AlteraÃÃes metabolicas na isquemia e reperfusao da medula espinhal em ratos pre-tratados com l-alanil-glutamina / Metabolic alterations in isquemia and reperfusÃo of the spinal marrow in rats prÃ-tratados with l-alanil-glutamina

Sonia Elizabeth Lopez Carrillo

18 December 2003

CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior / nÃo hà / Foram investigados os efeitos do prÃ-tratamento com l-alanil-glutamina (L-Ala-Gln) sobre as concentraÃÃes de glicose, piruvato, lactato e ATP na medula espinhal e sangue em ratos submetidos à isquemia/reperfusÃo medular. Utilizaram-se 72 ratos Wistar adultos, machos, distribuÃdos em dois grupos, numericamente iguais e prÃ-tratados com soluÃÃo salina (2,0 ml) ou soluÃÃo de L-Ala-Gln a 20% (0,75g/Kg peso) ApÃs 30 minutos os ratos de cada grupo foram aleatoriamente distribuÃdos em dois subgrupos (n=18). Os ratos prÃ-tratados com soluÃÃo salina (n=18) foram submetidos ao trauma cirÃrgico (G1) ou ao trauma seguido de pinÃamento da aorta abdominal infra-diafragmÃtica durante 30 minutos (G2), seguido por 10 ou 20 minutos de reperfusÃo Os animais prÃ-tratados com L-Ala-Gln foram submetidos aos mesmos procedimentos. Amostras (medula espinhal e sangue arterial) foram coletadas ao tÃrmino de perÃodo de isquemia e 10/20 minutos mais tarde. Os metabÃlitos foram determinados por ensaio enzimÃtico e expressos como MÃdia  E.P.M. Os testes âtâ de Student ou Mann-Whitney foram utilizados nas anÃlises estatÃsticas. O nÃvel de significÃncia foi de p<0,05. O trauma cirÃrgico seguido de isquemia/reperfusÃo (G2) nÃo induziu alteraÃÃes nas concentraÃÃes de glicose e lactato no sangue ou na medula dos animais prÃ-tratados com soluÃÃo salina, comparados ao grupo G1. Entretanto, a concentraÃÃo de piruvato medular reduziu-se significativamente aos 20 minutos de reperfusÃo, na medula no G2 e nos ratos prÃ-tratados com L-Ala-Gln (G3), comparados ao grupo G1. As concentraÃÃes de ATP reduziram-se significativamente no grupo G4, refletindo um maior consumo para a produÃÃo de energia. As concentraÃÃes de lactato aumentaram significativamente durante a reperfusÃo nos ratos prÃ-tratados com L-Ala-Gln, possivelmente por uma maior conversÃo de piruvato a lactato. Conclui-se que o modelo utilizado nÃo foi eficiente na produÃÃo de uma isquemia medular importante. Por outro lado, o prÃ-tratamento com L-Ala-Gln na vigÃncia do aumento das concentraÃÃes de lactato no sangue e na medula pode ser devido à glicÃlise aumentada, possivelmente secundÃria a maior disponibilidade de glutamato, produzindo ativaÃÃo da lanÃadeira malato-aspartato / A study has been conducted to investigate the effects of L-alanyl-glutamine (L-Ala-Gln) upon blood and tissue (spinal cord) concentrations of glucose, pyruvate, lactate and ATP in rats subjected to spinal cord ischemia/reperfusion. Seventy-two male Wistar rats distributed in 2 equal groups received either saline 2.0 ml or 20% solution of L-Ala-Gln (0.75g/Kg). Thirty minutes later rats of each group were randomized in two subgroups (n=18) and subjected to surgical trauma (G1) or to surgical trauma and infradiafragmatic aortic clamping for 30 minutes (G2), followed by 10 or 20 minutes of reperfusion. L-Ala-Gln treated rats were subjected to the same procedures (G3 and G4, respectively). Arterial blood and spinal cord samples were collected and the end of ischemia and 10/20 minutes later. Metabolites were submitted to enzymatic analyses. Results were expressed as Mean  S.E.M. Studentâs âtâ and Mann-Whitney tests were utilized for statistical analyses. P<0.05 was accepted as significant. Blood and spinal cord glucose and lactate were not different in G1 and G2 rats. However, spinal cord pyruvate concentrations decreased significantly after 20 minutes of reperfusion in L-Ala-Gln treated rats (G3) compared with G1. ATP concentrations decreased significantly in G4 rats, reflecting an increased utilization for energy production. Lactate concentrations were also increased during reperfusion in ischemic L-Ala-Gln treated rats (G4) possibly due to an increased turnover of pyruvate to lactate. It is concluded that the model utilized in this study did not induce an important spinal cord ischemia. Increased blood and spinal cord lactate concentrations could be related to enhanced glycolysis possibly secondary to increased glutamate availability leading to malate-aspartate shuttle activation

LesÃo de reperfusÃo

Isquemia

Medula espinhal

MetabÃlitos. L-alanil-glutamina

L-alanyl-glutamine

Metabolites

Reperfusion injury

Ischemia

Spinal cord

CIRURGIA EXPERIMENTAL

Efeito da suplementação com L-glutamina e L-alanina, livres ou como dipeptídeo, sobre a lesão, inflamação e citoproteção em modelos de estresse in vivo e in vitro / Effects of supplementation with L-glutamine and L-alanine, in their free form or as dipeptide, on muscle damage, inflammation and cytoprotection of in vivo and in vitro stress models

Raquel Raizel

10 October 2017

Subprojeto 1: Determinação do efeito anti-inflamatório e citoprotetor da suplementação com L-glutamina e L-alanina, ou com L-alanil-L-glutamina (DIP) em ratos submetidos a treinamento resistido. Exercícios intensos reduzem a disponibilidade de glutamina, comprometendo a função imune e a recuperação de atletas. O objetivo do estudo foi avaliar os efeitos da suplementação oral crônica com L-glutamina e L-alanina, nas formas livres ou como dipeptídeo (DIP), sobre parâmetros de lesão, inflamação e citoproteção em ratos Wistar adultos submetidos a treinamento resistido (TR). Neste estudo, o TR reduziu a concentração de glutamina no plasma e no músculo EDL. No entanto, este efeito foi atenuado pelos suplementos contendo L-glutamina, os quais aumentaram os conteúdos da proteína de resposta ao estresse (HSP70) em células do sistema imune (PBMC) e no EDL, concomitantemente à redução da ativação do NF-kB e a da concentração de citocinas no EDL. O efeito protetor das suplementações também foi evidenciado pela atenuação de marcadores de lesão (CK e LDH) e inflamação (TNF-&#945 e IL-1&#946), bem como pelo aumento nas concentrações de marcadores anti-inflamatórios (IL-6, IL-10 e MCP-1) no plasma. Nossos resultados sugerem que a suplementação oral crônica com L-glutamina (administrada com L-alanina livre ou como DIP) promoveu efeitos citoprotetores mediados pela HSP70 em resposta à lesão e inflamação induzidas pelo TR. Subprojeto 2: Efeitos da L-alanil-L-glutamina sobre as vias de sinalização da insulina e da mTOR/S6K, e citoproteção em células musculoesqueléticas C2C12. O dipeptídeo L-alanil-L-glutamina é conhecido por modular o metabolismo e a viabilidade celular. Contudo, os efeitos sobre os componentes clássicos das vias de sinalização da insulina e da mTOR/S6K, bem como o efeito citoprotetor em células musculares, são pouco esclarecidos. O objetivo deste estudo foi investigar o efeito do DIP sobre as vias de sinalização da insulina e da mTOR/S6K em miotubos C2C12, em condições normais ou resistentes à insulina. A exposição crônica à insulina (24h) promoveu resistência à insulina, reduzindo os conteúdos totais do receptor beta (IR-&#946;) e do substrato do receptor de insulina (IRS-1), e diminuindo a fosforilação de IRS-1, AKT e P44/42 MAPK. Adicionalmente, houve redução na expressão do transportador de glicose (GLUT4) e HSP70, redução da viabilidade celular e menor fosforilação de p70S6k e S6, proteínas relacionadas à síntese proteica. Em contraste, a suplementação com DIP aumentou os conteúdos totais de IR-&#946 e IRS-1 e a fosforilação de IRS-1 e AKT. A glicólise anaeróbia e a capacidade glicolítica, além da fosforilação de p70S6k e S6, foram aumentadas pelo DIP em condições normais e na resistência à insulina. Nestas condições experimentais, nossos resultados sugerem que a suplementação com DIP melhorou as vias de sinalizações da insulina e da mTOR/S6K, aumentou a captação e metabolização da glicose, independente da estimulação com insulina e, finalmente, promoveu citoproteção resgatando parcialmente as células de um estado resistente à insulina, por meio do aumento de HSP70 e ativação das etapas finais da via mTOR/S6K. / Subproject 1: Determination of the anti-inflammatory and cytoprotective effects of supplementation with L-glutamine and L-alanine, or with L-alanyl-L-glutamine in rats submitted to resistance training. Intense exercise reduces glutamine availability, compromising immune function and recovery of athletes. The objective of the study was to evaluate the effects of chronic oral supplementation with L-glutamine and L-alanine, in their free form or as dipeptide (DIP), on muscle damage, inflammation and cytoprotection in adult Wistar rats submitted to resistance training (RT). In this study, RT reduced glutamine concentration in plasma and EDL muscle. However, this effect was attenuated by supplements containing L-glutamine, which increased the contents of the stress response protein (HSP70) in immune system cells (PBMC) and EDL, concomitantly with the reduction of NF-kB activation and the concentration of cytokines in EDL. The protective effect of supplementation was also evidenced by attenuation of lesion markers (CK and LDH) and inflammation (TNF-&#945; and IL-1&#946;), as well as by the increase in anti-inflammatory plasma markers (IL-6, IL-10 and MCP-1). Our results suggest that chronic oral supplementation with L-glutamine (administered along with free L-alanine or as DIP) promoted HSP70-mediated cytoprotective effects in response to RT-induced injury and inflammation. Subproject 2: Effects of L-alanyl-L-glutamine on the components of insulin and mTOR/ S6K signaling pathways and cytoprotection in C2C12 musculoskeletal cells. The dipeptide L-alanyl-L-glutamine is known to modulate metabolism and cell viability. However, the effects on the classical components of insulin and mTOR/ S6K signaling pathways, as well as the cytoprotective effect on muscle cells, are poorly understood. The aim of this study was to investigate the effect of DIP on insulin and mTOR/ S6K signaling pathways in C2C12 myotubes, under normal or insulin resistant conditions. Chronic insulin exposure (24h) promoted insulin resistance, reducing the total contents of the insulin receptor (IR-&#946) and the insulin receptor substrate (IRS-1), and decreasing the phosphorylation of IRS-1, AKT and P44/ 42 MAPK. In addition, there was a reduction in the expression of glucose transporter (GLUT4) and HSP70, reduction of cell viability and defective phosphorylation of p70S6k and S6, which are related to protein synthesis. On the other hand, DIP supplementation increased the total contents of IR-&#946 and IRS-1 and the phosphorylation of IRS-1 and AKT. Anaerobic glycolysis and glycolytic capacity, in addition to phosphorylation of p70S6k and S6, were increased by DIP under normal conditions and in insulin resistance. In our experimental conditions, our results suggest that DIP supplementation improved the signaling pathways of insulin and mTOR/ S6K, increased glucose uptake and metabolism, independent of insulin stimulation, and finally promoted cytoprotection by partially rescuing the cells of an insulin resistant state, by increasing HSP70 and activating the final stages of the mTOR/ S6K pathway.

Alanina

Glutamina

Insulina

L-alanil-L-glutamina

Treinamento resistido

Alanine

Glutamine

Insulin

L-alanyl-L-glutamine

Resistance training

Studium klinických projevů vybraných vzácných onemocnění v dětském věku. / Clinical aspects of selected rare diseases in children.

Mazurová, Stella

January 2021

Introduction: Diagnosing inborn metabolic diseases, as a large subgroup of rare diseases, due to their rarity and wide variety of clinical manifestations, can be demanding and often prolonged. Objective: The aim of this work is, with the regard to clinical, biochemical and genetical aspects of selected rare diseases, to contribute to their rapid detection, widen the features of the natural course of the disease and contribute to their preventability. Material: This work includes cohort studies of patiens with cardiac manifestations in mitochondrial diseases, namely a group of 48 patients with TMEM70 protein deficiency, a group of 4 patients with Barth syndrome and individual cases of rare mitochondrial cardiomyopathies, thimidine kinase 2 deficiency and alanyl tRNA synthetase 2 deficiency. By determining the frequency, severity and type of heart disease, the phenotype was expanded, and the design of a therapeutic algorithm then made a positive impact on the prognosis of these patients. The work is also focused on the role of cardiac disease in the differential diagnosis of other genetically determined rare diseases, Marfan's syndrome and especially Pompe disease, where the emphasis is on early diagnosis, mainly due to the existence of an effective therapy. Focus on a broader differential diagnosis...

Vanadate and Peroxovanadate Complexes of Biomedical Relevance : A speciation approach with focus on diabetes

Gorzsás, András

January 2005

<p>Diabetes mellitus is one of the most threatening epidemics of modern times with rapidly increasing incidence. Vanadium and peroxovanadium compounds have been shown to exert insulin–like actions and, in contrast to insulin, are orally applicable. However, problems with side–effects and toxicity remain. The exact mechanism(s) by which these compounds act are not yet fully known. Thus, a better understanding of the aqueous chemistry of vanadates and peroxovanadates in the presence of various (bio)ligands is needed.</p><p>The present thesis summarises six papers dealing mainly with aqueous speciation in different vanadate – and peroxovanadate – ligand systems of biological and medical relevance. Altogether, five ligands have been studied, including important blood constituents (lactate, citrate and phosphate), a potential drug candidate (picolinic acid), and a dipeptide (alanyl serine) to model the interaction of (peroxo)vanadate in the active site of enzymes. Since all five ligands have been studied both with vanadates and peroxovanadates, the number of systems described in the present work is eleven, including the vanadate – citrate – lactate mixed ligand system. The pH–independent formation constants have been determined for 33 ternary vanadate – ligand, 41 quaternary peroxovanadate – ligand and two vanadate – mixed ligand species in addition to the p<i>K</i>_a values of all five ligands. These constants have been used to model physiological conditions, and the biomedical relevance of the different species is discussed.</p><p>The studies have been performed at 25 ºC in the physiological medium of 0.150 M Na(Cl), i.e. the ionic strength of human blood. No buffers have been used, and wide pH–ranges have usually been covered. The applied experimental techniques comprise mostly ⁵¹V NMR and potentiometry, but ³¹P, ¹³C, ¹H and ¹⁴N NMR as well as EPR and ESI–MS have also been used to gain additional information. Multimethod data have been treated by the least–squares program LAKE and modelling has been carried out by the software package WinSGW.</p><p>Whenever possible, solution structures of the species have been proposed. In addition, simple biological tests have been carried out to determine the stability of the formed peroxovanadate complexes in the presence of human catalase. A brief comparison is given of the different vanadate – ligand and peroxovanadate – ligand systems with emphasis on observed trends and general features.</p>

Inorganic chemistry

vanadium

hydrogen peroxide

lactate

citrate

phosphate

alanyl serine

picolinic acid

speciation

formation constants

equilibrium

solution structure

potentiometry

NMR (51V

31P

13C

1H)

Oorganisk kemi

Inorganic chemistry

Oorganisk kemi

Vanadate and Peroxovanadate Complexes of Biomedical Relevance : A speciation approach with focus on diabetes

Gorzsás, András

January 2005

Diabetes mellitus is one of the most threatening epidemics of modern times with rapidly increasing incidence. Vanadium and peroxovanadium compounds have been shown to exert insulin–like actions and, in contrast to insulin, are orally applicable. However, problems with side–effects and toxicity remain. The exact mechanism(s) by which these compounds act are not yet fully known. Thus, a better understanding of the aqueous chemistry of vanadates and peroxovanadates in the presence of various (bio)ligands is needed. The present thesis summarises six papers dealing mainly with aqueous speciation in different vanadate – and peroxovanadate – ligand systems of biological and medical relevance. Altogether, five ligands have been studied, including important blood constituents (lactate, citrate and phosphate), a potential drug candidate (picolinic acid), and a dipeptide (alanyl serine) to model the interaction of (peroxo)vanadate in the active site of enzymes. Since all five ligands have been studied both with vanadates and peroxovanadates, the number of systems described in the present work is eleven, including the vanadate – citrate – lactate mixed ligand system. The pH–independent formation constants have been determined for 33 ternary vanadate – ligand, 41 quaternary peroxovanadate – ligand and two vanadate – mixed ligand species in addition to the pKa values of all five ligands. These constants have been used to model physiological conditions, and the biomedical relevance of the different species is discussed. The studies have been performed at 25 ºC in the physiological medium of 0.150 M Na(Cl), i.e. the ionic strength of human blood. No buffers have been used, and wide pH–ranges have usually been covered. The applied experimental techniques comprise mostly 51V NMR and potentiometry, but 31P, 13C, 1H and 14N NMR as well as EPR and ESI–MS have also been used to gain additional information. Multimethod data have been treated by the least–squares program LAKE and modelling has been carried out by the software package WinSGW. Whenever possible, solution structures of the species have been proposed. In addition, simple biological tests have been carried out to determine the stability of the formed peroxovanadate complexes in the presence of human catalase. A brief comparison is given of the different vanadate – ligand and peroxovanadate – ligand systems with emphasis on observed trends and general features.

Inorganic chemistry

vanadium

hydrogen peroxide

lactate

citrate

phosphate

alanyl serine

picolinic acid

speciation

formation constants

equilibrium

solution structure

potentiometry

NMR (51V

31P

13C

1H)

Oorganisk kemi

Inorganic chemistry

Oorganisk kemi