Efeito do treinamento de força e suplementação da dieta com leucina no tecido adiposo de ratos com diabetes mellitus tipo 1 / Effect of resistance training and diet supplementation with leucine in the adipose tissue of type 1 diabetic rats.

Ribeiro, Henrique Quintas Teixeira

22 June 2016

A diabetes mellitus (DM) é considerada uma das principais epidemias mundiais deste século, sendo responsável direta ou indiretamente pelo óbito de 123 mil diabéticos no Brasil em 2010. Na diabetes mellitus do tipo 1 (DM1), que corresponde a 5-10% dos casos, há ausência ou um relativo déficit de insulina circulante, acarretando aumento na glicemia e em produtos glicosilados, que por sua vez, podem estar relacionados à perda de visão e doenças cardiovasculares. Além disso, a marcante perda de tecido adiposo verificada na DM1 também pode acarretar hipercolesterolemia e esteatose hepática, além de possivelmente contribuir para a inflamação crônica característica da doença. Neste contexto, o objetivo principal do presente estudo foi examinar o efeito do treinamento de força e suplementação da dieta com leucina no tecido adiposo de ratos portadores de diabetes mellitus tipo 1. Para a realização do estudo, ratos Wistar machos foram aleatoriamente distribuídos em quatros grupos: i) Grupo DA (controle) (n=8) - sem treinamento (sedentário) e suplementado com uma mistura de aminoácidos não-essenciais (água ad libitum); ii) Grupo DL (n=8) - sem treinamento (sedentário) e suplementado com leucina (água ad libitum); iii) Grupo DTA (n=8) - com treinamento de força e suplementado com uma mistura de aminoácidos não-essenciais (água ad libitum); iv) Grupo DTL (n = 8) - com treinamento de força e suplementado com leucina (água ad libitum). Após 12 semanas de intervenção, os animais foram eutanasiados. Foram avaliados os seguintes parâmetros: lactato, tolerância à glicose, sensibilidade à insulina, consumo semanal de ração e água, evolução semanal do peso total dos animais, peso total do tecido adiposo e dos diferentes coxins; no soro: triacilglicerol (TAG), lipoproteína de alta densidade (HDL), colesterol total, TNF-α, IL-6, IL-10, IL-1β, leptina, adiponectina e insulina; no tecido adiposo retroperitoneal: expressão gênica de mTOR, Akt, 4E-BP, eif4E, p70s6k, PPARy, LPL, leptina, adiponectina e CEBP-α; concentração total de TNF-α, IL-6, IL-10, e IL-1β. A tolerância à glicose, o consumo de ração e água, a concentração total do TAB e do TARP, assim como a expressão gênica de mTOR, 4E-BP1, eif4E, p70S6k, PPARγ e CEBP-α encontraram-se melhorados nos grupos DL, DTA e DTL em comparação ao grupo DA; e as concentrações de HDL, colesterol total, IL-10 e adiponectina no soro, bem como a expressão gênica de adiponectina e a concentração total de IL-10 no TARP apresentaram-se aumentadas somente nos grupos DTA e DTL quando comparados ao grupo DA. Como conclusão, ambas intervenções foram capazes de atenuar as alterações fisiológicas verificadas na DM1, dentre eles as perdas excessivas do TAB. No entanto, por servir de estímulo para uma maior síntese de citocinas e hormônios antiinflamatórios por parte TAB, o treinamento de força foi o principal responsável pela redução da inflamação sistêmica dos animais. / Diabetes mellitus (DM) is considered one of the most important world epidemics of this century, being responsible directly or indirectly for the death of 123000 diabetics in Brazil in 2010. In type 1 diabetes (DM1), which corresponds to 5-10% of cases, there is absence or relative deficit of circulating insulin, leading to an increased glycemia and glycosilated products, which might be related to loss of vision and cardiovascular diseases. Furthermore, the marked loss of white adipose tissue (WAT) associated with DM1 might induce liver steatosis and hypercholesterolemia, besides possibly contributing to an increased chronic systemic inflammation. In this context, the main objective of the present study was examine the effect of resistance training and supplementation with leucine in the adipose tissue of type 1 diabetic rats. To conduct this study, Wistar male rats were randomly distributed in 4 groups: i) DA group (control of the experiment) (n=8) - without RT and supplemented with a mixture containing non-essential amino acids (water ad libitum); ii) DL group - without RT and supplemented with leucine (water ad libitum); iii) DTA group (n=8) - with RT and supplemented with a mixture containing non-essential amino acids (water ad libitum); iv) DTL group - with RT and supplemented with leucine (water ad libitum). After 12 weeks of intervention, animals were euthanized. The following parameters were analyzed: blood lactate, glucose tolerance, insulin sensitivity, weekly consumption of chow and water, evolution of total weight, WAT total weight and depots; concentration of triacylglycerol, high density lipoprotein, total cholesterol, TNF-α, IL-6, IL-10, IL-1β, adiponectin, leptin and insulin in the serum; gene expression of mTOR, 4E-BP1, eif4E, p70S6k, PPARγ, CEBP-α, LPL, leptin and adiponectin; in addition to the concentration of TNF-α, IL-6, IL-10, and IL- 1β in the retroperitoneal adipose tissue. Glucose tolerance, weekly consumption of chow and water, WAT and RPAT total weight, such as gene expression of mTOR, Akt, 4E-BP1, eif4E, p70S6k, PPARγ and CEBP-α were improved in DL, DTA and DTL groups in comparison with DA group; and the concentrations of HDL, total cholesterol, IL-10 and adiponectin in the serum, as well as gene expression of adiponectin and total concentration of IL-10 in the serum were increased only in DTA and DTL groups when compared to DA group. In conclusion, both interventions were capable of improving some DM1 physiological alterations, including the excessive loss of WAT. However, because resistance training stimulates an increased synthesis of antiinflammatory cytokines and hormones by WAT, this intervention might be the main responsible by the reduction of systemic inflammation of the animals.

Diabetes tipo 1

Inflamação

Inflammation

Resistance training

Suplementação com leucina

Supplementation with leucine

Tecido adiposo branco

Treinamento de força

Type 1 Diabetes

White adipose tissue

The role of RalA and RalB in cancer /

Falsetti, Samuel C.

January 2008

Dissertation (Ph.D.)--University of South Florida, 2008. / Includes vita. Also available online. Includes bibliographical references.

Atrophie et récupération musculaire chez le rat âgé immobilisé : rôle de la nutrition

Magne, Hugues

04 November 2011

La perte de masse et de force musculaires liée à l'âge, ou sarcopénie, pourrait être partiellementexpliquée par un défaut de récupération de masse musculaire après des épisodes générateursd'atrophie musculaire. Ainsi, les périodes d'immobilisation qui augmentent avec l'âge (alitement,convalescence, fracture) pourraient être suivies d'une absence de récupération musculaire etcontribuer à la fonte musculaire au cours du vieillissement. Les causes de ce défaut de récupérationimpliquent notamment un déséquilibre du taux de renouvellement protéique et du taux derenouvellement cellulaire. L'objectif de cette thèse a donc été de mettre en évidence les mécanismesresponsables de l'atrophie musculaire chez le rat âgé au cours de l'immobilisation et ceux quiseraient défaillants afin de déceler les mécanismes à cibler pour favoriser la récupérationmusculaire.Des rats âgés ont été immobilisés pendant 8 jours par plâtrage unilatéral de la patte arrière, puislaissés en récupération pendant 40 jours après le déplâtrage. Nous avons montré que chez cesanimaux nourris avec un régime contenant 13% de caséine, l'immobilisation entraîne une atrophiedes muscles immobilisés mais, contrairement au rat adulte, le rat âgé ne récupère jamais la massemusculaire perdue. L'atrophie des muscles immobilisés peut être expliquée par 1/ une augmentationde l'apoptose et de la protéolyse ubiquitine-protéasome-dépendante musculaires, 2/ une diminutionde la régénération des cellules musculaires et 3/ une diminution de la protéosynthèse musculaire àl'état nourri. Tous ces phénomènes pourraient résulter de la présence d'un fort stress oxydant etd'une importante inflammation intramusculaire. Tous ces paramètres sont normalisés dès 10 jours derécupération, ce qui permet de stopper l'atrophie mais ne permet pas d'initier la phase derécupération musculaire. Nous avons donc testé l'effet de différentes supplémentationsnutritionnelles au cours de la période de récupération afin de favoriser un gain de masse musculairepost immobilisation. Des supplémentations en leucine (acide aminé bien connu pour stimuler laprotéosynthèse et inhiber la protéolyse) ont ainsi été réalisées. Chez les rats supplémentés, uneamélioration de la synthèse protéique et une normalisation plus précoce des activités protéolytiquesdu protéasome ont été observées. Cependant cette amélioration du métabolisme protéique ne s'estpas traduite par un gain de masse musculaire. Par contre, la modulation qualitative et quantitative desapports en protéines a pu permettre d'obtenir une récupération significative de masse musculaire :ainsi des régimes contenant 13% de lactosérum et des régimes hyper-protéinés ont permis de gagner50% de la masse perdue et ce, dès 20 jours de récupération.Nos résultats montrent que l'immobilisation chez le rat âgé aggrave la sarcopénie. Une fortealtération du métabolisme protéique permet d'expliquer la perte de muscle et la seule normalisationde la protéolyse et de la protéosynthèse permet d'expliquer l'absence de récupération musculaire.Nous avons montré que la modulation des apports en protéines au cours de la phase de récupérationpouvait permettre un gain de protéines.

Sarcopénie

Immobilisation

Récupération

Synthèse protéique

Protéolyse

Apoptose

Régénération

Leucine

Protéines

Interaction of bZIP and bHLH Transcription Factors with the G-box

De Jong, Antonia Thelma-Jean

07 August 2013

Transcription factors are proteins that regulate transcription of genes by binding to specific DNA sequences proximal to the gene. The specificity and affinity of protein-DNA recognition is critical for proper gene regulation. This thesis explores the mechanisms of binding to the sequence 5’CACGTG, a common recognition sequence both in plants where it is known as the G-box and in mammalian cells where it is termed the E-box. This sequence is of clinical interest because it is the target of the transcription factor Myc, an oncogene linked to many cancers. A number of alpha-helical proteins with different dimerization elements, from the basic region-leucine zipper (bZIP), basic region helix-loop-helix leucine zipper (bHLHZ) and basic region helix-loop-helix-PAS (bHLH-PAS) protein families, are capable of binding to this sequence. The basic regions of all these protein families contain residues that contact DNA and determine DNA sequence specificity while the other subdomains are responsible for dimerization specificity. First, the influence of protein-DNA contacts on sequence specificity of the plant bZIP protein EmBP-1 was probed by point mutations in the basic region. Residues that contact the DNA outside the core G-box sequence and residues that contact the phosphate backbone were found to be important for sequence specificity. Second, the impact of the dimerization subdomains of bHLHZ protein Max, the required heterodimerization partner of the Myc protein, and bHLH-PAS protein Arnt was probed by mutation, deletion and inter-family subdomain swapping studies. All studied protein families are intrinsically disordered, forming structure upon dimerization and DNA binding. The dimerization domains were found to indirectly influence DNA binding by affecting folding, dimerization ability or proper orientation of the basic regions relative to DNA. Lastly, a new strategy for selection of G-box binding proteins in the Yeast One-hybrid system is explored. Together, these studies broaden our understanding of the structure-function relationship of the DNA-binding activities of these closely related families of transcription factors. The creation and characterization of mutants with altered specificity, affinity and dimerization specificity may also be useful for biotechnology applications.

bZIP

bHLH

bHLHZ

bHLH-PAS

E-box

G-box

Max

Arnt

EmBP-1

transcription factor

leucine zipper

Fos

E47

yeast one-hybrid

sequence specificity

protein-DNA interaction

0487

Interaction of bZIP and bHLH Transcription Factors with the G-box

De Jong, Antonia Thelma-Jean

07 August 2013

Transcription factors are proteins that regulate transcription of genes by binding to specific DNA sequences proximal to the gene. The specificity and affinity of protein-DNA recognition is critical for proper gene regulation. This thesis explores the mechanisms of binding to the sequence 5’CACGTG, a common recognition sequence both in plants where it is known as the G-box and in mammalian cells where it is termed the E-box. This sequence is of clinical interest because it is the target of the transcription factor Myc, an oncogene linked to many cancers. A number of alpha-helical proteins with different dimerization elements, from the basic region-leucine zipper (bZIP), basic region helix-loop-helix leucine zipper (bHLHZ) and basic region helix-loop-helix-PAS (bHLH-PAS) protein families, are capable of binding to this sequence. The basic regions of all these protein families contain residues that contact DNA and determine DNA sequence specificity while the other subdomains are responsible for dimerization specificity. First, the influence of protein-DNA contacts on sequence specificity of the plant bZIP protein EmBP-1 was probed by point mutations in the basic region. Residues that contact the DNA outside the core G-box sequence and residues that contact the phosphate backbone were found to be important for sequence specificity. Second, the impact of the dimerization subdomains of bHLHZ protein Max, the required heterodimerization partner of the Myc protein, and bHLH-PAS protein Arnt was probed by mutation, deletion and inter-family subdomain swapping studies. All studied protein families are intrinsically disordered, forming structure upon dimerization and DNA binding. The dimerization domains were found to indirectly influence DNA binding by affecting folding, dimerization ability or proper orientation of the basic regions relative to DNA. Lastly, a new strategy for selection of G-box binding proteins in the Yeast One-hybrid system is explored. Together, these studies broaden our understanding of the structure-function relationship of the DNA-binding activities of these closely related families of transcription factors. The creation and characterization of mutants with altered specificity, affinity and dimerization specificity may also be useful for biotechnology applications.

bZIP

bHLH

bHLHZ

bHLH-PAS

E-box

G-box

Max

Arnt

EmBP-1

transcription factor

leucine zipper

Fos

E47

yeast one-hybrid

sequence specificity

protein-DNA interaction

0487

Faltungseigenschaften des extrazellulären Proteins Internalin J und seine Cysteinleiter / Folding of the extracellular protein Internalin J and the cysteine ladder

Baumgart, Natalie

January 2013

Internalin J (InlJ) gehört zu der Klasse der bakteriellen, cysteinhaltigen (leucine-rich repeat) LRR Proteine. Bei den Internalinen handelt es sich um meist invasions-assoziierte Proteine der Listerien. Die LRR-Domäne von InlJ ist aus 15 regelmäßig wiederkehrenden, stark konservierten Sequenzeinheiten (repeats, 21 Aminosäuren) aufgebaut. Ein interessantes Detail dieses Internalins ist das stark konservierte Cystein innerhalb der repeats. Daraus ergibt sich eine ungewöhnliche Anordnung von 12 Cysteinen in einem Stapel. Die Häufigkeit von Cysteinen in InlJ ist für ein extrazelluläres Protein von L. monocytogenes außergewöhnlich, und die Frage nach ihrer Funktion daher umso brennender. Im Vergleich zum ubiquitären Vorkommen der sogenannten repeat-Proteine in der Natur sind Studien zu ihrer Stabilität und Faltung nicht äquivalent vertreten. Die zentrale Eigenschaft der repeat-Proteine ist ihr modularer Aufbau, der durch einfache Topologie gekennzeichnet ist und auf kurzreichenden Wechselwirkungen basiert. Diese Topologie macht repeat-Proteine zu idealen Modellproteinen, um die stabilitätsrelevanten Wechselwirkungen zu separieren und zuzuordnen. In der vorliegenden Arbeit wurde die Faltung und Entfaltung von InlJ umfassend charakterisiert und die Relevanz der Cysteine näher beleuchtet. Die spektroskopische Charakterisierung von InlJ zeigte, dass dessen Faltungszustand durch zwei Tryptophane im N- und C-Terminus fluoreszenzspektroskopisch gut zugänglich ist. Die thermodynamische Stabilität wurde mittels fluoreszenz-detektierten, Guanidiniumchlorid-induzierten Gleichgewichtsexperimenten bestimmt. Um die kinetischen Eigenschaften von InlJ zu erfassen, wurden die Faltungs- sowie die Entfaltungsreaktion spektroskopisch untersucht. Die Identifizierung der produktiven Faltungsreaktion war lediglich durch die Anwendung des reversen Doppelsprungexperiments möglich. Die Auswertung erfolgte nach dem Zweizustandsmodell, wonach die Faltung dem „Alles-oder-Nichts“ Prinzip folgt. Die Gültigkeit dieser Annahme wurde durch die kinetische Charakterisierung bestätigt. Es wurde sowohl in den Gleichgewichtsexperimenten als auch in den kinetisch erhaltenen Daten eine hohe freie Stabilisierungsenthalpie festgestellt. Die hohe Stabilität von InlJ geht mit hoher Kooperativität einher. Die kinetischen Daten zeigen zudem, dass die hohe Kooperativität hauptsächlich der Faltungsreaktion entstammt. Der Tanford-Wert von 0.93 impliziert, dass die Oberflächenänderung während der Faltung bereits zum größten Teil erfolgt ist, bevor der Übergangszustand ausgebildet wurde. Direkte strukturelle Informationen über den Übergangszustand wurden mit Hilfe von Mutationsstudien erhalten. Zu diesem Zweck wurden 12 der 14 Cysteine gegen ein Alanin ausgetauscht. Die repeats 1 bis 11 von InlJ beinhalten jeweils ein Cystein, deren Anordnung eine Leiter ergibt. Deren Substitutionen haben einen vergleichbar destabilisierenden Effekt auf InlJ von durchschnittlich 4.8 kJ/mol. Die Verlangsamung der Faltung deutet daraufhin, dass die Interaktionen der repeats 5 bis 11 im Übergangszustand bereits voll ausgebildet sind. Demnach liegt bei InlJ ein zentraler Faltungsnukleus vor. Im Rahmen dieser Promotionsarbeit wurde eine hohe Stabilität und ein stark-kooperatives Verhalten für das extrazelluläre Protein InlJ beobachtet. Diese Erkenntnisse könnten wichtige Beiträge zur Entwicklung artifizieller repeat-Proteine leisten, deren Verwendung sich stetig ausweitet. / Internalin J (InlJ) is a member of the family of bacterial cysteine-containing leucine-rich repeat (LRR) proteins. Internalins are invasion-associated surface proteins of Listeria monocytogenes. The LRR domain of InlJ consists of 15 repeating units, which are arranged in tandem. The consensus sequence consists of 21 residues. Interestingly, a leucine residue which is highly conserved among the Internalins is replaced by cysteine. This results in a continuous cysteine ladder of 12 repeats. This frequency of cysteines is remarkable for an extracellular protein of L. monocytogenes. Stability and folding of repeat proteins are not equivalently studied considering their ubiquitous distribution in nature. Their modular structure results in simple topology and is dominated by short-range interactions. These characteristic features of repeat proteins facilitate the separation and identification of stabilizing interactions, making repeat proteins to ideal model systems for folding studies. In this work the folding and unfolding of InlJ has been extensively characterized, shedding light on the relevance of the cysteines. Two tryptophans located in the N- and C-terminus allowed monitoring the folding state of the entire protein via fluorescence. Thermodynamic stability was therefore derived by guanidinium chloride induced equilibrium experiments. Furthermore, the chemically induced unfolding and folding reactions were characterized with respect to their kinetics. Interrupted refolding experiments were essential for tracking the productive folding reaction of InlJ. Analysis of the kinetic and equilibrium data leads to the conclusion that the results are compatible with a two-state model. The study presented here reveals high stability of the protein InlJ in conjunction with high cooperativity. Kinetic data disclosed the origin of high cooperativity in the folding reaction; with a Tanford value of about 0.93. This high value implicates that the major change of the accessible surface area occurs before the transition state is formed. Mutational studies provided more detailed structural information about the transition state. 12 of 14 cysteine residues were mutated to alanine for this purpose. The cysteines in repeats 1 to 11 stack over each other and form a ladder of reduced cysteines. The substitution of one of these cysteines has an average destabilizing effect of 4.8 kJ/mol. The deceleration of the folding reaction by the substitution shows that repeats 5 to 11 are already fully structured in the transition state, pointing to a central nucleus in the folding of the LRR-protein InlJ. The extracellular protein InlJ reveals extreme stability and high cooperativity. The insights into the folding of this LRR motif could facilitate the design of further artificial repeat proteins.

Internalin J

leucinreiches repeat-Protein

Proteinfaltung

Zweizustandsmodell

thermodynamische Stabilität

Internalin J

leucine-rich repeat protein

protein folding

two-state model

thermodynamic stability

Life sciences

The p97 ATPase and the Drosophila Proteasome : Protein Unfolding and Regulation

Björk Grimberg, Kristian

January 2010

For all living systems, there is a requirement to recycle and regulate proteins. In eukaryotic organisms this is accomplished by the proteasome. The p97 ATPase is another highly conserved and essential complex present throughout the eukaryotic cell. In Paper I we utilized UFD fluorescent substrates to address the role of p97 and cofactors in soluble proteasome degradation. Results using RNAi and Drosophila p97 mutants propose p97 to function upstream of the proteasome on cytosolic proteasome targets as an important unfoldase together with its Ufd1/Npl4 cofactors. The results implicate p97 to be important for degradation of proteasome substrates lacking natural extended peptide regions. In Paper II we focused on identifying transcription factors essential for production of proteasomal subunits and associated proteins in Drosophila S2 cells. We utilized an RNA library targeting 993 known or candidate transcription factors and monitored RNAi depleted Drosophila S2 cells expressing the UFD reporter UbG76VGFP. We identified a range of potential candidates and focused on the bZIP transcription factor Cnc-C. RNAi and qrt-PCR experiments implicated Cnc-C to be involved in transcription of proteasomal subunits. In Paper III we applied our knowledge gained from Paper I about p97 dependent substrates and set up a high-throughput microscopy screening method to potentially find inhibitors specifically targeting the p97 proteasomal sub-pathway. Utilizing UFD substrates with and without C-terminal peptide tails we determined if compounds inhibited the core proteasomal machinery or the p97 pathway specifically. Through a primary and secondary round of screening we identified several new compounds inhibiting the ubiquitin-proteasome pathway though none from our initial screening had specificity for p97. / At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 2: Manuscript. Paper 3: Manuscript.

proteasome

ubiquitin

p97

unfolding

regulation

RNAi screen

high-throughput screen

cnc

basic leucine zipper

transcription factors

proteasome inhibition

Molecular biology

Molekylärbiologi

The role of RalA and RalB in cancer

Falsetti, Samuel C.

January 2008

Dissertation (Ph.D.)--University of South Florida, 2008. / Title from PDF of title page. Document formatted into pages; contains 187 pages. Includes vita. Includes bibliographical references.

Studies on the regulation of the Napin napA promoter by ABI3, bZIP and bHLH transcription factors /

Martin, Nathalie,

January 2008

Diss. (sammanfattning) Uppsala : Uppsala universitet, 2008. / Härtill 3 uppsatser.

Myc and Mad target genes /

James, Leonard Philip,

January 2000

Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 137-154).