxo a células endoteliais de pulmão humano (HLECs). Eles também foram capazes de inibir o desenvolvimento parasitário por interferir na invasão de merozoítos. Além de romper rosetas eficientemente. Ainda, o FucCS inibiu a adesão de Pf-EIs a criocortes de placenta. Finalmente, a remoção das cadeias de fucose sulfatadas presentes na estrutura do FucCS praticamente aboliu o efeito inibitório do composto, evidenciando a importância dessas cadeias para sua atividade. Sendo assim, sugerimos o FucCS e o HS de molusco como candidatos promissores a terapia adjuvante no tratamento da malária grave e na prevenção ao agravamento da doença, além de abrir perspectivas para continuação e aprofundamento do estudo desses compostos no tratamento da malária / Abstract: It is believed that sequestration of Plasmodium falciparum-infected erythrocytes (Pf-iEs) in the microvasculature of vital organs, contributes to the pathogenesis of severe malaria syndromes such as, cerebral malaria (CM), severe respiratory distress, severe anemia and malaria in pregnancy (MiP). Despite treatment with effective antimalarial drugs, high mortality is still observed in severe cases of the disease. Thus, the use of adjuvant therapies has been suggested. Accordingly, sulfated polysaccharides, such as heparin, have been shown to prevent P. falciparum cytoadherence to several host receptors, inhibit merozoite invasion and disrupt rosettes. Heparin was used in the past as treatment for severe malaria, however its use was abandoned due to the occurrence of serious side effects such as bleeding. Moreover, many of these compounds are derived from mammals, which increase the risk of contamination by pathogens, such as prions. Although many compounds have been tested as adjunct therapy to different pathophysiological features of severe malaria, none of them showed clear evidence of patients¿ improvement in clinical trials. Therefore, in this study, we investigated the action of two sulfated compounds extracted from invertebrates in P. falciparum cytoadhesion and development. It has been shown that these compounds; chondroitin sulfate fucosylated (FucCS), extracted from the sea cucumber Ludwigothurea grisea, and the heparin analogue (heparan sulfate), extracted from the bivalve mollusk Nodipecten nodosus; have anticoagulant and antithrombotic action, but on a smaller scale than the commercial heparin. They also have anti-inflammatory and antimetastatic effect. Here, we show that FucCS and mollusk heparan sulfate (HS) were effective in inhibiting P. falciparum cytoadhesion, under static and flow conditions to human lung endothelial cells (HLECs). They were also able to block parasite development by interfering with merozoite invasion, and to disrupt rosettes efficiently. In addition, FucCS inhibited Pf-iEs adhesion to placenta cryosections. Finally, removal of sulfated fucose branches on the FucCS molecule virtually abolished its inhibitory effect, indicting a central role played by these structures. Then, we suggest FucCS and mollusk HS as promising candidates for adjunct therapy in the treatment of severe malaria and in preventing disease worsening. Also, we open new avenues to understand the mechanisms of action of these compounds in malaria treatment / Doutorado / Imunologia / Doutora em Genética e Biologia Molecular

Condroitim sulfato fucosilado

Plasmodium falciparum

Malaria

Fucosylated chondroitin sulfate

Plasmodium falciparum

Malaria

Advancing Modern Forensic Investigations Through The Use of Various Analytical Techniques

Stanley, Floyd E., III

January 2011

No description available.

Analytical Chemistry

heparin

circular dichroism

oversulfated chondroitin sulfate

nuclear forensics

alpha spectrometry

age dating

Construction of a 3D brain extracellular matrix model to study the interaction between microglia and T cells in co-culture

Frühauf, Marie, Zeitschel, Ulrike, Höfling, Corinna, Ullm, Franziska, Rabiger, Friederike V., Alber, Gottfried, Pompe, Tilo, Müller, Uwe, Roßner, Steffen

11 September 2024

Neurodegenerative disorders are characterised by the activation of brain-resident microglia cells and by the infiltration of peripheral T cells. However, their interplay in disease has not been clarified yet. It is difficult to investigate complex cellular dynamics in living animals, and simple two-dimensional (2D) cell culture models do not resemble the soft 3D structure of brain tissue. Therefore, we developed a biomimetic 3D in vitro culture system for co-cultivation of microglia and T cells. As the activation and/or migration of immune cells in the brain might be affected by components of the extracellular matrix, defined 3D fibrillar collagen I-based matrices were constructed and modified with hyaluronan and/or chondroitin sulphate, resembling aspects of brain extracellular matrix. Murine microglia and spleen-derived T cells were cultured alone or in co-culture on the constructed matrices. Microglia exhibited in vivo-like morphology and T cells showed enhanced survival when co-cultured with microglia or to a minor degree in the presence of glia-conditioned medium. The open and porous fibrillar structure of the matrix allowed for cell invasion and direct cell-cell interaction, with stronger invasion of T cells. Both cell types showed no dependence on the matrix modifications. Microglia could be activated on the matrices by lipopolysaccharide resulting in interleukin-6 and tumour necrosis factor-α secretion. The findings herein indicate that biomimetic 3D matrices allow for cocultivation and activation of primary microglia and T cells and provide useful tools to study their interaction in vitro.

info:eu-repo/classification/ddc/610

ddc:610

Influence du chondroïtine sulfate (CS) sur l’activité et l’expression de plusieurs isoformes du cytochrome P450 et de la NADPH P450 réductase

Iovu, Mirela O.

10 1900

Le CS fait partie de la famille des SYSADOA (SYmptomatic Slow Acting Drugs for OsteoArthritis) et est utilisé par les patients avec de l’ostéoarthrose de façon chronique pour ses propriétés anti-inflammatoires. Étant donné que ces patients reçoivent d’autres médicaments, il était intéressant de documenter les effets du CS sur le cytochrome P450 et la NADPH-réductase (NADPH). Pour cette étude, deux modèles ont été utilisés: des lapins témoins (LT) et des lapins avec une réaction inflammatoire (LRI) afin de diminuer l’activité et l’expression du CYP. Six groupes contenant chacun cinq lapins ont été utilisés: un groupe sans CS et deux groupes qui ont pris oralement dans l’eau approximativement 20.5 mg/kg/jour de CS pendant 20 et 30 jours; les lapins des trois groupes restants ont pris du CS comme décrit plus haut, mais ont reçu 5 ml sous-cutanées de térébenthine afin de produire une réaction inflammatoire aseptique (RIA) deux jours avant leur sacrifice, c’est-à-dire aux jours -2, 18 et 28. Les hépatocytes ont été isolés pour évaluer l’activité et l’expression du CYP3A6, CYP1A2 et NADPH et aussi le ARNm de ces protéines. In vitro, nous avons étudié l’effet de différentes concentrations de CS-disaccharides sulfatés, 4S, 6S, et 4,6S de CS, sur l’activité et l’expression du CYP1A2 et du CYP3A6. Pour documenter la présence de la réaction inflammatoire, nous avons mesure les mucoprotéines, dans le sérum des lapins avec une réaction inflammatoire. Aussi nous avons mesuré la présence de l’oxide nitrique (NO) chez les hépatocytes de lapins contrôles et chez les hépatocytes des lapins avec une réaction inflammatoire. La translocation nucléaire du NF-κB a été etudiée par fluorescence chez les hépatocytes. Par comparaison aux lapins témoins, l’administration du CS pendant 20 et 30 jours n’affecte pas l’activité du CYP3A6 et du CYP1A2. La RIA a augmenté les mucoprotéines à 95,1±5,7 vs 8,4±1,6 mg/dl dans les lapins témoins (p<0,05). La RIA a diminué l’activité du CYP3A6 de 62% et l’activité du CYP 1A2 de 54%. Le CS n’empêché pas la diminution du CYP1A2 produite par la RIA. Par ailleurs, le CS n’affecte pas l’activité ni l’expression de la NADPH. La translocation nucléaire de NF-κB a été empêche par l’administration chronique de CS aux lapins avec RIA; en plus, la concentration de l’oxide nitrique n’a pas démontré une augmentation en présence de CS; par contre, CS n’empêche pas l’augmentation des séromucoïdes. Au contraire, CS affecte la diminution du CYP3A6 en fonction de temps et secondaire à la RIA. Dans ce group, CS a rétabli le niveau des protéines du CYP3A6 observé dans le group de lapins témoins. Pourtant cette croissance été independante de mRNA qui garde un niveau trés bas. Le plus remarcable a été la manière dont CS a augmenté la protéine du CYP3A6, sans avoir rétabli l’activité de cet isoforme. Finalement, in vitro, CS et ses trois disaccharides sulfatés (4S, 6S et 4,6S) n’affectent ni l’activité ni l’expression de CYP1A2, CYP3A6 et de la NADPH. En conclusion, l’administration chronique de CS n’affecte pas l’activité ni l’expression du CYP1A2, ou la diminution du CYP1A2 produite par la réaction inflammatoire. Le CS n’affecte pas l’activité ni l’expression du NADPH. Cependant, CS empêche la diminution du CYP3A6 en fonction de temps et secondaire à la RIA. / In rabbits, an acute inflammatory reaction induced by the injection of turpentine causes a decrease in cytochrome P450 (CYP) isoforms activity and expression. Chondroitin sulfate (CS) is a Symptomatic Slow Acting Drug for OsteoArthritis (SYSADOA) that elicits anti-inflammatory effects. Since patients take CS over long periods, it was of interest to assess whether CS modulates the activity of cytochrome P450 isoforms. In order to determine the effect of CS on the cytochrome P450, CS was administered in vivo to two animal models, e.g. chronic intake of CS in control rabbits, and chronic intake of CS in rabbits with a CYP down-regulated by an inflammatory reaction (IR). We used six groups of five rabbits: three to assess the effect of CS on cytochrome P450, one without CS and two receiving orally about 20 mg/kg/day CS for 20 and 30 days; and the remaining three groups of rabbits received turpentine s.c. to generate an aseptic IR (AIR) 48 h before their sacrifice, e.g. days -2, 18 and 28, while exposed to CS for 0, 20 or 30 days, respectively. In order to verify the presence of inflammation we measured the seromucoids in serum of rabbits with an AIR. Another marker of inflammation, e.g. nitric oxyde (NO.) production, was assessed in control hepatocytes (Hcont) and in hepatocytes from rabbits with an AIR (Hinfla). In addition, the effect of CS on the nuclear translocation of NF-κB was studied by fluorescence in hepatocytes. Finally, in hepatocytes (both Hcont and Hinfla) the CYP3A6, CYP1A2 and NADPH P450 reductase (NADPH) activity, expression and mRNA were measured. In vitro, the effect of different concentrations of CS, 4S-, 6S- and 4,6S-sulfated disaccharides of CS on the cytochrome P450 was documented. Compared with control rabbits, 20 and 30 days CS did not affect the activity of CYP3A6 and CYP1A2. The AIR increased seromucoids from 8.4±1.6 mg/dl in controls to 95.1±5.7 (p<0.05), as well as the nuclear translocation of NF-κB, and nitric oxide concentrations. The AIR reduced CYP3A6 activity by 62% and CYP1A2 activity by 54%, decrease associated to a reduction in protein expression and in mRNA, e.g. pre-transcriptional down-regulation. The nuclear translocation of NF-κB was prevented by the administration of CS to rabbits with an AIR, moreover CS impeded the increase of the concentrations of nitric oxide; however CS did not prevent the increase in seromucoids. CS did not prevent the down-regulation of CYP1A2 produced by the inflammatory reaction. CS prevented the time-dependent down-regulation of CYP3A6 in control rabbits and in rabbits with an inflammatory reaction. In this last group, CS restored the amounts of CYP3A6 protein to levels observed in control rabbits, however this increase was independent of the mRNA that remained very depressed. It is noteworthy that even if CS increased CYP3A6 protein, its activity was not recovered. CS did not affect NADPH activity or expression. Finally, in vitro, CS, 4S-, 6S and 4,6S-sulfated disaccharides of CS did not change the activity and expression of the two isoforms of CYP, and of NADPH. It is concluded that CS does not affect the activity or expression of CYP1A2, nor prevents CYP1A2 AIR-induced down-regulation. However, CS prevents the down-regulation of CYP3A6 time dependently and following the AIR but does not prevent the decrease of catalytic activity.

cytochrome P450

NADPH-reductase

inflammation

chondroitin sulfate

osteoarthritis

NADPH-réductase

ostéoarthrite

Caractérisation de l'interaction semaphorine 3A-chondroïtine sulfate dans le système nerveux central / Characterisation of semaphorin 3A-chondroitin sulphate interaction in the central nervous system

Djerbal, Lynda

30 November 2018

Les réseaux périneuronaux (PNN) sont des régulateurs clé de la plasticité et de la régénération des neurones au niveau du système nerveux central chez l’adulte. Le PNN est une matrice extracellulaire hautement organisée, qui entoure des populations spécifiques de neurones, enrichie en protéoglycanes à chondroïtine sulfate (CSPG). La chondroïtine sulfate (CS) est un polysaccharide linéaire, appartenant à la famille des glycosaminoglycanes (GAG), qui peut être sulfaté à différentes positions et donner lieu à plusieurs isoformes. Ces isoformes interagissent de manière spécifique avec de nombreuses molécules de signalisation dont la semaphorine 3A (Sema3A). Sema3A est une protéine secrétée, qui interagit avec les CS et s’accumule ainsi dans les PNN. Elle est impliquée dans la guidance des neurones sur lesquels elle agit par chemorepulsion. Les aspects structuraux et fonctionnels de l’ interaction entre Sema3A et CS sont encore mal connus, mais celle-ci pourrait être requise pour renforcer la liaison de la Sema3A avec ses récepteurs et déclencher une voie de signalisation qui aboutit à l’inhibition de la plasticité synaptique. Le but du projet est donc de caractériser biochimiquement l’interface d’interaction Sema3A-CS. Il a pour perspective d’élaborer des molécules interférant avec cette interaction qui pourraient permettre une amélioration de la plasticité neuronale après une maladie neurodégénérative ou une lésion de la moelle épinière.Pour ce faire, la Sema3A est exprimée dans un système hétérologue de cellules eucaryotes pour être purifiée. Deux formes ont été purifiées: une forme complète de 90 kDa qui reste accrochée à la surface cellulaire et une forme clivée de 65 kDa secrétée dans le milieu de culture. La Sema3A-90 interagit d’une manière sélective et avec une très haute affinité avec la CS-E (chondroitine disulfatée en position 4 et 6) et l’héparane sulfate,alors que, la forme clivée n’interagit avec aucun GAG, comme observé par résonance plasmonique de surface (SPR). Quatre sites, situés dans le domaine C-terminal de la protéine, susceptibles d’interagir avec les GAG ont été identifiés et analysés par mutagenèse. Deux d’entre eux sont impliqués dans la reconnaissance des GAG et sont nécessaires à la Sema3A pour inhiber la croissance de neurites sur des cultures de neurones issus de ganglion de la racine dorsale de rats. En parallèle, nos travaux montrent qu’un tetrasaccharide de CS-E est la taille minimale requise pour l’interaction avec la Sema 3A. Enfin, des analyses réalisées en utilisant une microbalance à cristal de quartz avec dissipation ont montré que la Sema3A pourrait réticuler les chaines de GAGs, participant ainsi à la stabilisation du réseau périneuronal. / Perineuronal nets (PNNs) are the key regulators of neuronal plasticity and regeneration in the mature central nervous system (CNS). They are a unique and highly organised extracellular matrix (ECM) structure, found around sub-population of neurons, composed mainly of chondroitin sulfate proteoglycan (CSPG). Chondroitin sulfate (CS) is a linear polysaccharide belonging to glycosaminoglycans (GAGs) family. The sulphation pattern defines different types of CS, which interact with different signalling proteins including those regulating axonal outgrowth and guidance such as semaphorin 3A (Sema3A). Sema3A is a secreted chemorepulsive protein found accumulated in the PNNs through its interaction with CS. This process is believed to potentiate Sema3A signalling through plexin A1 (PlxnA1) and Neuropilin 1 (Nrp1) and regulate plasticity and regeneration. The aim of the thesis project is to characterise the interface of Sema3A- CS interaction.For this purpose, Sema3A is expressed in eukaryote cells and purified. Interestingly, two major forms were obtained: a full length Sema3A (90 kDa) which remains attached to the cell surface GAGs and a truncated form without the C-ter part (65 kDa) which is released to the culture medium. With the use of surface plasmon resonance (SPR), we observed that full length Sema3A binds selectively to CS-E (4,6-disulfated chondroitin) and heparan sulfate with a high affinity (KD in the sub pM range), while the truncated Sema3A does not bind to any GAG. Four putative GAG binding sequences were identified in the C-ter of Sema3A and mutated using site directed mutagenesis. SPR analysis then revealed that two out of these four sites are required for the binding to CS-E. The importance of these GAG-binding sequences in inhibition of neurites outgrowth of dorsal root ganglion neurons in culture was also reported, indicating thus the importance of GAG-binding in Sema3A signalling. In parallel, the minimal required sequence of Sema3A-binding of CS-E was determined as being a tetrasaccharide. The Sema3A-CS interface was thus characterized. Furthermore, quartz crystal microbalance with dissipation monitoring analysis suggested that Sema3A could crosslink GAG chains. This suggests Sema3A could be involved in stabilising the PNN network and induces mechanical changes on neuronal surface.The detail characterization of Sema3A-CS interaction may enable the design of new strategies aiming at enhancing plasticity and regeneration for neurodegenerative diseases or spinal cord injury.

Chondroïtine sulfate

Semaphorine 3A

Réseaux perineuroneaux

Chondroitin sulphate

Semaphorin 3A

Perineuronal nets

Neuronal plasticity and regeneration

570

Neuronal mechanisms for the maintenance of consistent behavior in the stomatogastric ganglion of Cancer borealis

Hudson, Amber Elise

08 April 2013

Each neuron needs to maintain a careful balance between the changes implicit in experience, and the demands of stability required by its function. This balance tips depending on the neuronal system, but in any role, disease or neural disorders can develop when the regulatory mechanisms involved in neuronal stability fail. The objective of this thesis was to characterize mechanisms underlying neuronal stability and activity maintenance, in the hopes that further understanding of these processes might someday lead to novel interventions for neurological disorders. The pyloric circuit of decapod crustaceans controls the rhythmic contractions of the foregut musculature, and has long been recognized as an excellent model system in which to study neuronal network stability. Recent experimental evidence has shown that each neuronal cell type of this circuit exhibits a unique set of positive linear correlations between ionic membrane conductances, which suggests that coordinated expression of ion channels plays a role in constraining neuronal electrical activity. In Aim 1, we hypothesized a causal relationship between expressed conductance correlations and features of cellular identity, namely electrical activity type. We partitioned an existing database of conductance-based model neurons based on various measures of intrinsic activity to approximate distinctions between biological cell types. We then tested individual conductance pairs for linear dependence to identify correlations. Similar to experimental results, each activity type investigated had a unique combination of correlated conductances. Furthermore, we found that populations of models that conform to a specific conductance correlation have a higher likelihood of exhibiting a particular feature of electrical activity. We conclude that regulating conductance ratios can support proper electrical activity of a wide range of cell types, particularly when the identity of the cell is well-defined by one or two features of its activity. The phenomenon of pyloric network recovery after removal of top-down neuromodulatory input--a process termed decentralization--is seen as a classic model of homeostatic change after injury. After decentralization, the pyloric central pattern generator briefly loses its characteristic rhythmic activity, but the same activity profile is recovered 3-5 days later via poorly understood homeostatic changes. This re-emergence of the pyloric rhythm occurs without the full pre-decentralization set of fixed conductance ratios. If conductance ratios stabilize pyloric activity before decentralization as we showed in Aim 1, then other mechanisms must account for the return of the pyloric rhythm after network recovery. Based on vertebrate studies demonstrating a role for the extracellular matrix (ECM) in activity regulation, we hypothesized in Aim 2 that the ECM was participating in activity maintenance in the stomatogastric nervous system. We used the enzyme chondroitinase ABC (chABC) to degrade extracellular chondroitin sulfate (CS) in the stomatogastric ganglion while in organ culture. Our results are the first to demonstrate the presence of CS in the crustacean nervous system via immunochemistry. Furthermore, we show that while ongoing activity is not disrupted by chABC treatment, recovery of pyloric activity after decentralization was significantly delayed without intact extracellular CS. Our results are the first to show that CS has a role in neuronal activity maintenance in crustaceans, and suggest that CS may be involved in initiating or directing activity maintenance needed in times of neuronal stress.

Homeostasis

Proteoglycan

Neuroscience

Computational neuroscience

Conductance

Central pattern generator

Stomatogastric ganglion

Chondroitin sulfate

Neurosciences

Nervous system

Neurons

Engineering zonally organized articular cartilage

Nguyen, Lonnissa Hong

14 October 2011

Cartilage regeneration is one of the most widely studied areas in tissue-engineering. Despite significant progress, most efforts to date have only focused on generating homogenous tissues whose bulk properties are similar to articular cartilage. However, anatomically and functionally, articular cartilage consists of four spatially distinct regions: the superficial, transitional, deep, and calcified zones. Each zone is characterized by unique extra-cellular matrix (ECM) compositions, mechanical properties, and cellular organization. The ECM is primarily composed of type II collagen and glycosaminoglycans (GAGs), whose relative concentrations vary between zones and therefore lead to distinctive mechanical properties. One of the major unsolved challenges in engineering cartilage has been the inability to regenerate tissue that mimics the zonal architecture of articular cartilage. Recent studies have attempted to imitate this spatial organization using zone-specific chondrocytes isolated from donor animal cartilage. Directed differentiation of a single stem population into zonally organized native-like articular cartilage has not yet been reported. This dissertation reports that hydrogels, incorporating both synthetic and natural polymers as well as cell-induced degradability, are suitable for generating zone-specific chondrogenic phenotypes from a single MSC population. Specifically, cues provided from the unique combinations of chondroitin sulfate (CS), hyaluronic acid (HA), and MMP-sensitive peptide (MMP-pep) within a PEG-based hydrogel, direct the chondrogenic differentiation of MSCs. The findings of this dissertation demonstrate the capability of creating native-like and mechanically relevant articular cartilage consisting of zone specific layers. This ability provides a new direction in cartilage tissue engineering and could be invaluable for cartilage repair if incorporated with current minimally invasive surgical techniques. / text

Bone marrow stromal cells

Articular cartilage

Degradable hydrogel

Chondroitin sulfate

Hyaluronic acid

MMP (matrix metalloproteinase)

Cartilage tissue engineering

Influence du chondroïtine sulfate (CS) sur l’activité et l’expression de plusieurs isoformes du cytochrome P450 et de la NADPH P450 réductase

Iovu, Mirela O.

10 1900

Le CS fait partie de la famille des SYSADOA (SYmptomatic Slow Acting Drugs for OsteoArthritis) et est utilisé par les patients avec de l’ostéoarthrose de façon chronique pour ses propriétés anti-inflammatoires. Étant donné que ces patients reçoivent d’autres médicaments, il était intéressant de documenter les effets du CS sur le cytochrome P450 et la NADPH-réductase (NADPH). Pour cette étude, deux modèles ont été utilisés: des lapins témoins (LT) et des lapins avec une réaction inflammatoire (LRI) afin de diminuer l’activité et l’expression du CYP. Six groupes contenant chacun cinq lapins ont été utilisés: un groupe sans CS et deux groupes qui ont pris oralement dans l’eau approximativement 20.5 mg/kg/jour de CS pendant 20 et 30 jours; les lapins des trois groupes restants ont pris du CS comme décrit plus haut, mais ont reçu 5 ml sous-cutanées de térébenthine afin de produire une réaction inflammatoire aseptique (RIA) deux jours avant leur sacrifice, c’est-à-dire aux jours -2, 18 et 28. Les hépatocytes ont été isolés pour évaluer l’activité et l’expression du CYP3A6, CYP1A2 et NADPH et aussi le ARNm de ces protéines. In vitro, nous avons étudié l’effet de différentes concentrations de CS-disaccharides sulfatés, 4S, 6S, et 4,6S de CS, sur l’activité et l’expression du CYP1A2 et du CYP3A6. Pour documenter la présence de la réaction inflammatoire, nous avons mesure les mucoprotéines, dans le sérum des lapins avec une réaction inflammatoire. Aussi nous avons mesuré la présence de l’oxide nitrique (NO) chez les hépatocytes de lapins contrôles et chez les hépatocytes des lapins avec une réaction inflammatoire. La translocation nucléaire du NF-κB a été etudiée par fluorescence chez les hépatocytes. Par comparaison aux lapins témoins, l’administration du CS pendant 20 et 30 jours n’affecte pas l’activité du CYP3A6 et du CYP1A2. La RIA a augmenté les mucoprotéines à 95,1±5,7 vs 8,4±1,6 mg/dl dans les lapins témoins (p<0,05). La RIA a diminué l’activité du CYP3A6 de 62% et l’activité du CYP 1A2 de 54%. Le CS n’empêché pas la diminution du CYP1A2 produite par la RIA. Par ailleurs, le CS n’affecte pas l’activité ni l’expression de la NADPH. La translocation nucléaire de NF-κB a été empêche par l’administration chronique de CS aux lapins avec RIA; en plus, la concentration de l’oxide nitrique n’a pas démontré une augmentation en présence de CS; par contre, CS n’empêche pas l’augmentation des séromucoïdes. Au contraire, CS affecte la diminution du CYP3A6 en fonction de temps et secondaire à la RIA. Dans ce group, CS a rétabli le niveau des protéines du CYP3A6 observé dans le group de lapins témoins. Pourtant cette croissance été independante de mRNA qui garde un niveau trés bas. Le plus remarcable a été la manière dont CS a augmenté la protéine du CYP3A6, sans avoir rétabli l’activité de cet isoforme. Finalement, in vitro, CS et ses trois disaccharides sulfatés (4S, 6S et 4,6S) n’affectent ni l’activité ni l’expression de CYP1A2, CYP3A6 et de la NADPH. En conclusion, l’administration chronique de CS n’affecte pas l’activité ni l’expression du CYP1A2, ou la diminution du CYP1A2 produite par la réaction inflammatoire. Le CS n’affecte pas l’activité ni l’expression du NADPH. Cependant, CS empêche la diminution du CYP3A6 en fonction de temps et secondaire à la RIA. / In rabbits, an acute inflammatory reaction induced by the injection of turpentine causes a decrease in cytochrome P450 (CYP) isoforms activity and expression. Chondroitin sulfate (CS) is a Symptomatic Slow Acting Drug for OsteoArthritis (SYSADOA) that elicits anti-inflammatory effects. Since patients take CS over long periods, it was of interest to assess whether CS modulates the activity of cytochrome P450 isoforms. In order to determine the effect of CS on the cytochrome P450, CS was administered in vivo to two animal models, e.g. chronic intake of CS in control rabbits, and chronic intake of CS in rabbits with a CYP down-regulated by an inflammatory reaction (IR). We used six groups of five rabbits: three to assess the effect of CS on cytochrome P450, one without CS and two receiving orally about 20 mg/kg/day CS for 20 and 30 days; and the remaining three groups of rabbits received turpentine s.c. to generate an aseptic IR (AIR) 48 h before their sacrifice, e.g. days -2, 18 and 28, while exposed to CS for 0, 20 or 30 days, respectively. In order to verify the presence of inflammation we measured the seromucoids in serum of rabbits with an AIR. Another marker of inflammation, e.g. nitric oxyde (NO.) production, was assessed in control hepatocytes (Hcont) and in hepatocytes from rabbits with an AIR (Hinfla). In addition, the effect of CS on the nuclear translocation of NF-κB was studied by fluorescence in hepatocytes. Finally, in hepatocytes (both Hcont and Hinfla) the CYP3A6, CYP1A2 and NADPH P450 reductase (NADPH) activity, expression and mRNA were measured. In vitro, the effect of different concentrations of CS, 4S-, 6S- and 4,6S-sulfated disaccharides of CS on the cytochrome P450 was documented. Compared with control rabbits, 20 and 30 days CS did not affect the activity of CYP3A6 and CYP1A2. The AIR increased seromucoids from 8.4±1.6 mg/dl in controls to 95.1±5.7 (p<0.05), as well as the nuclear translocation of NF-κB, and nitric oxide concentrations. The AIR reduced CYP3A6 activity by 62% and CYP1A2 activity by 54%, decrease associated to a reduction in protein expression and in mRNA, e.g. pre-transcriptional down-regulation. The nuclear translocation of NF-κB was prevented by the administration of CS to rabbits with an AIR, moreover CS impeded the increase of the concentrations of nitric oxide; however CS did not prevent the increase in seromucoids. CS did not prevent the down-regulation of CYP1A2 produced by the inflammatory reaction. CS prevented the time-dependent down-regulation of CYP3A6 in control rabbits and in rabbits with an inflammatory reaction. In this last group, CS restored the amounts of CYP3A6 protein to levels observed in control rabbits, however this increase was independent of the mRNA that remained very depressed. It is noteworthy that even if CS increased CYP3A6 protein, its activity was not recovered. CS did not affect NADPH activity or expression. Finally, in vitro, CS, 4S-, 6S and 4,6S-sulfated disaccharides of CS did not change the activity and expression of the two isoforms of CYP, and of NADPH. It is concluded that CS does not affect the activity or expression of CYP1A2, nor prevents CYP1A2 AIR-induced down-regulation. However, CS prevents the down-regulation of CYP3A6 time dependently and following the AIR but does not prevent the decrease of catalytic activity.

cytochrome P450

NADPH-reductase

inflammation

chondroitin sulfate

osteoarthritis

NADPH-réductase

ostéoarthrite

AXOTOMIZED SPINAL COMMISSURAL INTERNEURONS OF THE ADULT FELINE: A study of axonal growth from dendrites and cut axons

Fenrich, Keith

07 December 2009

Acquiring knowledge of the morphological, molecular, and functional changes that occur to neurons following axotomy is a key step for a comprehensive understanding of the nervous system and how it reacts to injury. Propriospinal commissural interneurons (PCIs or CINs) are a class of neuron with axons that project through the ventral commissure to the contralateral spinal cord. My goal was to examine the morphological, molecular, and functional changes that occur to adult feline PCIs following a proximal axotomy. We first determined whether proximally axotomized PCIs develop de novo axons from their dendrites. C3 PCIs were proximally axotomized and several weeks later we stained PCIs and prepared the tissue for histological evaluation. Two primary classes of axotomized PCI were identified: those with a very short axon (called permanently axotomized) and those with an axon that projected across the injury site. Permanently axotomized PCIs had processes with morphological features typical of axons that emerged from their distal dendrites. These axonal processes of the distal dendrites also had GAP-43 (an axonal marker) and lacked MAP2a/b (a dendritic marker). We concluded that permanently axotomized PCIs develop de novo axons from distal dendrites. We then determined whether the axons that crossed the lesion site were representative of spontaneous functional regeneration. First, we showed that PCI axons regenerate through an environment that is typically highly inhibitory to regenerating axons. Second, we established that the regenerated axons conduct action potentials. Finally, we found that regenerated PCI axons form functional synaptic connections with neurons in the contralateral spinal cord. Collectively, these data indicated that spinal interneurons are capable of spontaneous functional regeneration through an injured spinal cord. PCI growth cones are complex and unlike growth cones previously described in the literature. The final study of the thesis examines the morphologies of PCI growth cones within spinal cord injury sites. We found that PCI growth cones have a wide range of morphologies that is independent of their location within the lesion site. Taken together, these data indicate that PCIs have a remarkable capacity for axonal elongation and contribute to remodelling of spinal circuitry following spinal injury. / Thesis (Ph.D, Physiology) -- Queen's University, 2009-12-07 11:21:47.036

Spinal cord injury

Commissural interneuron

Axonal regeneration

Growth cone

GAP-43

MAP2a/b

Chondroitin sulfate proteoglycans

Electrophysiology

Neuroanatomy

Synaptophysin

Feline

Synthèse stéréocontrôlée de dérivés, accepteurs potentiels des glycosyltransférases impliquées dans les voies de biosynthèse des protéoglycanes / Stereocontroled synthesis of derivatives, potential acceptors of the glycosyltransferases involved in the proteoglycan’s biosynthesis

Ait-Mohand, Katia

20 December 2012

L’arthrose est un processus menant à la dégénérescence du cartilage articulaire dont l’un des principaux composants est un protéoglycane (PG) : l’aggrécane. Il est constitué de glycosaminoglycanes (GAGs), essentiellement le sulfate de chondroitine (CS), liés de façon covalente à un squelette peptidique par l’intermédiaire d’une zone de liaison tétrasaccharidique commune aux principaux types de GAGs (CS et sulfate d’héparane (HS)). La biosynthèse des PGs met en jeu l’action séquentielle de O-glycosyltransférases qui additionnent spécifiquement chaque unité saccharidique. Lors de cette biosynthèse, encore mal connue, la zone de liaison subit des modifications (sulfatation et phosphorylation) qui peuvent être importantes pour la polymérisation des PGs en faveur des CS ou des HS.L’objectif de ce travail était de synthétiser, pour la première fois, une collection complète de trisaccharides biotinylés diversement monosulfatés ou non de la zone de liaison des PGs ainsi que des tétrasaccharides biotinylés (zone de liaison et amorces de CS) dans le but de déterminer le rôle des différentes sulfatations possibles dans la biosynthèse des PGs par les O-glycosyltransférases. / Osteoarthritis is a process leading to the degeneration of articular cartilage in which one of the major component is the proteoglycan (PG) aggrecan. It is composed of glycosaminoglycans (GAGs), mainly chondroitin sulfate (CS), covalently linked to a peptide backbone through the tetrasaccharide linkage region which is common to the two principal types of GAGs (CS and heparan sulfate (HS)). The PGs biosynthesis involves the sequential action of O-glycosyltransferases that add specifically each saccharide unit. In this biosynthesis, still poorly understood, the linkage region undergoes changes (sulfation and phosphorylation) that may be important for the polymerization of PGs in favor of the CS or the HS.The objective of this work was to synthesize, for the first time, a full collection of biotinylated trisaccharides variously monosulfated or not of the linkage region of PGs and biotinylated tetrasaccharides (linkage region and first aminosugar of CS), in order to determine the role of the possible sulfation within the biosynthetic pathway of PGs by the O-glycosyltransferases.

Oligosaccharides biotinylés

Sulfoformes

Protéoglycanes

Zone de liaison

Sulfate de chondroitine

Arthrose

Biotinylated oligosaccharides

Sulfoforms

Proteoglycans

Linkage region

Chondroitin sulphate

Osteoarthrisis