Potentiel des inhibiteurs de poly(ADP-ribose) polymérases seuls ou en combinaison avec la radiothérapie comme nouvelle option thérapeutique pour le carcinome hépatocellulaire / Potential of poly(ADP-ribose) polymerase inhibitors alone or in combination with radiation therapy as a new therapeutic option for hepatocellular carcinoma

Guillot, Clément

18 December 2013

Le carcinome hépatocellulaire est l'un des cancers les plus fréquents et des plus sévères à travers le monde. Le diagnostic est souvent tardif et les traitements curatifs ne peuvent être proposés qu'à un nombre limité de patients. Les technologies modernes ont permis le développement de nouvelles méthodes de radiothérapie qui montrent aujourd'hui de bons résultats. Par ailleurs, bien que des déficiences dans les voies de réparation de l'ADN soient associées à une instabilité génomique et une susceptibilité au cancer, une inhibition de ces voies sensibilise les cellules cancéreuses à la chimiothérapie et à la radiothérapie. Dans ce contexte, les inhibiteurs de poly(ADP-ribose) polymérases (PARP) ont déjà montré des résultats prometteurs dans des études pré-cliniques et sont en cours d'évaluation clinique pour de nombreux cancers. Ce travail de thèse a consisté en l'évaluation du potentiel des inhibiteurs de PARP en combinaison avec la radiothérapie comme nouvelle option thérapeutique pour le carcinome hépatocellulaire. La première étape de ce travail a été de caractériser les profils d'expression et d'activité de plusieurs membres de la famille PARP dans des cellules cancéreuses du foie et des hépatocytes primaires humains ainsi que dans des tissus hépatiques. En second lieu, nous avons étudié le potentiel de l'inhibiteur de PARP ABT-888 seul et en combinaison à des radiations ionisantes in vitro. Le traitement par l'inhibiteur de PARP ABT-888 en agent seul a montré une sensibilité variable des différentes lignées cellulaires étudiées à cette drogue. Afin de comprendre la sensibilité variable des cellules cancéreuses hépatiques à l'ABT-888, nous avons analysé leur capacité de réparation des dommages à l'ADN et avons observé des capacités différentes entre les lignées cellulaires. Finalement, nous avons pu montrer que l'ABT-888 sensibilise les cellules cancéreuses hépatiques aux radiations ionisantes. Ce travail de recherche a permis de montrer que les inhibiteurs de PARP ont un fort potentiel pour améliorer les méthodes de radiothérapie utilisées dans la prise en charge du carcinome hépatocellulaire / Hepatocellular carcinoma is the third cause of cancer related death. Due its often late diagnosis and advanced stage, a limited number of patients can benefit from curative treatments. There is thus a constant need for new treatment strategies for patients with hepatocellular carcinoma. Targeting DNA repair pathways to sensitize tumor cells to chemoor radiotherapeutic treatments is now a common strategy under investigation for cancer treatment with inhibitors of poly(ADP-ribose) polymerases (PARP) showing great potential. The aim of this work was to evaluate the potential of PARP inhibitors alone and in combination with radiation therapy as a new strategy for the treatment of hepatocellular carcinoma. We first analyzed the expression and activity of different PARP genes in a panel of liver cancer cell lines and primary human hepatocytes as well as their DNA repair capacity and assess the impact of PARP inhibitors alone and in combination with ionizing radiation in these models on cell survival. A large range in expression of PARP family members, PARP activity and sensitivity to ABT-888 in the panel of liver cells was observed as well as differential excision/synthesis repair capacity. Finally, we showed that ABT-888 sensitizes liver cancer cells to the cell killing effects of ionizing radiation. PARP inhibitors show great potential for improving radiation therapy strategies used in the management of hepatocellular carcinoma

Carcinome hépatocellulaire

Poly(ADP-ribose) polymérases

Inhibiteurs de PARP

Radiothérapie

Hepatocellular carcinoma

Poly(ADP-ribose) polymerases

PARP inhibitors

Radiation therapy

616.994

Etude de la Poly(ADP-ribosyl)ation dans un contexte des cassures double-brins des ADN nucléaire et mitochondriaux chez Drosophila melanogaster / Study of Poly(ADP-ribosyl)ation in response to mitochondrial and nuclear DNA strand breaks, in Drosophila melanogaster model

Ishak, Layal

30 March 2016

L’ADN cellulaire qu’il soit nucléaire ou mitochondrial est constamment soumis à l’action de stress d’origine exogène ou même endogène à la base d’altérations plus ou moins profondes de sa structure. Ces modifications chimiques sont très variées et peuvent aller de l’oxydation d’une base aux cassures double-brins de la molécule d’ADN. Ces dernières sont considérées comme les dommages les plus agressifs pour la cellule car peuvent conduire à la perte d’information et donc à la mort cellulaire. Parmi les systèmes de surveillance de la stabilité du génome figure la Poly(ADP-ribosyl)ation (PARylation). Cette modification post-traductionnelle est assurée essentiellement par les protéines PARP et PARG et est caractérisée par l’incorporation des polymères d’ADP ribose (pADPr) sur des protéines cibles. La PARylation constitue un élément clé dans plusieurs voies de maintien de l’intégrité génomique (BER, NHEJ, HR). La PARylation est aussi décrite au niveau de la mitochondrie mais son rôle dans la gestion des DSBs de l’ADNmt n’est pas connu. Le travail, objet de cette thèse, consiste à étudier le rôle de la PARylation dans le cas des DSB au niveau général chez la drosophile et ensuite de comprendre les mécanismes de gestion des DSB mitochondriales et évaluer l’implication de la PARylation dans ce processus. Nos résultats montrent que : (1) le comportement de la PARylation ne varie pas au cours du processus de cassures et de réparation de l’ADN nucléaire, alors que l’expression des ARNm de PARP-I et PARP-II augmente durant la phase de réparation ; (2) les cassures de l’ADN mitochondrial, induites par la bléomycine, entraînent une augmentation du nombre de copies de l’ADNmt. Cette augmentation transitoire de la quantité de l’ADNmt est observée durant la phase des dommages et retourne à la valeur initiale durant la phase de la réparation. Ce comportement semble être régulé par PARP. L’ensemble de ces résultats suggère que la réparation des DSBs est indépendante de la PARylation au niveau nucléaire mais que la présence de PARP est importante. De plus, PARP semble avoir un rôle dans la régulation de la réplication de l’ADNmt en réponse à un stress génotoxique. / Both nuclear and mitochondrial DNA alterationsarise following exposure to environmental and endogenous stresses. These genomic alterations are various, ranging from base oxidation to DNA strand breaks, single- and double-strand breaks. These damages are highly detrimental to the cell because they can lead to loss of genetic information and thus to cell death. However, cells have developed various mechanisms to counteract this biological issue and to lead up to a complex DNA damage response (DDR). The Poly (ADP- ribosyl) ation (PARylation) is among these DDR systems. This post-translational modification is mainly carried out by PARP and PARG proteins and is characterized by the incorporation of polymers of ADP-ribose on target proteins. The majority of the PARylationfunctions are related to cellular stress response, particulary in response to genomic damages where it is implicated in many DNA integrity pathways such as Base Excision Repair, Non Homologous End Joining and Homologous Recombination. In contrast to the nucleus, PARylation is also described in the mitochondria but its role in mtDNA integrityis still a heavily debate issue, particularly in case of mtDNA DSBs.To understand it, we used Drosophila model wherePARP-B isoform (human PARP-1 ortholog) is the only enzymatically active form in Drosophila PARP family. The aim of this thesis is to study the role of PARylation in response to DSBs induction in nucleus and mitochondrial DNAand then to understand the mechanisms involved in mtDNA integrity and to evaluate the role of PARylation in this process. Our results show that PARylation level remains stable during DSBs induction and also during repair process,contrary to what is shown in Human cells.However, PARP-I and PARP-II mRNA expression increase during repair period. In mitochondria compartment,our data show an increase of mtDNA copy number in presence of mtDNA DSBs. This increased level returns to normal during repair period and seems to be dependent on PARP. All these results suggest that DSBs repair is PARylation independent at the nuclear level but that the presence of PARP is important. In addition, PARP appears to have a role in the regulation of mtDNA replication in response to genotoxic stress.

Poly(ADP-ribosyl)ation (PARylation)

PARP

PARG

ADN

ADNmt

DSBs

Poly(ADP-ribosyl)ation

PARP

PARG

DNA

ADNmt

DSBs

Etude fonctionnelle et structurale d'un transporteur d'ATP/ADP chloroplastique / Structural and functional Studies of a chloroplastic ATP/ADP transporter

Marchand, Laurène

19 September 2014

L'hydrolyse de l'ATP en ADP constitue la principale source d'énergie de la cellule. Le transport de ce nucléotide depuis son lieu de synthèse vers le cytosol est essentiel pour la plupart des réactions métaboliques et nécessite un passage à travers les membranes. Ainsi, un grand nombre de transporteurs d'ATP/ADP sont présents dans les différents organites tels que les mitochondries, les chloroplastes, et autres types de plastides mais aussi chez les bactéries pathogènes (Rickettsia prowazekii, Protoclamydiae amoebophila) (Trentmann et al, 2007).L'équipe s'intéresse principalement à 2 types de transporteurs d'ADP et d'ATP, la famille des transporteurs mitochondriaux (MCF) et la famille des NTT (plastes et bactéries). Malgré des fonctions similaires, ces 2 familles de transporteurs possèdent des propriétés biochimiques et structurales différentes. De nos jours, il n'existe aucune information structurale disponible sur la famille des NTTs. La détermination de cette structure pourrait permettre de comprendre le mécanisme de transport de ces transporteurs mais plus généralement comprendre le transport de l'ATP et ADP dans les cellules.Une étude a été initiée sur la structure et la fonction de la famille des NTT plus particulièrement des transporteurs chloroplastiques d'Arabidopsis thaliana mais aussi des transporteurs bactériens. Toutefois, ma thèse concerne principalement les transporteurs chloroplastiques NTT1 et NTT2. Ces 2 isoformes sont localisées dans la membrane interne des chloroplastes et permettent de pourvoir le stroma en ATP lorsque la photosynthèse ne peut pas avoir lieu par manque de lumière.Nous avons déterminé et optimisé les conditions de surexpression des 2 isoformes dans un système hétérologue puis de purification en détergent). Nous avons mis au point des méthodes permettant de caractériser le transporteur en solution et de mesurer son activité dans le but d'aboutir à une étude structurale. Des pistes de cristallisation ont également étaient obtenues. / ATP is the main energy currency in the cell and its transport across membranes is essential for most of the metabolic reactions. A large number of ATP/ADP transporters are present in the different cell organelles such as mitochondria, chloroplasts, other types of plastids and some are also found in bacteria (Rickettsia prowazekii, Protoclamydiae amoebophila) (Trentmann et al, 2007). The team is mainly interested in two distinct transporters families, the mitochondrial carrier family (MCF) and the NTT family. Despite similar function, mitochondrial ADP/ATP transporters (Pebay-Peyroula et al, 2003) and NTT proteins exhibit different structural and biochemical properties. To date no structural information is available on the NTT family. The determination of a structure would help for understanding the transport mechanism of these carriers and more generally the different mechanisms of the transport of ADP and ATP within the cell.We initiated a structure-function study on the NTT family focusing on chloroplast transporters from Arabidopsis thaliana and also from bacteria. My thesis is focused on chloroplast NTT1 and NTT2. These isoforms are localized in the inner membrane of chloroplast. They transport ATP inside the chloroplast in order to supply the different reactions occurring in the stroma when the photosynthesis does not occur.We have determined and optimized conditions to overexpress these 2 isoforms in heterologous systems and to purify the protein in detergents. We have also set up tools to characterize the carrier in solution and to measure its transport activity opening the way to functional and structural studies. We obtained promising crystallization hits.

Transporteurs

ADP/ATP

Famille NTT

Etudes structurales

Etudes fonctionnelles

Transporters

ADP/ATP

NTT family

Structural studies

Functional studies

570

Atividade da enzima NTPDase1 em linfócitos de pacientes em tratamento para leucemia linfoblástica aguda (LLA): alteração na hidrólise do ATP e ADP extracelulares. / NTPDase1 activity in lymphocytes from patients under treatment for acute lymphoblastic leukemia (ALL): an alteration in the extracellular ATP and ADP hydrolysis

Morsch, André Luis Bittencourt

25 August 2006

The NTPDase1 (E.C. 3.6.1.5, apyrase, CD39, ecto-ATP-diphosphohydrolase) enzymatic activity, which is responsible for hydrolyzing ATP and ADP nucleotides, was verified in lymphocytes from 56 patients under treatment for acute lymphoblastic leukemia (ALL) and from 33 healthy subjects. Patients were divided into 3 groups: remission induction (RI), remission maintenance (RM) and out-oftreatment (OT). It had been verified, in each group, the influence of the recurrence risk (high or low) on the enzymatic activity. The RM group was then subdivided by the amount of time they had been in remission maintenance (0-30, 31-60 and 61-84 weeks). Results demonstrated that the ATP hydrolysis from lymphocyte NTPDase1 is altered in the groups studied (F (3,84)=100.34; p<0.01) in relation to the controls, and that it is reduced in both RI and RM groups, while enhanced in OT group. The recurrence risk did not influence ATP hydrolysis in none of the groups. Furthermore, it has been found a significant variation at the NTPDase1 activity to ATP hydrolysis during RM phase (F (2,17)=11.22; p=0.01), being higher in the first 30 weeks, and subsequently reduced. ADP hydrolysis by NTPDase1 activity was also significantly reduced in both the RI and RM groups, but similar to the controls in OT (F (3,69)=59.05; p<0.01). It has not been verified any influence of the recurrence risk on ADP hydrolysis. Furhermore, NTPDase1 using ADP as substrate has shown to be constant during RM phase (F (2,13)=2.40; p=0.130). The alteration on ATP and ADP hydrolysis on lymphocytes of ALL patients is in agreement to the characteristics found in this pathology. Thus, our results corroborate the role of adenine nucleotides, ATP in special, in the immune system, as signaling molecules, and the importance of the NTPDase1 to maintain constant the extracellular levels of these nucleotides. However, more studies are necessary to better understand the role of adenine nucleotides and NTPDase1 in the immunodeficiency and citotoxicity observed in treated ALL patients. / A atividade da enzima NTPDase1 (E.C. 3.6.1.5, CD39, apirase, ecto-ATPdifosfoidrolase), a qual hidrolisa os nucleotídeos ATP e ADP, foi verificada em linfócitos de 56 pacientes em tratamento para leucemia linfocítica aguda (LLA) e em 33 indivíduos controle. Os pacientes foram divididos em 3 grupos de acordo com a fase do tratamento: indução da remissão (IR), manutenção da remissão (MR) e fora-de-tratamento (FT), sendo que para cada grupo foi também verificada a influência do risco de recaída da doença (alto ou baixo) na atividade da enzima. O grupo MR foi ainda subdividido em três, de acordo com o período nesta fase: 0-30, 31-60 e 61-84 semanas em tratamento. Os resultados demonstraram que a hidrólise do ATP pela NTPDase1 está alterada nos 3 grupos estudados (F (3, 84)=100.34; p<0.01) em relação ao grupo controle, sendo que houve uma redução nas fases IR e MR, enquanto houve um aumento da hidrólise na fase FT. Não houve influência do prognóstico (grau de risco) na alteração da atividade da enzima em nenhum dos grupos estudados. Encontrou-se ainda uma variação na hidrólise do ATP pela enzima NTPDase1 durante a fase MR (F (2, 17)=11.22; p=001), sendo maior durante o período de 0-30 semanas de tratamento, e reduzida após. A atividade da NTPDase1 na hidrólise do ADP também se encontrou significativamente reduzida nas fases IR e MR, porém semelhante aos controles na fase FT (F (3, 69)=59.05; p<0.01). Também não foi verificada correlação entre a atividade da enzima, tendo ADP como substrato, e o prognóstico da LLA. Além disso, a atividade da NTPDase1 para o ADP se manteve constante durante a fase MR (F (2, 13)=2.40; p=0.130). A alteração na hidrólise do ATP e ADP em linfócitos de pacientes com LLA, como nossos resultados indicam, está de acordo com algumas das características encontradas durante o tratamento dessa patologia. Dessa forma, nossos resultados corroboram o papel dos nucleotídeos da adenina, em especial o ATP, no sistema imune como moléculas sinalizadoras, bem como a importância da enzima NTPDase1 para a manutenção dos níveis extracelulares desses nucleotídeos. Entretanto, mais estudos são necessários para melhor compreender o papel dos nucleotídeos da adenina e da NTPDase1 na imunodeficiência e citotoxicidade induzidos pelo tratamento da LLA.

NTPDase1

Linfócitos

ATP

ADP

Leucemia linfoblástica aguda

Tratamento

NTPDase1

Lymphocytes

ATP

ADP

Acute lymphoblastic leukemia

Treatment

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Modification of Cardiac Membrane Gsα by an Endogenous Arginine-Specific Mono-Adp-Ribosyltransferase

Coyle, Donna L. (Donna Lynn)

12 1900

The mechanism by which nicotinamide adenine dinucleotide (NAD) stimulates the activity of adenylate cyclase (AC) in canine plasma membrane has been studied. Using [3 2P]-NAD, the activation by NAD was correlated with the radiolabeling of the stimulatory guanosine triphosphate (GTP) binding protein Gsa. Further characterization demonstrated that the modification occurred only in the presence of G-protein activators and that arginine residue(s) were modified by ADP-ribose by the action of a mono-ADP-ribosyltransferase. Inhibitors of the transferase blocked both the modification of Gsa and the activation of AC. Collectively, these studies suggest that ADP-ribosylation of Gsa by an endogenous mono-ADP-ribosyltransferase may regulate cardiac AC.

nicotinamide adenine dinucleotide

ADP-ribosylation

adenylate cyclase

G proteins

NAD (Coenzyme)

ADP-ribosylation.

Adenylate cyclase.

G proteins.

Hepatocyte-specific deletion of TIPARP, a negative regulator of the aryl hydrocarbon receptor, is sufficient to increase sensitivity to dioxin-induced wasting syndrome

04 June 2018

Yes / The aryl hydrocarbon receptor (AHR) mediates the toxic effects of dioxin (2, 3, 7, 8-tetrachlorodibenzo-p-dioxin; TCDD), which includes thymic atrophy, steatohepatitis, and a lethal wasting syndrome in laboratory rodents. Although the mechanisms of dioxin toxicity remain unknown, AHR signaling in hepatocytes is necessary for dioxin-induced liver toxicity. We previously reported that loss of TCDD-inducible poly(adenosine diphosphate [ADP]-ribose) polymerase (TIPARP/PARP7/ARTD14), an AHR target gene and mono-ADP-ribosyltransferase, increases the sensitivity of mice to dioxin-induced toxicities. To test the hypothesis that TIPARP is a negative regulator of AHR signaling in hepatocytes, we generated Tiparpfl/fl mice in which exon 3 of Tiparp is flanked by loxP sites, followed by Cre-lox technology to create hepatocyte-specific (Tiparpfl/flCreAlb) and whole-body (Tiparpfl/flCreCMV; TiparpEx3−/−) Tiparp null mice. Tiparpfl/flCreAlb and TiparpEx3−/− mice given a single injection of 10 μg/kg dioxin did not survive beyond days 7 and 9, respectively, while all Tiparp+/+ mice survived the 30-day treatment. Dioxin-exposed Tiparpfl/flCreAlb and TiparpEx3−/− mice had increased steatohepatitis and hepatotoxicity as indicated by greater staining of neutral lipids and serum alanine aminotransferase activity than similarly treated wild-type mice. Tiparpfl/flCreAlb and TiparpEx3−/− mice exhibited augmented AHR signaling, denoted by increased dioxin-induced gene expression. Metabolomic studies revealed alterations in lipid and amino acid metabolism in liver extracts from Tiparpfl/flCreAlb mice compared with wild-type mice. Taken together, these data illustrate that TIPARP is an important negative regulator of AHR activity, and that its specific loss in hepatocytes is sufficient to increase sensitivity to dioxin-induced steatohepatitis and lethality. / This work was supported by Canadian Institutes of Health Research (CIHR) operating grants (MOP-494265 and MOP-125919), CIHR New Investigator Award, an Early Researcher Award from the Ontario Ministry of Innovation (ER10-07-028), an unrestricted research grant from the DOW Chemical Company, the Johan Throne Holst Foundation, Novo Nordic Foundation and the Norwegian Cancer Society to J.M.

Aryl hydrocarbon receptor

Wasting syndrome

ADP-ribosylation

2

3

7

8-tetrachlorodibenzo-p-dioxin

Untersuchungen zur Inhibierung der Expression der Poly(ADP-ribose)Polymerase (PARP) nach Infektion mit Toxoplasma gondii / Analysis of the expression inhibition of the poly(ADP-ribose) polymerase (PARP) after infection with T. gondii

Gais, Andrea Nadja

30 October 2008

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Toxoplasma gondii

Poly(ADP-ribose) Polymerase

Parasit-Wirt Interaktionen

Toxoplasma gondii

poly(ADP-ribose) polymerase

parasite-host interactions

42.36

W

Évaluation de mécanismes potentiellement impliqués dans les lésions de la substance blanche après un traumatisme crânien : un rôle pour la Poly (ADP-Ribose) Polymérase ? / Evaluation of the potential mechanism implicated in white matter injury following traumatic brain injury : a role for the Poly(ADP-ribose) Polymerase

Cho, Angelo Hanbum

08 January 2015

Le traumatisme crânien (TC) représente un des problèmes majeurs de santé publique, pour lequel à l’heure actuelle il n’existe aucun traitement. Le TC induit une neuro-inflammation délétère qui pourrait contribuer à l’apparition des lésions de la substance blanche (SB). Ces dernières sont à l’origine de lourdes conséquences neurologiques chez les patients victimes de TC. Néanmoins, très peu d’études se sont intéressées à ces lésions bien que plus sévères que les lésions de la substance grise. Ainsi une meilleure connaissance de leur évolution et des causes devient indispensable. L’hyperactivation de la poly(ADP ribose)polymérase (PARP) joue un rôle délétère dans les conséquences post-traumatiques, notamment sur la neuro-inflammation. Ainsi son inhibition pourrait être bénéfique le développement des lésions de la SB. Dans ce contexte, l’objectif de notre travail a été d’évaluer le rôle de la PARP dans les lésions de la SB dans un modèle expérimental de TC induit par impact cortical contrôlé chez la souris. Dans une première partie, nous avons étudié l’évolution de la démyélinisation dans le corps calleux, une structure riche en SB, entre 6 heures et 3 mois post-TC. Parallèlement, les évolutions de la lésion cérébrale, des déficits sensorimoteurs, de la neuro-inflammation et de l’œdème cérébral ont été étudiées. Le TC induit (1) une démyélinisation dès 7 jours et au moins jusqu’à 3 mois post-TC, précédée par (2) une lésion cérébrale entre 24 et 72 heures suivie par une cicatrisation, (3) une neuro-inflammation entre 6 heures et 7 jours et (4) un œdème cérébral entre 6 et 72 heures post-TC. De plus, le TC induit des déficits sensorimoteurs à 6 heures et 3 mois. Ces résultats montrent que ce modèle est adapté pour étudier les lésions de la SB post-TC, et que la neuro-inflammation et l’œdème cérébral pourrait être impliqués dans la démyélinisation. Dans une deuxième partie, nous avons étudié le rôle de la PARP dans les lésions de la SB suite à TC à l’aide de souris knockout (KO) et wild-type (WT) pour le gène de la PARP. Nous avons mis en évidence que les souris KO ne présentent pas de démyélinisation bilatérale du corps calleux après un TC par rapport aux souris WT à 7 jours post-TC, démontrant pour la première fois l’implication de cette enzyme dans les lésions de la SB consécutives à un TC. De plus, nous avons constaté que les souris KO non traumatisées présentent une diminution de myélinisation comparativement aux souris WT non traumatisées, suggérant un rôle de la PARP dans le processus physiologique de la myélinisation.En conclusion, l’ensemble de ce travail expérimental a permis (1) une meilleure caractérisation de la démyélinisation post-TC et des mécanismes potentiellement impliqués dans cette dernière, et (2) de démontrer pour la première fois le rôle délétère de la PARP dans la démyélinisation induite par un TC. Nos travaux suggèrent le potentiel de l’inhibition de la PARP comme stratégie thérapeutique pour la prévention des lésions de la SB post-traumatiques. / Traumatic brain injury (TBI) is a leading cause of death and disability for which there is no neuroprotective treatment up to date. It results in neuroinflammation that may participate in lasting motor and cognitive impairments accompanied by changes in white matter (WM) tracts. WM lesions, evidenced by demyelination, are associated with neurological disorders and in clinical studies are common consequences in patients with chronic TBI. Several studies suggest a contribution of an overactivation of the poly(ADP-ribose) polymerase (PARP) to the neuroinflammatory response which may lead to demyelination. The first part of this study was dedicated to a detailed in vivo assessment of the evolution over time of neurological disorders, cerebral lesion and edema, neuroinflammation and white matter injury induced by controlled cortical impact (CCI) between 6 hours and 12 weeks post-TBI. Notably in the corpus callosum, a significant demyelination starting at 7 days appeared to be a major consequence to post-traumatic neuroinflammation associated with motor dysfunctions. The second part of this study was dedicated to the evaluation of PARP’s role in WM lesions post-TBI, using PARP knockout (KO) mice. Our main findings reveal a diminished demyelination in the corpus callosum of TBI PARP KO as opposed to TBI PARP wildtype specimens. Hence, these data suggest for the first time PARP’s deleterious role in post-traumatic demyelination. In conclusion, taken together these data give an overall view of motor/sensorimotor deficits, neuroinflammation and demyelination in a CCI model of TBI that could help to validate pharmacological strategy for preventing post-traumatic WM injury. Notably, PARP’s inhibition seems to be a valid candidate as this enzyme participates in the establishment of a demyelinating process.

Traumatisme crânien

Poly(ADP-ribose) polymérase

Substance blanche

Neuro-inflammation

Traumatic brain injury

Poly(ADP-ribose) polymerase

White matter

Neuroinflammation

617.481 044

Efeito do inibidor de PARP em linf ´ocitos Th17 e Treg em modelo experimental de sepse / Effect of PARP inhibitor in Th17 andTreg lymphocytes in experimental model of sepsis

Vieira, Juliana de Camargo

22 April 2019

Introdução: A sepse é causada por uma resposta desregulada a uma infecção cujo tratamento é de suporte, inexistindo alternativas imunomoduladoras. Linfócitos T reguladores são responsáveis por limitar a inflamação, mas podem causar imunossupressão e os Th17 são pró-inflamatórios e responsáveis pela imunidade de mucosas; ambos apresentam-se elevados nos pacientes com sepse. A PARP é uma enzima sensor de dano ao DNA que é continuamente ativada na sepse, sendo importante também na diferenciação¸ dos linfócitos T reguladores e como coativador de NF-kB. Neste estudo, avaliamos se o tratamento com inibidor de PARP é capaz de manter os linfócitos Th17 e T reguladores próximos aos valores basais, impedindo que ocorra a resposta exacerbada causada por estas células e servindo, portanto, como opção de tratamento imunomodulador. Métodos: Camundongos machos da linhagem C57Bl/6 com 7 semanas de idade e pesando entre 20-25 gramas foram submetidos à ligadura e punção cecal e receberam tratamento com olaparibe (10mg/Kg) após 30 minutos e após 8 horas da cirurgia. Baço, timo e sangue foram coletados e utilizados para análise das populações de linfócitos T reguladores e Th17, citocinas e miRNAs. Resultados: O modelo de ligadura e punção cecal foi capaz de mimetizar a linfopenia encontrada em pacientes e o aumento de linfócitos T reguladores e Th17. O tratamento com olaparibe reduziu os linfócitos T reguladores no baço tanto em porcentagem quanto em quantidade de células. Tanto o nível de IL-10 quanto a expressão do miRNA 146a-5p caíram em ambos os grupos CLP, sugerindo menor atividade supressora destes linfócitos. No sangue houve aumento dos linfócitos T reguladores, mas apenas o grupo não tratado apresentou alta de IL-10, sugerindo que o tratamento conteve o perfil supressor. No timo o tratamento parece agir por uma forma diferente; embora ocorra aumento dos linfócitos T reguladores, o grupo tratado teve aumento da expressão do miRNA 17a-5p, que reduz a atividade supressora desses linfócitos, mostrando que as células produzidas tem sua atividade supressora alterada, o que é corroborado pelo não aumento de IL-10 nesse grupo. Os linfócitos Th17, que são pró-inflamatórios, foram controlados com o tratamento no baço e no sangue. Isso possivelmente ocorreu pela ação da PARP que impediu o aumento de citocinas como IL-1beta, IL-6, TNF-alfa, IL-17A, INF-y, que estavam elevadas apenas no grupo não tratado. Além disso, a relação entre linfócitos Th17 e T reguladores foi controlada, sugerindo melhora no desfecho clínico. Conclusões: O tratamento com olaparibe se mostrou eficiente em reduzir as respostas inflamatória (causada pelo Th17) e supressora (causada pelo Treg) neste modelo, talvez pela alteração de citocinas e da expressão dos miRNA 17a-5p e 146a-5p / Introduction: Sepsis is caused by a dysregulated response to an infection whose treatment is supportive, and there are no immunomodulatory alternatives. Regulatory T lymphocytes are responsible for limiting inflammation but may cause immunosuppression and Th17 are proinflammatory and responsible for mucosal immunity; both are elevated in patients with sepsis. PARP is a DNAdamaging enzyme that is continuously activated in sepsis, also important in the di_erentiation of regulatory T lymphocytes and as a cofactor of NF-kB. In this study, we evaluated whether treatment with PARP inhibitor is able to keep the T regulatory and Th17 lymphocytes close to the baseline values, preventing the exacerbated response caused by these cells and therefore serving as an option for immunomodulatory treatment. Methods: C57Bl male mice at 7 weeks of age weighing between 20-25 grams were submited at cecal binding and puncture and received treatment with olaparib (10mg/kg) after 30 minutes and after 8 hours of the surgery. Spleen, thymus and blood cells have been used for analysis of T regulatory and Th17 lymphocytes populations, cytokines and miRNA. Results: The cecal ligation and puncture model was able to mimic the lymphopenia found in patients and the increase of T regulatory and Th17 lymphocytes. Treatment with olaparib reduced the T regulatory lymphocytes in the spleen in both percentage and number of cells. Both the IL-10 level and the 146a-5p miRNA expression fell in both CLP groups, suggesting lower suppressor activity of these lymphocytes. In the blood there was an increase in the T regulatory lymphocytes, but only the untreated group showed high IL-10, suggesting that the treatment contained the suppressor profile. In the thymus the treatment seems to act in a di_erent way; although there is an increase in the T regulatory lymphocytes, the treated group had increased expression of 17a-5p miRNA, which reduces the suppressive activity of these lymphocytes, showing that the cells produced have their supressor activity altered, which is corroborated by the non-increase of IL- 10 in this group. Th17 lymphocytes, which are proinflammatory, were controlled with treatment in the spleen and blood. This was possibly due to the action of PARP which prevented the increase of cytokines such as IL-1beta, IL-6, TNF-alpha, IL-17A, INF-y which were raised only in the group not treated. In addition, the ratio between Th17 and T regulatory lymphocytes was controlled, suggesting improvement in clinical outcome. Conclusions: The treatment with olaparib was e_cient in reducing inflammatory responses (caused by Th17) and suppressor (caused by Treg) in this model, perhaps due to the alteration of cytokines and the expression of miRNAs 17a-5p and 146a-5p

Células Th17

Inflamação

Inflammation

Linfócitos

Linfócitos T reguladores

Lymphocytes

Olaparib

Olaparibe

Poli(ADP-ribose) polimerase-1

Poly(ADP-ribose) polymerase-1

Sepse

Sepsis

T-lymphocytes regulatory

Th17 cells

Évaluation de mécanismes potentiellement impliqués dans les lésions de la substance blanche après un traumatisme crânien : un rôle pour la Poly (ADP-Ribose) Polymérase ? / Evaluation of the potential mechanism implicated in white matter injury following traumatic brain injury : a role for the Poly(ADP-ribose) Polymerase

Cho, Angelo Hanbum

08 January 2015

Le traumatisme crânien (TC) représente un des problèmes majeurs de santé publique, pour lequel à l’heure actuelle il n’existe aucun traitement. Le TC induit une neuro-inflammation délétère qui pourrait contribuer à l’apparition des lésions de la substance blanche (SB). Ces dernières sont à l’origine de lourdes conséquences neurologiques chez les patients victimes de TC. Néanmoins, très peu d’études se sont intéressées à ces lésions bien que plus sévères que les lésions de la substance grise. Ainsi une meilleure connaissance de leur évolution et des causes devient indispensable. L’hyperactivation de la poly(ADP ribose)polymérase (PARP) joue un rôle délétère dans les conséquences post-traumatiques, notamment sur la neuro-inflammation. Ainsi son inhibition pourrait être bénéfique le développement des lésions de la SB. Dans ce contexte, l’objectif de notre travail a été d’évaluer le rôle de la PARP dans les lésions de la SB dans un modèle expérimental de TC induit par impact cortical contrôlé chez la souris. Dans une première partie, nous avons étudié l’évolution de la démyélinisation dans le corps calleux, une structure riche en SB, entre 6 heures et 3 mois post-TC. Parallèlement, les évolutions de la lésion cérébrale, des déficits sensorimoteurs, de la neuro-inflammation et de l’œdème cérébral ont été étudiées. Le TC induit (1) une démyélinisation dès 7 jours et au moins jusqu’à 3 mois post-TC, précédée par (2) une lésion cérébrale entre 24 et 72 heures suivie par une cicatrisation, (3) une neuro-inflammation entre 6 heures et 7 jours et (4) un œdème cérébral entre 6 et 72 heures post-TC. De plus, le TC induit des déficits sensorimoteurs à 6 heures et 3 mois. Ces résultats montrent que ce modèle est adapté pour étudier les lésions de la SB post-TC, et que la neuro-inflammation et l’œdème cérébral pourrait être impliqués dans la démyélinisation. Dans une deuxième partie, nous avons étudié le rôle de la PARP dans les lésions de la SB suite à TC à l’aide de souris knockout (KO) et wild-type (WT) pour le gène de la PARP. Nous avons mis en évidence que les souris KO ne présentent pas de démyélinisation bilatérale du corps calleux après un TC par rapport aux souris WT à 7 jours post-TC, démontrant pour la première fois l’implication de cette enzyme dans les lésions de la SB consécutives à un TC. De plus, nous avons constaté que les souris KO non traumatisées présentent une diminution de myélinisation comparativement aux souris WT non traumatisées, suggérant un rôle de la PARP dans le processus physiologique de la myélinisation.En conclusion, l’ensemble de ce travail expérimental a permis (1) une meilleure caractérisation de la démyélinisation post-TC et des mécanismes potentiellement impliqués dans cette dernière, et (2) de démontrer pour la première fois le rôle délétère de la PARP dans la démyélinisation induite par un TC. Nos travaux suggèrent le potentiel de l’inhibition de la PARP comme stratégie thérapeutique pour la prévention des lésions de la SB post-traumatiques. / Traumatic brain injury (TBI) is a leading cause of death and disability for which there is no neuroprotective treatment up to date. It results in neuroinflammation that may participate in lasting motor and cognitive impairments accompanied by changes in white matter (WM) tracts. WM lesions, evidenced by demyelination, are associated with neurological disorders and in clinical studies are common consequences in patients with chronic TBI. Several studies suggest a contribution of an overactivation of the poly(ADP-ribose) polymerase (PARP) to the neuroinflammatory response which may lead to demyelination. The first part of this study was dedicated to a detailed in vivo assessment of the evolution over time of neurological disorders, cerebral lesion and edema, neuroinflammation and white matter injury induced by controlled cortical impact (CCI) between 6 hours and 12 weeks post-TBI. Notably in the corpus callosum, a significant demyelination starting at 7 days appeared to be a major consequence to post-traumatic neuroinflammation associated with motor dysfunctions. The second part of this study was dedicated to the evaluation of PARP’s role in WM lesions post-TBI, using PARP knockout (KO) mice. Our main findings reveal a diminished demyelination in the corpus callosum of TBI PARP KO as opposed to TBI PARP wildtype specimens. Hence, these data suggest for the first time PARP’s deleterious role in post-traumatic demyelination. In conclusion, taken together these data give an overall view of motor/sensorimotor deficits, neuroinflammation and demyelination in a CCI model of TBI that could help to validate pharmacological strategy for preventing post-traumatic WM injury. Notably, PARP’s inhibition seems to be a valid candidate as this enzyme participates in the establishment of a demyelinating process.

Traumatisme crânien

Poly(ADP-ribose) polymérase

Substance blanche

Neuro-inflammation

Traumatic brain injury

Poly(ADP-ribose) polymerase

White matter

Neuroinflammation

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