The Relevance of mTOR and Hypoxia Inducible Factor to 2-Deoxy-D-Glucose Toxicity in Lung Cancer Cell Lines Under Hypoxia

Wangpaichitr, Medhi

23 September 2008

Hypoxic regions found in most solid tumors often contain cells which are resistant to various cancer therapies. However, hypoxia also forces cells to rely solely on the catabolism of glucose through glycolysis for ATP production and survival, thereby creating a therapeutic window that can be exploited by glycolytic inhibitors, such as 2-deoxy-D-glucose (2-DG). Previous studies in our lab demonstrated that activation of Hypoxia Inducible Factor (HIF-1) in hypoxic tumor cells confers resistance to glycolytic inhibition by 2-DG. In surveying a number of tumor types for differences in intrinsic levels of HIF-1 alpha under hypoxia, we found that pathways upstream of HIF -- i.e. AKT and mammalian target of rapamycin (mTOR) -- have significantly reduced activity in 2 human non-small lung cancer cell lines (NSCLC) as compared to 4 small cell lung cancer cell (SCLC) lines. This reduced activity of AKT and mTOR correlated with increased sensitivity to 2-DG under hypoxia. Since HIF-1 alpha translation is regulated by the mammalian target of rapamycin (mTOR), we examined the effects of blocking mTOR with an analog of rapamycin (CCI-779) in SCLC cells which express high levels of mTOR activity. Under hypoxia, treatment with CCI-779 resulted in HIF-1 alpha down-regulation. Furthermore, CCI-779 potentiated the cytotoxic effects of 2-DG in hypoxic SCLC cells. Conversely, CCI-779 did not increase 2-DG toxicity in NSCLC lines that do not express HIF, SCLC lines treated with siRNA against HIF-1 alpha, or HIF-deficient mutants. These latter results support the hypothesis that, although mTOR modulates numerous downstream pathways, mTOR inhibition by CCI-779 increases the toxicity of 2-DG in hypoxic cells through down-regulation of HIF-1 alpha. Overall, our findings show that CCI-779 hyper-sensitizes HIF-expressing hypoxic tumor cells to 2-DG. Additionally, our results suggest that the intrinsic expression of AKT, mTOR, and HIF in many tumor types may be important predictors of clinical responsiveness to 2-DG and could be used to guide future treatment decisions on whether to use 2-DG alone or in combination with an mTOR inhibitor.

Enhanced Glycolytic Metabolism Contributes to Cardiac Dysfunction in Polymicrobial Sepsis

Zheng, Zhibo, Ma, He, Zhang, Xia, Tu, Fei, Wang, Xiaohui, Ha, Tuanzhu, Fan, Min, Liu, Li, Xu, Jingjing, Yu, Kaijiang, Wang, Ruitao, Kalbfleisch, John, Kao, Race, Williams, David, Li, Chuanfu

01 May 2017

Background. Cardiac dysfunction is present in >40% of sepsis patients and is associated with mortality rates of up to 70%. Recent evidence suggests that glycolytic metabolism plays a critical role in host defense and inflammation. Activation of Toll-like receptors on immune cells can enhance glycolytic metabolism. This study investigated whether modulation of glycolysis by inhibition of hexokinase will be beneficial to septic cardiomyopathy. Methods. Male C57B6/J mice were treated with a hexokinase inhibitor (2-deoxy-d-glucose [2-DG], 0.25-2 g/kg, n = 6-8) before cecal ligation and puncture (CLP) induced sepsis. Untreated septic mice served as control. Sham surgically operated mice treated with or without the 2-DG inhibitor served as sham controls. Cardiac function was assessed 6 hours after CLP sepsis by echocardiography. Serum was harvested for measurement of inflammatory cytokines and lactate. Results. Sepsis-induced cardiac dysfunction was significantly attenuated by administration of 2-DG. Ejection fraction and fractional shortening in 2-DG-treated septic mice were significantly (P < .05) greater than in untreated CLP mice. 2-DG administration also significantly improved survival outcome, reduced kidney and liver injury, attenuated sepsis-increased serum levels of tumor necrosis factor α and interleukin 1β as well as lactate, and enhanced the expression of Sirt1 and Sirt3 in the myocardium, which play an important role in mitochondrial function and metabolism. In addition, 2-DG administration suppresses sepsis-increased expression of apoptotic inducers Bak and Bax as well as JNK phosphorylation in the myocardium. Conclusions. Glycolytic metabolism plays an important role in mediating sepsis-induced septic cardiomyopathy. The mechanisms may involve regulation of inflammatory response and apoptotic signaling.

2-deoxy-D-glucose

cardiomyopathy

glycolysis

inflammatory responses

sepsis

Surgery

Compréhension des mécanismes mis en jeu dans la chimie des green-binders / Mechanistic study of the green binder chemistry for mineral wool

Maruani, Victor

16 March 2017

La laine de verre est un matériau utilisé pour l'isolation acoustique et thermique des habitations. Ce matériau est constitué à 95% de fibres de verre et à 5% d'un liant. Bien que ce dernier soit utilisé en quantité très faible dans la formulation du matériau, il est responsable de l'obtention de bonnes propriétés mécaniques en assurant, notamment, l'intégrité structurelle du panneau de laine de verre. Pour préparer ces liants, une résine et des additifs (huile, silicone et silane) sont utilisés. Depuis une cinquantaine d'années, les résines majoritairement utilisées pour la préparation de liant pour la fabrication de la laine de verre sont de type formo-phénolique. Bien que les propriétés mécaniques des panneaux de laine de verre obtenus avec cette résine soient bonnes, il a été nécessaire d'éliminer le formaldéhyde, composé Cancérigène-Mutagène-Reprotoxique, de la formulation. C'est pourquoi de nouvelles résines ont dû être développées. Ces développements ont permis de retenir une résine pH-compatible à base de saccharose et avec des propriétés mécaniques analogues à celles obtenues avec la résine formo-phénolique. Le but de cette thèse est donc d'accéder à une connaissance approfondie des mécanismes réactionnels mis en jeu dans la formation de cette résine pour pouvoir, in fine, en optimiser ses performances / Glass wool is a material used for the acoustic and thermal insulation of dwellings. This material contains 95% of glass fibers and 5% of binder. Although this binder is used in a very small quantity in the formulation, it provides the expected mechanical properties by ensuring the structural integrity of the glass wool panel. To prepare these binders, resin and additives (oil, silicone and silane) are used. For fifty years the resins mostly used for the preparation of glass wool’s binders were the formo-phenolic’s types. Although theses resins provide good mechanical properties of the glass wool panels, it was necessary to remove the formaldehyde, a Carcinogen-Mutagen-Reprotoxic compound, from the formulation. As a consequence, new resins were developed. These developments helped us to retain a pH-compatible resin based on sucrose with mechanical properties as good as formo-phenolic’s resin. So, the aim of this thesis is to investigate the whole chemistry’s mechanism involved in the formation of this resin in order to be able to increase its performance

Saccharose

D-glucose

D-Fructose

5-HMF

Humines

Mélanoïdines

RMN

Sucrose

D-glucose

D-Fructose

5-HMF

Humins

Melanoïdines

NMR

547.7

Étude mécanistique de l'hydroconversion catalytique de bio-huiles de pyrolyse / Mechanistic study of catalytic hydroconversion of pyrolysis bio-oils

Ozagac, Matthieu

29 September 2016

La pyrolyse rapide est un procédé thermochimique permettant la transformation de la biomasse lignocellulosique en liquide. Cette bio-huile n'est pas utilisable directement de par son instabilité thermique, sa faible capacité calorifique et son immiscibilité avec les hydrocarbures due à une teneur élevée en composés organiques oxygénés. Un procédé de raffinage prometteur est l'hydroconversion catalytique permettant la conversion de ces composés et le retrait significatif de l'oxygène. Cependant, des réactions compétitives telles que la condensation ou l'oligomérisation sont observées. Compte tenu de la complexité des bio-huiles, des molécules modèles sont étudiées pour mieux comprendre ces réactions. Les molécules choisies pour cette thèse sont le D-glucose, le furfural, l'acide acétique et le guaiacol dans l'eau. Les tests expérimentaux ont été effectués dans un réacteur fermé isotherme dont la charge est constituée de 150 g de mélanges et 15 g de catalyseur frais NiMo/?-Al2O3. La température d'étude varie entre 200°C et 300°C jusqu'à 3 h de réaction. Une pression d'H2 a été maintenue constante afin de rejoindre une pression totale de 13 MPa. Les réactions de désoxygénation et compétitives ont été observées à travers la complexification croissante de la charge assistée par une stratégie analytique multi-technique des effluents liquides et solides. L'hydroconversion catalytique du furfural et du D-glucose mène vers une grande variété de composés provenant de réactions d'hydrogénation, de déshydratation, de décarbonylation et de décarboxylation ou de retro-aldolisation. Une faible quantité de produits a été détectée par GC et LC mais, en parallèle, l'analyse SEC a mis en évidence la formation de macromolécules. En phase aqueuse, ces macromolécules précipitent au-delà de 700 g/mol PS équivalent. Les analyses 13C RMN de résidus solides formés par le D-glucose ont montré la présence de liaisons furaniques et aromatiques produites en phase liquide par des réactions de déshydratation. Le mélange à 4 composés a mis en évidence le rôle du guaiacol comme limitant de résidus en solubilisant et en réagissant avec ces macromolécules pour en former des structures dépassant 5000 g/mol PS équivalent. Les mêmes conditions opératoires ont été adoptées pour l'étude d'une bio-huiles de pyrolyse de résidus forestiers dont la conversion a montré des similitudes dans la formations et dans la structure des macromolécules / One of the thermochemical liquefaction processes used to transform lignocellulosic biomass into liquid is flash pyrolysis. The obtained bio-oils have limited end-user application due to their thermal instability, low heat capacity and immiscibility with hydrocarbons resulting from a high oxygen content. A promising upgrading process is the catalytic hydroconversion that performs a significant oxygen removal. However competitive reactions such as condensation or oligomerization can be observed. Regarding the bio-oil complexity, model molecules lead to a better understanding of those reaction. Investigated model compounds in this PhD. were D-glucose, furfural, acetic acid and guaiacol in water. Experimental tests were carried out in an isothermal 500 ml stirred batch reactor subsequently feed by 150 g mixture and 15 g of fresh reduced NiMo/?-Al2O3 catalyst. The reaction temperature varied from 200°C to 300°C during a reaction time up to 3 h. A H2 atmosphere was set to maintain a constant total pressure of 13 MPa during the run. Deoxygenation and side-reactions were observed through a gradual reactant addition in the studied mixtures using an original analytical strategy of liquid and solid effluents based on various technique. Furfural and D-glucose single hydroconversion lead to a wide range of by-products mainly issued from hydrogenation, dehydration, decarbonylation/decarboxylation or aldol reactions. A low quantity of carbon quantified by GC and LC in the liquid phase was observed during the conversion corresponding to the formation of soluble macromolecules which were detected by the size-exclusion chromatography (SEC) analysis. In a water medium, those products were prone to precipitate from 700 g/mol PS equivalent. 13C NMR of D-glucose’ solid residues revealed furanic and aromatic boundaries. Such compounds were likely formed through dehydration reactions. Regarding the final 4-component mixture, the presence of guaiacol decreased the solid production by solubilizing and/or reacting with macromolecules arising from D-glucose and furfural leading to the production of larger macromolecules (up to 5.000 g/mol) in the liquid phase. The same operational conditions were used with bio-oil to observe and characterize similar macromolecules formation and structures

Bio-Huile de pyrolyse

Hydrotraitement

Hydrodesoxygénation

Biomasse

Hydroconversion catalytique

Caractérisation de macromolécules

D-glucose

Pyrolysis oil

Hydrotreatment

Hydrodesoxygenation

Biomass

Catalytic hydroconversion

Macromolecules characterization

D-glucose

660

Development of a Method of Analysis by High Performance Liquid Chromatography for Products of the Nitric Acid Oxidation of D-Glucose

Mills, Heidi Clare Maria

January 2007

This thesis explored the development of a faster and more efficient means of qualitative and quantitative analysis of the products of the nitric acid oxidation of D-glucose and other simple sugars, for the Shafizadeh Rocky Mountain Center for Wood and Carbohydrate Chemistry. During the research, analysis was carried out based on previous work completed in a similar area using two Aminex HPX-87H+ cation-exchange columns at different temperatures, and plumbed in series. Standards were filtered and injected on to the columns, then eluted with 5 mM sulfuric acid. A total run time of 33 minutes enabled the elution of all products and by-products of the reaction. Retention times of standards and the use of spiking helped specify and quantify unknowns in samples from a series of oxidation reactions involving D-glucose and other aldoses. The PrevailTM Organic acid (OA) column was said to provide 'unsurpassed resolution of organic acids'. It was therefore investigated, and a method was developed and refined in order to optimise conditions enabling the column's use for the required analyses. The optimised parameters were established as: ambient temperature with an eluent of 10 mM KH2PO4 adjusted to a pH of 2.1 with phosphoric acid. The sample size was 5 uL with a flow rate of 0.3 mL/min, giving a total run time of approximately 13 minutes. The Aminex HPX-87H+ column method and the PrevailTM OA method were compared to determine the superior method for the analyses intended. While some improvements were made for detection in the PrevailTM OA method, results were not satisfactory. This was due in part to limits imposed on the PrevailTM OA column method, which prevented the use of gradient elution. The Aminex HPX-87H+ column method outlined herein provides superior resolution for the nitric acid oxidation of D-glucose to D-glucaric acid, and in conclusion it is suggested that the Aminex HPX-87H+ column method be used.

Aminex HPX-87H

Prevail OA

chromatography

HPLC

nitric acid oxidation

D-glucose

organic acids

Continuous succinic acid fermentation by Actinobacillus succinogenes

Van Heerden, Carel Daniel

01 August 2012

Please read the abstract in the section front of this document. / Dissertation (MEng)--University of Pretoria, 2012. / Chemical Engineering / unrestricted

Biofilm

Carbon dioxide

Actinobacillus succinogenes

D-glucose

Suspended cell

Succinic acid

Continuous

UCTD

Effect of Pre- and Postnatal Exposure to Zinc on [³H] Glucose Uptake in the Brain and Peripheral Tissues of Adult Rats

Konecki, J., Bielaczyc, G., Nowak, P., Szkilnik, R., Szczerbak, G., Swoboda, M., Kwieciński, A., Kostrzewa, R. M., Brus, R.

16 May 2006

To determine the susceptibility of developing brain and other tissues to accumulate zinc, rats were exposed to zinc at different periods of ontogeny. For the prenatal group, pregnant Wistar rats received 50 ppm of zinc (ZnSO4 · 7H2O) in drinking for the entire duration of pregnancy. On the day of delivery zinc was removed from the drinking water. Another group, dams, received 50 ppm of zinc in drinking water only during the suckling period (from delivery until the 21st day of postnatal life). Their offspring were weaned on the 21st day, at which time zinc was removed from the drinking water. The control group drank tap water only. At 3 weeks after birth, the level of zinc was estimated in the brain, liver, mandibular bone and kidney of offspring from all groups. At 8 weeks after birth 6-[3H]D-glucose (500 μCi/kg) was administered IP to male offspring, 15 minutes before sacrifice. By liquid scintillation spectroscopy, 3H-activity (expressed as disintegrations per minute [DPM]) was determined in discrete parts of the brain and some peripheral tissues, and expressed as DPM/100 mg of tissue, wet weight. It was found that the highest amount of zinc was accumulated in the brain and liver of rat offspring that were exposed to zinc postnatally. [3H]-activity was at lower levels, in comparison, in nearly all other parts of the brain of rats exposed to zinc postnatally. In offspring receiving zinc prenatally, zinc levels were at similar or lower amounts in the brain and peripheral tissues, vs. the group with postnatal exposure. From this study in rats we conclude that zinc accumulates to the highest extent in brain, following a later ontogenetic (postnatal) exposure period, and by this, there is also greater disturbance of metabolic processes associated with glucose utilization.

6-[ H]D-glucose 3

brain

development

rats

zinc

Biomedical Sciences

Amino acid and glucose conjugates of a phenylpyrrole compound : synthesis, systemicity and biological properties / Conjugués entre un dérivé phénylpyrrolique et un aminocide ou le glucose : synthèse, systémie et propriétés biologiques

Wu, Hanxiang

07 April 2017

Le but de notre travail est de développer une stratégie de vectorisation pour conférer la mobilité phloémienne aux produits agrochimiques en appliquant le concept de prodrogue dans l'élaboration de composés phytopharmaceutiques. Le fenpiclonil, fongicide non systémique de la famille des phénylpyrroles, a été choisi comme composé parent modèle et modifié en l'associant à un acide alpha-aminé ou à un monosaccharide.La mobilité phloémienne des conjugués entre le fenpiclonil et les acides L ou D-glutamique ou le D-glucose (D-GFC) a été évaluée chez des plantules de ricin. Le test de systémie a montré que le L-aminoacide était nettement plus favorable à la mobilité phloémienne que l'acide D-aminé ou le D-glucose. Les résultats suggèrent que le conjugué fenpiclonil/L-aminoacide est reconnu et manipulé par un système de transport d'acide aminé stéréospécifique énergisé par la force proton-motrice. Des expériences complémentaires ont montré que le D-GFC était un inhibiteur puissant et sélectif de l'absorption du saccharose par les tissus foliaires et du chargement phloémien du saccharose. En raison de l'inhibition spécifique des transporteurs de saccharose (par exemple AtSUC2), le D-GFC peut être envisagé comme un nouvel outil en phloémologie.Enfin, nous avons exploré l'impact de la modification de structure de l'espaceur afin d'optimiser la stratégie de prodrogue. Après avoir introduit différentes structures d'espaceur entre le fenpiclonil et la fonction acide aminé, le conjugué qui contient un cycle triazole avec l'acide aminé comprenant la chaine la plus courte a montré la meilleure mobilité phloémienne et, par ailleurs, une systémie optimisée par rapport aux dérivés acides du fenpiclonil dans la gamme des valeurs de pH de l'apoplasme foliaire. / The purpose of our work is to develop a vectorization strategy to confer phloem mobility to agrochemicals by applying prodrug concept into agrochemical design. Fenpiclonil, a non-systemic fungicide from the phenylpyrrole family, was selected as a model parent compound and modified by associating it with an amino acid or a monosaccharide.The phloem mobility of L and D-glutamic acid and D-glucose fenpiclonil conjugates (D-GFC) was evaluated in Ricinus seedlings. The systemicity test showed that the L-amino acid promoiety was clearly more favorable to phloem mobility than D-amino acid or D-glucose. The results suggested that the transport of the L-amino acid conjugate is governed by a stereospecific amino acid carrier system energized by the proton motive force. Further investigation indicated that D-GFC was a potent and selective inhibitor of sucrose uptake by leaf tissues and sucrose phloem loading. Due to its specific inhibition of sucrose transporters (e.g. AtSUC2), D-GFC can be a candidate as a new tool in phloemology. Finally, we explored structural modifications of the spacer arm to optimize the prodrug strategy. Different structures of the spacer arm were introduced between fenpiclonil and the amino acid function. The conjugate which contains a triazole ring with the shortest amino acid chain showed the best phloem mobility and a better systemicity than fenpiclonil acidic derivatives within the pH range of the foliar apoplast.

Propesticide

Fongicide

Phénylpyrrole

Ricinus communis

Vicia faba

AtSUC2

Transport phloémien

Systémie

Conjugué avec le D-Glucose

Conjugué avec un L-Aminoacide

Propesticide

Fungicide

Phenylpyrrole

Ricinus communis

Vicia faba

AtSUC2

Phloem transport

Systemicity

D-Glucose conjugate

L-Amino acid conjugate

572.5

Efeito da secção do nervo isquiático sobre parâmetros ultraestrutural, histoquímico, imunoistoquímico e de captação de análogos da glicose em gânglio da raiz dorsal de rãs Lithobates catesbianus

Rigon, Fabiana

January 2013

As rãs são utilizadas como modelos experimentais em diferentes situações experimentais. Uma delas é o estudo dos efeitos da seção do nervo isquiático (SNI) sobre o tecido nervoso. Essa ampla utilização desses animais como modelos experimentais justifica a realização de estudos que visam o conhecimento morfofuncional de seus tecidos. Inúmeros estudos mostram que, assim como nos mamíferos, o principal substrato energético no tecido nervoso de rãs é a glicose. Porém, é desconhecida a distribuição dos transportadores de glicose no tecido nervoso de rãs, bem como se a SNI altera esse transporte. Outra questão em aberto é se o lactato, cuja concentração está aumentada no plasma de rãs durante períodos de hibernação e após atividades motoras, é usado como substrato energético pelo tecido nervoso, o que está demonstrado em outras espécies de vertebrados. É desconhecida ainda no gânglio da raiz dorsal (GRD) de rãs a distribuição e os efeitos da SNT sobre a reação à nicotinamida adenina dinucleotídeo fosfato diaforase (NADPH-diaforase), enzima considerada equivalente a óxido nítrico sintase, responsável pela síntese de óxido nítrico, e a reação ao ácido periódico-reativo de Schiff (PAS), que indica a presença de mucopolissarídeos, incluindo o glicogênio, uma importante reserva energética no tecido nervoso de rãs. Desconhece-se também a distribuição e os efeitos da SNT sobre a imunorreatividade à serotonina, importante molécula com função neurotransmissora e/ou moduladora no sistema nervoso, tirosina hidroxilase, enzima limitante na síntese de catecolaminas, moléculas com diversos papéis fisiológicos, incluindo ação neurotransmissora e/ou neuromoduladora no tecido nervoso, e c-Fos, proteína considerada marcadora de ativação neural por estimulação nociva. Outras questões ainda em aberto são os efeitos da SNT sobre: a captação do análogo da glicose 1-14C 2-deoxi-D-glicose (14C-2-DG) e concentração plasmática de glicose e lactato; se os tipos II e III de células gliais satélites (CGSs), recentemente descritas no GRD de coelho, estão presentes nesse gânglio de rãs; e os efeitos da SNT sobre a ultraestrutura de CGSs e neurônios do GRD. Assim, o objetivo dessa tese foi determinar: 1) a ultraestrutura de neurônios e CGSs; 2) a distribuição das reações à NADPH-diaforase e PAS, e a imunoistoquímica à serotonina, tirosina hidroxilase, c-Fos e transportadores de glicose tipo 1 e 3; e 3) a captação de 14C-2-DG, na presença e ausência de lactato, em GRD de rãs Lithobates catesbianus com e sem SNI. A escolha pelos transportadores de glicose tipos 1 e 3 foi pelo fato de ocorrerem na membrana de endotélio, células gliais e de neurônios. Para a realização do estudo inicialmente 12 rãs Lithobates catesbianus, adultas, machos, com peso de 100-200g, que não sofreram qualquer manipulação cirúrgica foram mortas por decapitação e os gânglios das raízes dorsais (GRDs) do nervo isquiático retirados e preparados para análises ultraestrutural, histoquímica à NADPH-diaforase e PAS, e imunoistoquímica à serotonina, tirosina hidroxilase e transportadores de glicose dos tipos 1 e 3. Feito isso, 18 outras rãs, nas mesmas condições físicas, foram divididas em três grupos experimentais (n=6/grupo): controle (rãs que não sofreram qualquer manipulação cirúrgica), sham (rãs onde foram efetuados apenas os procedimentos para isolamento do nervo isquiático) e SNI (rãs que tiveram o nervo isquiático direito totalmente seccionado em seu tronco comum). Esses animais foram mortos três dias após a intervenção cirúrgica e seus GRDs do nervo isquiático usados para demonstrar os efeitos da secção nervosa sobre a ultraestrutura, a reação à NADPH-diaforase, e a imunoistoquímica à serotonina, tirosina hidroxilase, c-Fos e transportadores de glicose dos tipos 1 e 3 no GRD. Outros 20 animais, divididos nos mesmos grupos experimentais, foram usados para demonstrar os efeitos da SNI sobre a captação de 14C-2-DG, na presença ou ausência de lactato, e a taxa de produção de 14CO2 a partir de 14C-L-lactato e de 14C-glicose no GRD. Essas rãs foram usadas ainda para demonstrar os efeitos da denervação periférica sobre a concentração plasmática de glicose e lactato. Nossos resultados mostraram que os neurônios sensoriais do GRD de rã Lithobates catesbianus tiveram distribuição, diâmetro e morfologia que foi similar àquela descrita para essas células em gânglio de mamíferos. As CGSs apresentaram morfologia similar àquela descrita para essas células em gânglios de outras espécies de vertebrados. As células dos tipos II e III, observadas no GRD de coelho, não ocorreram no GRD de Lithobates catesbianus. O padrão de atividade à NADPH-diaforase e a distribuição da imunorreatividade à serotonina, tirosina hidroxilase e Glut 1 e 3 foram também similares ao descrito em mamíferos. Pela primeira vez foi demonstrada, em anfíbios, a presença de reação à NADPH-diaforase em CGCs do GRD. A captação de 14C-2-DG foi reduzida quando o lactato foi acrescentado ao meio de incubação. As alterações induzidas pela SNI foram também similares àquelas descritas nos mamíferos. Houve acréscimo no número de mitocôndrias, retículo endoplasmático, ribossomas e filamentos no citoplasma das CGSs, mais neurônios e CGCs com reação positiva à NADPH-diaforase, um maior número de prolongamentos imunorreativos à tirosina hidroxilase em torno de somas de neurônios sensoriais, e mais núcleos neuronais imunorreativos a c-Fos. Nenhuma alteração ocorreu na imunorreatividade a serotonina e transportadores de glicose. Houve aumento na captação de 14C-2-DG, que foi reduzido quando o lactato foi acrescentado ao meio de incubação. Porém, a formação de 14CO2 a partir de 14C-L-lactato e de 14C-glicose não alterou nessas condições. Todavia, diferentemente dos mamíferos, a SNI não provocou mudança no número de CGCs no GRD, mostrando uma peculiaridade na resposta das rãs à SNI. Assim, nosso estudo reforça o uso de rãs como modelo experimental para estudo dos efeitos da SNI, um modelo de dor fantasma, sobre o tecido nervoso. Porém, dada a diferença peculiar ocorrida no GRD de rãs com SNI, é evidente a necessidade de mais conhecimento dos efeitos dessa situação experimental nesses animais. / Frogs have been used as experimental models in different experimental situations. One of these is the study of the effects of the sciatic nerve transection (SNT) on the nerve tissue. The wide use of these animals as experimental models justifies the studies aimed at morphofunctionally understanding of their tissues. Numerous studies have shown that glucose is the main energy substrate in the nerve tissue of frogs as well as in mammals. However, the distribution of glucose transporters in the nerve tissue of frogs is unknown as well as whether SNT alters such transportation. Another unanswered question is whether the lactate, whose concentration is increased in the frog plasma during hibernation periods and after motor activities, is used as an energy substrate by the nerve tissue, which has been demonstrated in other vertebrate species. In the dorsal root ganglion (DRG) cells of frogs are still unknown the distribution and effects of SNT on the reaction of nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-diaphorase), an enzyme that is considered equivalent to nitric oxide synthase, responsible for the synthesis of nitric oxide, and on the reaction of periodic acid-Schiff (PAS), which indicates the presence of mucopolysaccharides, including glycogen, an important energy reserve in frog nerve tissue. Moreover, the distribution and effects of SNT on immunoreactivity to serotonin, an important molecule that functions as a neurotransmitter and / or neuromodulator in the nervous system, tyrosine hydroxylase, the rate-limiting enzyme in catecholamine biosynthesis, molecules with various physiological roles, including neurotransmitter and / or neuromodulator action in the nerve tissue, and c-Fos, a protein that is regarded as a marker of neuronal activation by noxious stimulation are also unknown. Other questions regarding is the effect of SNT on the uptake of glucose analogue 2-Deoxy-D-glucose-1-14C (14C-2-DG) and glucose and lactate concentration plasma; whether the types II and III of satellite glial cells (SGCs), recently described in rabbit DRG, are present in this ganglion of frogs; and the effects of SNT on the ultrastructure of SGCs and DRG neurons remain unanswered as well. Thus, this thesis aimed to determine: 1) the ultrastructure of neurons and SGCs; 2) the distribution of NADPH-diaphorase and PAS reaction, and immunohistochemistry for serotonin, tyrosine hydroxylase, c-Fos and glucose transporters types 1 and 3; and 3) the uptake of 2-DG-14C, in the presence and absence of lactate, in DRG of frogs, Lithobates catesbianus, with and without SNT. Glucose transporters types 1 and 3 were chosen because they occur in the membrane of endothelial cells, glial cells and neurons. Initially, 12 adult male frogs, Lithobates catesbianus, weighing 100-200g, not having undergone any previous surgical manipulation, were killed by decapitation. The DRGs of the sciatic nerve were removed and prepared for ultrastructural analysis, histochemistry of NADPH-diaphorase and PAS, and immunohistochemistry for serotonin, tyrosine hydroxylase and glucose transporters types 1 and 3. After that, 18 other frogs in the same physical conditions were divided into three experimental groups (n = 6/group): control group (frogs not subjected to any surgical manipulation), sham (frogs in which only surgical procedures for isolating the sciatic nerve were performed), and SNT (frogs in which the right sciatic nerve was completely transected). These animals were killed three days after the procedure, and their sciatic nerve DRGs used to demonstrate the effects of nerve transection on the ultrastructure, NADPH-diaphorase reaction, and immunohistochemical serotonin, tyrosine hydroxylase, c-Fos and glucose transporters types 1 and 3 in the DRG. Other 20 animals, divided into the same experimental groups, were used to demonstrate the effects of SNI on the uptake of 14C-2-DG in the presence or absence of lactate, the production rate of 14CO2 from 14C-L-lactate and 14C-glucose in the DRG. These frogs were used to further demonstrate the effects of peripheral denervation on plasma glucose and lactate levels. Our results have demonstrated that sensory neurons of bullfrog, Lithobates catesbianus, DRG showed distribution, diameter and morphology similar to those described for these ganglion cells in mammals. The CGSs showed morphology similar to that described for these cells in the lymph nodes of other vertebrate species. Cells types II and III, observed in rabbit DRG did not occur in the Lithobates catesbianus DRG. The pattern of NADPH-diaphorase activity and distribution of immunoreactivity of serotonin, tyrosine hydroxylase and Glut 1 and 3 were also similar to those described in mammals. For the first time, it has been demonstrated the presence of NADPH-diaphorase reaction on SGCs of DRG in amphibians. The uptake of 14C-2-DG was reduced when lactate was added to the incubation medium. SNT-induced changes were also similar to those ones described in mammals. There was an increase in the number of mitochondria, endoplasmic reticulum, ribosomes and filaments in the SGCs cytoplasm; more neurons and SGCs with positive reaction to NADPH-diaphorase; a greater number of tyrosine hydroxylase immunoreactive extensions around body sensory neurons; and more c-Fos immunoreactivity in neuronal nuclei. No changes occurred in serotonin immunoreactivity and glucose transporters. There was an increase in the uptake of 14C-2-DG, which was reduced when lactate was added to the incubation medium. However, the formation of 14C-2-DG from 14C-L-lactato and glucose did not change under these conditions. Unlike mammals, SNT caused no change in the number of SGCs in DRG, showing a peculiarity in the response of frogs to SNT. Therefore, our study supports the use of frogs as an experimental model to study the effects of SNT, a model of phantom pain on the nerve tissue. However, given the peculiar differences occurred in the DRG of frogs with SNT, it is clearly necessary to carry out further studies to better understand the effects of an experimental situation like this in such animals.

Nervo isquiático

Axotomia

Imuno-histoquímica

NADPH diaforase

Serotonina

Tirosina hidroxilase

Glucose

Axotomy

Histochemistry

Immunoreactivity

NADPH-diaphorase

Serotonin

Tyrosine hydroxylase

1-[14C] 2-deoxy-D-glucose

3-O-[14C] methyl-D-glucose

Efeito da secção do nervo isquiático sobre parâmetros ultraestrutural, histoquímico, imunoistoquímico e de captação de análogos da glicose em gânglio da raiz dorsal de rãs Lithobates catesbianus

Rigon, Fabiana

January 2013

As rãs são utilizadas como modelos experimentais em diferentes situações experimentais. Uma delas é o estudo dos efeitos da seção do nervo isquiático (SNI) sobre o tecido nervoso. Essa ampla utilização desses animais como modelos experimentais justifica a realização de estudos que visam o conhecimento morfofuncional de seus tecidos. Inúmeros estudos mostram que, assim como nos mamíferos, o principal substrato energético no tecido nervoso de rãs é a glicose. Porém, é desconhecida a distribuição dos transportadores de glicose no tecido nervoso de rãs, bem como se a SNI altera esse transporte. Outra questão em aberto é se o lactato, cuja concentração está aumentada no plasma de rãs durante períodos de hibernação e após atividades motoras, é usado como substrato energético pelo tecido nervoso, o que está demonstrado em outras espécies de vertebrados. É desconhecida ainda no gânglio da raiz dorsal (GRD) de rãs a distribuição e os efeitos da SNT sobre a reação à nicotinamida adenina dinucleotídeo fosfato diaforase (NADPH-diaforase), enzima considerada equivalente a óxido nítrico sintase, responsável pela síntese de óxido nítrico, e a reação ao ácido periódico-reativo de Schiff (PAS), que indica a presença de mucopolissarídeos, incluindo o glicogênio, uma importante reserva energética no tecido nervoso de rãs. Desconhece-se também a distribuição e os efeitos da SNT sobre a imunorreatividade à serotonina, importante molécula com função neurotransmissora e/ou moduladora no sistema nervoso, tirosina hidroxilase, enzima limitante na síntese de catecolaminas, moléculas com diversos papéis fisiológicos, incluindo ação neurotransmissora e/ou neuromoduladora no tecido nervoso, e c-Fos, proteína considerada marcadora de ativação neural por estimulação nociva. Outras questões ainda em aberto são os efeitos da SNT sobre: a captação do análogo da glicose 1-14C 2-deoxi-D-glicose (14C-2-DG) e concentração plasmática de glicose e lactato; se os tipos II e III de células gliais satélites (CGSs), recentemente descritas no GRD de coelho, estão presentes nesse gânglio de rãs; e os efeitos da SNT sobre a ultraestrutura de CGSs e neurônios do GRD. Assim, o objetivo dessa tese foi determinar: 1) a ultraestrutura de neurônios e CGSs; 2) a distribuição das reações à NADPH-diaforase e PAS, e a imunoistoquímica à serotonina, tirosina hidroxilase, c-Fos e transportadores de glicose tipo 1 e 3; e 3) a captação de 14C-2-DG, na presença e ausência de lactato, em GRD de rãs Lithobates catesbianus com e sem SNI. A escolha pelos transportadores de glicose tipos 1 e 3 foi pelo fato de ocorrerem na membrana de endotélio, células gliais e de neurônios. Para a realização do estudo inicialmente 12 rãs Lithobates catesbianus, adultas, machos, com peso de 100-200g, que não sofreram qualquer manipulação cirúrgica foram mortas por decapitação e os gânglios das raízes dorsais (GRDs) do nervo isquiático retirados e preparados para análises ultraestrutural, histoquímica à NADPH-diaforase e PAS, e imunoistoquímica à serotonina, tirosina hidroxilase e transportadores de glicose dos tipos 1 e 3. Feito isso, 18 outras rãs, nas mesmas condições físicas, foram divididas em três grupos experimentais (n=6/grupo): controle (rãs que não sofreram qualquer manipulação cirúrgica), sham (rãs onde foram efetuados apenas os procedimentos para isolamento do nervo isquiático) e SNI (rãs que tiveram o nervo isquiático direito totalmente seccionado em seu tronco comum). Esses animais foram mortos três dias após a intervenção cirúrgica e seus GRDs do nervo isquiático usados para demonstrar os efeitos da secção nervosa sobre a ultraestrutura, a reação à NADPH-diaforase, e a imunoistoquímica à serotonina, tirosina hidroxilase, c-Fos e transportadores de glicose dos tipos 1 e 3 no GRD. Outros 20 animais, divididos nos mesmos grupos experimentais, foram usados para demonstrar os efeitos da SNI sobre a captação de 14C-2-DG, na presença ou ausência de lactato, e a taxa de produção de 14CO2 a partir de 14C-L-lactato e de 14C-glicose no GRD. Essas rãs foram usadas ainda para demonstrar os efeitos da denervação periférica sobre a concentração plasmática de glicose e lactato. Nossos resultados mostraram que os neurônios sensoriais do GRD de rã Lithobates catesbianus tiveram distribuição, diâmetro e morfologia que foi similar àquela descrita para essas células em gânglio de mamíferos. As CGSs apresentaram morfologia similar àquela descrita para essas células em gânglios de outras espécies de vertebrados. As células dos tipos II e III, observadas no GRD de coelho, não ocorreram no GRD de Lithobates catesbianus. O padrão de atividade à NADPH-diaforase e a distribuição da imunorreatividade à serotonina, tirosina hidroxilase e Glut 1 e 3 foram também similares ao descrito em mamíferos. Pela primeira vez foi demonstrada, em anfíbios, a presença de reação à NADPH-diaforase em CGCs do GRD. A captação de 14C-2-DG foi reduzida quando o lactato foi acrescentado ao meio de incubação. As alterações induzidas pela SNI foram também similares àquelas descritas nos mamíferos. Houve acréscimo no número de mitocôndrias, retículo endoplasmático, ribossomas e filamentos no citoplasma das CGSs, mais neurônios e CGCs com reação positiva à NADPH-diaforase, um maior número de prolongamentos imunorreativos à tirosina hidroxilase em torno de somas de neurônios sensoriais, e mais núcleos neuronais imunorreativos a c-Fos. Nenhuma alteração ocorreu na imunorreatividade a serotonina e transportadores de glicose. Houve aumento na captação de 14C-2-DG, que foi reduzido quando o lactato foi acrescentado ao meio de incubação. Porém, a formação de 14CO2 a partir de 14C-L-lactato e de 14C-glicose não alterou nessas condições. Todavia, diferentemente dos mamíferos, a SNI não provocou mudança no número de CGCs no GRD, mostrando uma peculiaridade na resposta das rãs à SNI. Assim, nosso estudo reforça o uso de rãs como modelo experimental para estudo dos efeitos da SNI, um modelo de dor fantasma, sobre o tecido nervoso. Porém, dada a diferença peculiar ocorrida no GRD de rãs com SNI, é evidente a necessidade de mais conhecimento dos efeitos dessa situação experimental nesses animais. / Frogs have been used as experimental models in different experimental situations. One of these is the study of the effects of the sciatic nerve transection (SNT) on the nerve tissue. The wide use of these animals as experimental models justifies the studies aimed at morphofunctionally understanding of their tissues. Numerous studies have shown that glucose is the main energy substrate in the nerve tissue of frogs as well as in mammals. However, the distribution of glucose transporters in the nerve tissue of frogs is unknown as well as whether SNT alters such transportation. Another unanswered question is whether the lactate, whose concentration is increased in the frog plasma during hibernation periods and after motor activities, is used as an energy substrate by the nerve tissue, which has been demonstrated in other vertebrate species. In the dorsal root ganglion (DRG) cells of frogs are still unknown the distribution and effects of SNT on the reaction of nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-diaphorase), an enzyme that is considered equivalent to nitric oxide synthase, responsible for the synthesis of nitric oxide, and on the reaction of periodic acid-Schiff (PAS), which indicates the presence of mucopolysaccharides, including glycogen, an important energy reserve in frog nerve tissue. Moreover, the distribution and effects of SNT on immunoreactivity to serotonin, an important molecule that functions as a neurotransmitter and / or neuromodulator in the nervous system, tyrosine hydroxylase, the rate-limiting enzyme in catecholamine biosynthesis, molecules with various physiological roles, including neurotransmitter and / or neuromodulator action in the nerve tissue, and c-Fos, a protein that is regarded as a marker of neuronal activation by noxious stimulation are also unknown. Other questions regarding is the effect of SNT on the uptake of glucose analogue 2-Deoxy-D-glucose-1-14C (14C-2-DG) and glucose and lactate concentration plasma; whether the types II and III of satellite glial cells (SGCs), recently described in rabbit DRG, are present in this ganglion of frogs; and the effects of SNT on the ultrastructure of SGCs and DRG neurons remain unanswered as well. Thus, this thesis aimed to determine: 1) the ultrastructure of neurons and SGCs; 2) the distribution of NADPH-diaphorase and PAS reaction, and immunohistochemistry for serotonin, tyrosine hydroxylase, c-Fos and glucose transporters types 1 and 3; and 3) the uptake of 2-DG-14C, in the presence and absence of lactate, in DRG of frogs, Lithobates catesbianus, with and without SNT. Glucose transporters types 1 and 3 were chosen because they occur in the membrane of endothelial cells, glial cells and neurons. Initially, 12 adult male frogs, Lithobates catesbianus, weighing 100-200g, not having undergone any previous surgical manipulation, were killed by decapitation. The DRGs of the sciatic nerve were removed and prepared for ultrastructural analysis, histochemistry of NADPH-diaphorase and PAS, and immunohistochemistry for serotonin, tyrosine hydroxylase and glucose transporters types 1 and 3. After that, 18 other frogs in the same physical conditions were divided into three experimental groups (n = 6/group): control group (frogs not subjected to any surgical manipulation), sham (frogs in which only surgical procedures for isolating the sciatic nerve were performed), and SNT (frogs in which the right sciatic nerve was completely transected). These animals were killed three days after the procedure, and their sciatic nerve DRGs used to demonstrate the effects of nerve transection on the ultrastructure, NADPH-diaphorase reaction, and immunohistochemical serotonin, tyrosine hydroxylase, c-Fos and glucose transporters types 1 and 3 in the DRG. Other 20 animals, divided into the same experimental groups, were used to demonstrate the effects of SNI on the uptake of 14C-2-DG in the presence or absence of lactate, the production rate of 14CO2 from 14C-L-lactate and 14C-glucose in the DRG. These frogs were used to further demonstrate the effects of peripheral denervation on plasma glucose and lactate levels. Our results have demonstrated that sensory neurons of bullfrog, Lithobates catesbianus, DRG showed distribution, diameter and morphology similar to those described for these ganglion cells in mammals. The CGSs showed morphology similar to that described for these cells in the lymph nodes of other vertebrate species. Cells types II and III, observed in rabbit DRG did not occur in the Lithobates catesbianus DRG. The pattern of NADPH-diaphorase activity and distribution of immunoreactivity of serotonin, tyrosine hydroxylase and Glut 1 and 3 were also similar to those described in mammals. For the first time, it has been demonstrated the presence of NADPH-diaphorase reaction on SGCs of DRG in amphibians. The uptake of 14C-2-DG was reduced when lactate was added to the incubation medium. SNT-induced changes were also similar to those ones described in mammals. There was an increase in the number of mitochondria, endoplasmic reticulum, ribosomes and filaments in the SGCs cytoplasm; more neurons and SGCs with positive reaction to NADPH-diaphorase; a greater number of tyrosine hydroxylase immunoreactive extensions around body sensory neurons; and more c-Fos immunoreactivity in neuronal nuclei. No changes occurred in serotonin immunoreactivity and glucose transporters. There was an increase in the uptake of 14C-2-DG, which was reduced when lactate was added to the incubation medium. However, the formation of 14C-2-DG from 14C-L-lactato and glucose did not change under these conditions. Unlike mammals, SNT caused no change in the number of SGCs in DRG, showing a peculiarity in the response of frogs to SNT. Therefore, our study supports the use of frogs as an experimental model to study the effects of SNT, a model of phantom pain on the nerve tissue. However, given the peculiar differences occurred in the DRG of frogs with SNT, it is clearly necessary to carry out further studies to better understand the effects of an experimental situation like this in such animals.

Nervo isquiático

Axotomia

Imuno-histoquímica

NADPH diaforase

Serotonina

Tirosina hidroxilase

Glucose

Axotomy

Histochemistry

Immunoreactivity

NADPH-diaphorase

Serotonin

Tyrosine hydroxylase

1-[14C] 2-deoxy-D-glucose

3-O-[14C] methyl-D-glucose