More evidence for H2O2-mediated oxidative stress in vitiligo-increased epidermal DNA damage / repair.

Shalbaf, Mohammad

January 2009

Nowdays there is a plethora of evidence for H2O2-mediated oxidative stress in the epidermis as well as in the system in patients with vitiligo (for review see (Schallreuter, Bahadoran et al. 2008). Xanthine dehydrogenase / xanthine oxidase (XDH / XO) catalyses the oxidative hydroxylation of hypoxanthine to xanthine followed by xanthine to uric acid, the last two steps in purine degradation pathway. Under oxidative conditions, XDH is converted to XO. The reactions catalysed by this enzyme generate H2O2 and O2 ¿- , yielding in the presence of ROS accumulation, allantoin from uric acid. Therefore XO has been considered a major biologic source of oxygen-derived free radicals in many organs. The presence of XO in the human epidermis has not been shown so far. In this study several techniques were utilised to nail the presence and activity of XO in epidermal melanocytes and keratinocytes. The enzyme is regulated by H2O2 in a concentration dependent manner, where concentrations of 10-6M upregulate activity. Importantly, the results showed that the activity of XO is little affected by H2O2 in the mM range. H2O2-mediated oxidation of tryptophan and methionine residues in the sequence of XO yields only subtle alterations in the enzyme active site. These findings are in agreement with enzyme kinetics in the presence of 10-3M H2O2. Since uric acid is the end product of XO activity and this can be oxidised to allantoin by H2O2, we wanted to know whether allantoin is formed in the epidermis of patients with vitiligo. In order to address this issue, we utilised HPLC/mass spectrometry analysis. Analysis of epidermal cell extracts from suction blister tissue identified the presence of allantoin in patients with acute vitiligo, while this product was absent in healthy controls. In conclusion, our results provide evidence for functioning epidermal XO in the human epidermis which 4 can be a major source for the production of H2O2 contributing to oxidative stress in vitiligo. In addition, this thesis also demonstrates for the first time the presence of XO in melanosomes, and we showed that both 7BH4 and 7-biopterin inhibit XO activity in a concentration dependent manner. Moreover, XO has the potential to bind to 6/7BH4 and 6/7-biopterin from the pterin/tyrosinase inhibitor complex. This discovery adds another receptor independent mechanism for regulation of tyrosinase within the melanocyte similar to ¿/ß-MSH as shown earlier (Moore, Wood et al. 1999; Spencer, Chavan et al. 2005). Since the entire epidermis of patients with vitiligo is under H2O2-mediated oxidative stress, oxidative DNA damage would be highly expected. This thesis shows for the first time that epidermal 8-oxoG levels as well as plasma level of this oxidised DNA base are significantly increased in patients compared to healthy controls. We have shown that epidermal cells from patients with vitiligo respond to oxidative DNA damage via the overexpression of p21 and Gadd45¿ leading to a functioning increased short-patch base-excision repair (BER), while increased apoptosis can be ruled out due to lower caspase 3 and cytochrome c response compared to healthy controls. Our results show that patients develop effective DNA repair machinery via hOgg1, APE1 and DNA polymeraseß. Taking into consideration that these patients do not have an increased prevalence for solar-induced skin cancers, our data suggest that BER is a major player in the hierarchy to combat H2O2-mediated oxidative stress preventing ROS-induced tumourigenesis in the epidermis of these patients.

H2O2-mediated oxidative stress

Epidermis

Vitiligo

Allantoin

HPLC/mass spectrometry analysis.

DNA damage / repair

Melanosomes

Tyrosinase regulation

Sensing of Host Cell Contact by the <i>Pseudomonas aeruginosa</i> Type III Secretion System

Armentrout, Erin I.

29 August 2017

No description available.

Microbiology

Molecular Biology

Pseudomonas aeruginosa

type III secretion

T3SS

translocator

PopB

PopD

PcrV, ExoS

membrane damage repair

endocytosis

feedback inhibition

Rôle des facteurs de la réparation de l’ADN dans la dynamique du génome au sein du système immunitaire / Role of DNA repair factors in genome dynamics in the immune system

Kaltenbach, Sophie

12 November 2015

Le système immunitaire est particulièrement dépendant des mécanismes de réparation de l’ADN, en effet le développement du système immunitaire adaptatif nécessite certains mécanismes de réparation de l’ADN, lors de la recombinaison V(D)J et lors de la commutation de classe des immunoglobulines. De plus, le système hématopoïétique est par sa nature très sensible aux lésions spontanées de l’ADN. Il existe chez l’homme de nombreux déficits immunitaires directement liés à un défaut de réparation de l’ADN. L’identification du gène responsable est importante pour un conseil génétique familial approprié et pour la prise en charge médicale. Nous avons accès aujourd’hui à de puissants outils de dépistage génétique grâce au séquençage à haut débit et la liste des gènes responsables d’un déficit immunitaire s’allonge de plus en plus en rapidement. La première partie de ce travail porte sur la mise au point d’un nouvel outil de dépistage rapide des déficits de la réparation de l’ADN, en particulier dans le cas de déficit immunitaires. Ce test est fondé sur l’observation d’un biais du répertoire du TCRdes lymphocytes T circulants lorsque les thymocytes ont une durée de vie diminuée, or un défaut de réparation de l’ADN entraîne une diminution de la survie thymocytaire. Nous avons mis au point deux techniques, par biologie moléculaire et par cytométrie en flux, pour détecter un éventuel biais du répertoire du TCRα et évaluer la pertinence de ce test dans les déficits immunitaires liés à un défaut de réparation de l’ADN. Un biais a notamment été détecté dans les cas de déficit en facteur du NHEJ et en ATM. Nous avons également établi en collaboration avec le service d’Immunologie Clinique de l’hôpital Saint-Louis une cohorte de patients atteints de déficit immunitaire commun variable (DICV) dont la présentation clinique est évocatrice d’un défaut de réparation de l’ADN. Une série de test fonctionnels de dépistages de déficit de la réparation de l’ADN ainsi que des analyses génétiques (CGH array, séquençage complet de l’exome) ont été fait chez ces patients afin d’identifier de nouveaux gènes impliqués dans les DICV. Parmi les 18 patients analysés, dans 5 cas on retrouve une sensibilité cellulaire accrue aux agents génotoxiques et chez 15 patients, un gène candidat a été identifié. Ces résultats sont encore préliminaires et la caractérisation génétique et fonctionnelle des mutations identifiées sera poursuivie par notre équipe. Pour finir, nous avons entrepris l’exploration génétique et fonctionnelle de deux mutations identifiées chez une jeune patiente atteinte de déficit immunitaire combiné (CID) associé à un syndrome lymphoprolifératif et une auto-immunité, et chez qui une hypersensibilité cellulaire à la Mitomycine C, agent pontant de l’ADN, a été détectée. La première mutation a été identifiée dans le gène ELKS qui code pour un facteur impliqué dans la réparation de l’ADN. La complémentation fonctionnelle de ce gène prouve l’implication de cette mutation dans l’hypersensibilité des cellules de la patiente à la MMC. Nous avons développé un modèle murin KO conditionnel de ce gène dans les cellules hématopoïétiques qui n’a pas montré de défaut de développement du système immunitaire. La deuxième mutation identifiée se situe dans le gène BACH2 codant pour un répresseur transcriptionnel très impliqué dans le développement du système immunitaire. Les souris KO pour ce gène ont un phénotype proche du déficit immunitaire décrit chez cette patiente. Les investigations de cette mutation sont en cours chez elle et chez les membres de sa famille également porteurs de la mutation. / The immune system is particularly dependent on DNA damage response (DDR) pathways. The development of the adaptive immune system requires certain DDR mechanisms, in particular during the V(D)J recombination and during class switch recombination (CSR), furthermore, the hematopoietic system is very sensitive to spontaneous DNA lesions. Therefore, there are many immune deficiencies in human directly related to a DDR deficiency. The identification of the responsible gene is important for appropriate genetic counseling. Today, we have access to powerful genetic screening tools, in particular next generation sequencing (NGS) and the list of genes responsible for immune deficiency is growing rapidly. The first part of this work focuses on the development of a new screening tool for DDR defects, in particular in the case of immune deficiency, and evaluation of clinical interest. This test is based on the observation of a bias of the TCRα repertoire in circulating T lymphocytes when thymocytes lifespan is diminished and we know that DDR defect causes decreased thymocyte survival. We have developed two techniques, by molecular biology and by flow cytometry, to detect a potential bias of the TCRα repetoire and assess the suitability of this test in some immunodeficiencies linked to a DDR defect. A significant bias was detected in the case of ATM and NHEJ factor deficiency. Furthermore, we have established a cohort of patients suffering from common variable immunodeficiency (CVID) with a clinical presentation highly suggestive of DDR defect, in collaboration with the Clinical Immunology Service of Hôpital Saint-Louis (Paris). Functional test for DDR defect and genetic analysis (CGHarray, whole exome sequencing) were performed in these patients to identify new genes involved in CVID. Among the 18 patients analyzed until now, five cases of cellular sensitivity to genotoxic agents have been detected and a candidate gene was identified in 15 of them. These results are still preliminary and our team will pursue genetic and functional characterization of the identified mutations. Finally, we undertook genetic and functional exploration of two mutations identified in a young patient with combined immunodeficiency (CID) associated with a lymphoproliferative disease and autoimmunity, and in whom a cellular hypersensitivity to mitomycin C, a DNA crosslinking agent, was detected. The first mutation was identified in the ELKS gene, which codes for a factor involved in DNA repair. Functional complementation of this gene demonstrates the involvement of this mutation in the hypersensitivity of patient’s cells to MMC. We have developed a conditional knockout mouse model of this gene in hematopoietic cells that did not show any defect in development of the immune system. The second mutation was identified in BACH2 gene encoding a transcriptional repressor involved in the development of the immune system. Knockout mice for this gene have a similar phenotype to the immune deficiency described in this patient. Investigations on this mutation are ongoing in the patient and among family members that also carry the mutation.

Réparation de l’ADN

Déficits immunitaires

Instabilité génomique

Répertoire TCRα

Séquençage de l’exome

DNA damage repair

Immune deficiencies

Genomic instability

TCRα repertoire

Whole exome sequencing

571.964 8

Rôle des facteurs de la réparation de l’ADN dans la dynamique du génome au sein du système immunitaire / Role of DNA repair factors in genome dynamics in the immune system

Kaltenbach, Sophie

12 November 2015

Le système immunitaire est particulièrement dépendant des mécanismes de réparation de l’ADN, en effet le développement du système immunitaire adaptatif nécessite certains mécanismes de réparation de l’ADN, lors de la recombinaison V(D)J et lors de la commutation de classe des immunoglobulines. De plus, le système hématopoïétique est par sa nature très sensible aux lésions spontanées de l’ADN. Il existe chez l’homme de nombreux déficits immunitaires directement liés à un défaut de réparation de l’ADN. L’identification du gène responsable est importante pour un conseil génétique familial approprié et pour la prise en charge médicale. Nous avons accès aujourd’hui à de puissants outils de dépistage génétique grâce au séquençage à haut débit et la liste des gènes responsables d’un déficit immunitaire s’allonge de plus en plus en rapidement. La première partie de ce travail porte sur la mise au point d’un nouvel outil de dépistage rapide des déficits de la réparation de l’ADN, en particulier dans le cas de déficit immunitaires. Ce test est fondé sur l’observation d’un biais du répertoire du TCRdes lymphocytes T circulants lorsque les thymocytes ont une durée de vie diminuée, or un défaut de réparation de l’ADN entraîne une diminution de la survie thymocytaire. Nous avons mis au point deux techniques, par biologie moléculaire et par cytométrie en flux, pour détecter un éventuel biais du répertoire du TCRα et évaluer la pertinence de ce test dans les déficits immunitaires liés à un défaut de réparation de l’ADN. Un biais a notamment été détecté dans les cas de déficit en facteur du NHEJ et en ATM. Nous avons également établi en collaboration avec le service d’Immunologie Clinique de l’hôpital Saint-Louis une cohorte de patients atteints de déficit immunitaire commun variable (DICV) dont la présentation clinique est évocatrice d’un défaut de réparation de l’ADN. Une série de test fonctionnels de dépistages de déficit de la réparation de l’ADN ainsi que des analyses génétiques (CGH array, séquençage complet de l’exome) ont été fait chez ces patients afin d’identifier de nouveaux gènes impliqués dans les DICV. Parmi les 18 patients analysés, dans 5 cas on retrouve une sensibilité cellulaire accrue aux agents génotoxiques et chez 15 patients, un gène candidat a été identifié. Ces résultats sont encore préliminaires et la caractérisation génétique et fonctionnelle des mutations identifiées sera poursuivie par notre équipe. Pour finir, nous avons entrepris l’exploration génétique et fonctionnelle de deux mutations identifiées chez une jeune patiente atteinte de déficit immunitaire combiné (CID) associé à un syndrome lymphoprolifératif et une auto-immunité, et chez qui une hypersensibilité cellulaire à la Mitomycine C, agent pontant de l’ADN, a été détectée. La première mutation a été identifiée dans le gène ELKS qui code pour un facteur impliqué dans la réparation de l’ADN. La complémentation fonctionnelle de ce gène prouve l’implication de cette mutation dans l’hypersensibilité des cellules de la patiente à la MMC. Nous avons développé un modèle murin KO conditionnel de ce gène dans les cellules hématopoïétiques qui n’a pas montré de défaut de développement du système immunitaire. La deuxième mutation identifiée se situe dans le gène BACH2 codant pour un répresseur transcriptionnel très impliqué dans le développement du système immunitaire. Les souris KO pour ce gène ont un phénotype proche du déficit immunitaire décrit chez cette patiente. Les investigations de cette mutation sont en cours chez elle et chez les membres de sa famille également porteurs de la mutation. / The immune system is particularly dependent on DNA damage response (DDR) pathways. The development of the adaptive immune system requires certain DDR mechanisms, in particular during the V(D)J recombination and during class switch recombination (CSR), furthermore, the hematopoietic system is very sensitive to spontaneous DNA lesions. Therefore, there are many immune deficiencies in human directly related to a DDR deficiency. The identification of the responsible gene is important for appropriate genetic counseling. Today, we have access to powerful genetic screening tools, in particular next generation sequencing (NGS) and the list of genes responsible for immune deficiency is growing rapidly. The first part of this work focuses on the development of a new screening tool for DDR defects, in particular in the case of immune deficiency, and evaluation of clinical interest. This test is based on the observation of a bias of the TCRα repertoire in circulating T lymphocytes when thymocytes lifespan is diminished and we know that DDR defect causes decreased thymocyte survival. We have developed two techniques, by molecular biology and by flow cytometry, to detect a potential bias of the TCRα repetoire and assess the suitability of this test in some immunodeficiencies linked to a DDR defect. A significant bias was detected in the case of ATM and NHEJ factor deficiency. Furthermore, we have established a cohort of patients suffering from common variable immunodeficiency (CVID) with a clinical presentation highly suggestive of DDR defect, in collaboration with the Clinical Immunology Service of Hôpital Saint-Louis (Paris). Functional test for DDR defect and genetic analysis (CGHarray, whole exome sequencing) were performed in these patients to identify new genes involved in CVID. Among the 18 patients analyzed until now, five cases of cellular sensitivity to genotoxic agents have been detected and a candidate gene was identified in 15 of them. These results are still preliminary and our team will pursue genetic and functional characterization of the identified mutations. Finally, we undertook genetic and functional exploration of two mutations identified in a young patient with combined immunodeficiency (CID) associated with a lymphoproliferative disease and autoimmunity, and in whom a cellular hypersensitivity to mitomycin C, a DNA crosslinking agent, was detected. The first mutation was identified in the ELKS gene, which codes for a factor involved in DNA repair. Functional complementation of this gene demonstrates the involvement of this mutation in the hypersensitivity of patient’s cells to MMC. We have developed a conditional knockout mouse model of this gene in hematopoietic cells that did not show any defect in development of the immune system. The second mutation was identified in BACH2 gene encoding a transcriptional repressor involved in the development of the immune system. Knockout mice for this gene have a similar phenotype to the immune deficiency described in this patient. Investigations on this mutation are ongoing in the patient and among family members that also carry the mutation.

Réparation de l’ADN

Déficits immunitaires

Instabilité génomique

Répertoire TCRα

Séquençage de l’exome

DNA damage repair

Immune deficiencies

Genomic instability

TCRα repertoire

Whole exome sequencing

571.964 8

The role of ubiquitylation in regulating apurinic/apyrimidinic endonuclease 1

Meisenberg, Cornelia

January 2012

Apurinic/apyrimidinic endonuclease 1 (APE1) is a key DNA repair factor involved in the DNA base excision repair (BER) pathway that is required for the maintenance of genome stability. In this pathway, APE1 cleaves DNA at an abasic site to generate a DNA single strand break, allowing for repair completion by a DNA polymerase and a DNA ligase. High levels of APE1 have been observed in multiple cancer types however it is not understood if this contributes to cancer onset and development. What is known is that these cancers tend to display increased resistance to DNA damaging treatments and APE1 is therefore considered a key target for inhibition in the treatment of APE1-overexpressing cancers. Considering the relevance of modulating APE1 levels in disease and cancer treatment, very little is known about how cellular APE1 levels are regulated. Our lab has previously shown that the levels of the BER factors Pol β, XRCC1 and DNA Lig IIIα are regulated by ubiquitylation-mediated proteasomal degradation. The aim of this doctoral thesis was therefore to determine if ubiquitylation also regulates APE1 stability in cells. I present evidence that APE1 is ubiquitylated in cells and have identified the UBR3 E3 ligase that is responsible for this activity. Using mouse embryonic fibroblasts generated from Ubr3 knockout mice, I demonstrate that UBR3 regulates APE1 cellular levels. I furthermore show that a loss of cellular UBR3 leads to the formation of DNA double strand breaks and genome instability.

572.8

A aplicação do código de defesa do consumidor às ações judiciais por alegado erro médico / The application of the Code of Consumers for alleged medical malpractice suits.

Scapin, Andréia Cristina

07 June 2010

A presente pesquisa tem como objetivo analisar a responsabilidade do médico dentro do contexto doutrinário e jurisprudencial da atualidade e demonstrar, a partir da análise de ações judiciais por alegado erro médico, propostas perante o Poder Judiciário, que os direitos atribuídos ao consumidor pelo Código de Defesa do Consumidor, bem como as prerrogativas de facilitação do acesso ao judiciário atualmente são aplicados pelos profissionais do Direito ao exercício da atividade médica de forma generalizada, ou seja, tanto em relação às sociedades empresárias hospitais, clínicas e planos de saúde, quanto aos profissionais liberais, sem considerar que o §4º do artigo 14 do Código de Defesa do Consumidor, ao estabelecer como requisito para a responsabilidade do profissional liberal a comprovação de culpa (imprudência, negligência e imperícia), determina, a contrario sensu, a aplicação das normas do Código Civil, de forma que, também as prerrogativas de facilitação de acesso ao judiciário, exclusivas da legislação de consumo, não poderiam ser aplicadas ao exercício da atividade pelo profissional liberal. / This study aims at analyzing physicians responsibilities at both the doctrinal and jurisprudential levels to date. Thus, it also aims to show, from an analysis of alleged medical malpractice suits filed in the judiciary power, that the consumers rights guaranteed by the Code of Consumers Defense, as well as the privileges of access to the judiciary power, are currently applied by law professionals for the medical practice in a general way, meaning that both business corporations, hospitals, clinics and health insurance companies, as well as liberal professionals, not mentioning the fourth paragraph of clause 14 from the Code of Consumers Defense, which regulates liberal professionals responsibilities to establish guilt of imprudence, negligence or malpractice, it is, however, guided by the application of the rules from the Civil Code, in a sense that the privileges of access to the judiciary power could not be applied to the liberal Professionals medical practice, either.

Code of consumers defense

Damage repair

Direito à vida

Erro médico

Liberal professional

Medical malpractice

Reparação do dano

Responsabilidade civil

Sociedade de consumo

Rôle des facteurs de la réparation de l’ADN dans la dynamique du génome au sein du système immunitaire / Role of DNA repair factors in genome dynamics in the immune system

Kaltenbach, Sophie

12 November 2015

Le système immunitaire est particulièrement dépendant des mécanismes de réparation de l’ADN, en effet le développement du système immunitaire adaptatif nécessite certains mécanismes de réparation de l’ADN, lors de la recombinaison V(D)J et lors de la commutation de classe des immunoglobulines. De plus, le système hématopoïétique est par sa nature très sensible aux lésions spontanées de l’ADN. Il existe chez l’homme de nombreux déficits immunitaires directement liés à un défaut de réparation de l’ADN. L’identification du gène responsable est importante pour un conseil génétique familial approprié et pour la prise en charge médicale. Nous avons accès aujourd’hui à de puissants outils de dépistage génétique grâce au séquençage à haut débit et la liste des gènes responsables d’un déficit immunitaire s’allonge de plus en plus en rapidement. La première partie de ce travail porte sur la mise au point d’un nouvel outil de dépistage rapide des déficits de la réparation de l’ADN, en particulier dans le cas de déficit immunitaires. Ce test est fondé sur l’observation d’un biais du répertoire du TCRdes lymphocytes T circulants lorsque les thymocytes ont une durée de vie diminuée, or un défaut de réparation de l’ADN entraîne une diminution de la survie thymocytaire. Nous avons mis au point deux techniques, par biologie moléculaire et par cytométrie en flux, pour détecter un éventuel biais du répertoire du TCRα et évaluer la pertinence de ce test dans les déficits immunitaires liés à un défaut de réparation de l’ADN. Un biais a notamment été détecté dans les cas de déficit en facteur du NHEJ et en ATM. Nous avons également établi en collaboration avec le service d’Immunologie Clinique de l’hôpital Saint-Louis une cohorte de patients atteints de déficit immunitaire commun variable (DICV) dont la présentation clinique est évocatrice d’un défaut de réparation de l’ADN. Une série de test fonctionnels de dépistages de déficit de la réparation de l’ADN ainsi que des analyses génétiques (CGH array, séquençage complet de l’exome) ont été fait chez ces patients afin d’identifier de nouveaux gènes impliqués dans les DICV. Parmi les 18 patients analysés, dans 5 cas on retrouve une sensibilité cellulaire accrue aux agents génotoxiques et chez 15 patients, un gène candidat a été identifié. Ces résultats sont encore préliminaires et la caractérisation génétique et fonctionnelle des mutations identifiées sera poursuivie par notre équipe. Pour finir, nous avons entrepris l’exploration génétique et fonctionnelle de deux mutations identifiées chez une jeune patiente atteinte de déficit immunitaire combiné (CID) associé à un syndrome lymphoprolifératif et une auto-immunité, et chez qui une hypersensibilité cellulaire à la Mitomycine C, agent pontant de l’ADN, a été détectée. La première mutation a été identifiée dans le gène ELKS qui code pour un facteur impliqué dans la réparation de l’ADN. La complémentation fonctionnelle de ce gène prouve l’implication de cette mutation dans l’hypersensibilité des cellules de la patiente à la MMC. Nous avons développé un modèle murin KO conditionnel de ce gène dans les cellules hématopoïétiques qui n’a pas montré de défaut de développement du système immunitaire. La deuxième mutation identifiée se situe dans le gène BACH2 codant pour un répresseur transcriptionnel très impliqué dans le développement du système immunitaire. Les souris KO pour ce gène ont un phénotype proche du déficit immunitaire décrit chez cette patiente. Les investigations de cette mutation sont en cours chez elle et chez les membres de sa famille également porteurs de la mutation. / The immune system is particularly dependent on DNA damage response (DDR) pathways. The development of the adaptive immune system requires certain DDR mechanisms, in particular during the V(D)J recombination and during class switch recombination (CSR), furthermore, the hematopoietic system is very sensitive to spontaneous DNA lesions. Therefore, there are many immune deficiencies in human directly related to a DDR deficiency. The identification of the responsible gene is important for appropriate genetic counseling. Today, we have access to powerful genetic screening tools, in particular next generation sequencing (NGS) and the list of genes responsible for immune deficiency is growing rapidly. The first part of this work focuses on the development of a new screening tool for DDR defects, in particular in the case of immune deficiency, and evaluation of clinical interest. This test is based on the observation of a bias of the TCRα repertoire in circulating T lymphocytes when thymocytes lifespan is diminished and we know that DDR defect causes decreased thymocyte survival. We have developed two techniques, by molecular biology and by flow cytometry, to detect a potential bias of the TCRα repetoire and assess the suitability of this test in some immunodeficiencies linked to a DDR defect. A significant bias was detected in the case of ATM and NHEJ factor deficiency. Furthermore, we have established a cohort of patients suffering from common variable immunodeficiency (CVID) with a clinical presentation highly suggestive of DDR defect, in collaboration with the Clinical Immunology Service of Hôpital Saint-Louis (Paris). Functional test for DDR defect and genetic analysis (CGHarray, whole exome sequencing) were performed in these patients to identify new genes involved in CVID. Among the 18 patients analyzed until now, five cases of cellular sensitivity to genotoxic agents have been detected and a candidate gene was identified in 15 of them. These results are still preliminary and our team will pursue genetic and functional characterization of the identified mutations. Finally, we undertook genetic and functional exploration of two mutations identified in a young patient with combined immunodeficiency (CID) associated with a lymphoproliferative disease and autoimmunity, and in whom a cellular hypersensitivity to mitomycin C, a DNA crosslinking agent, was detected. The first mutation was identified in the ELKS gene, which codes for a factor involved in DNA repair. Functional complementation of this gene demonstrates the involvement of this mutation in the hypersensitivity of patient’s cells to MMC. We have developed a conditional knockout mouse model of this gene in hematopoietic cells that did not show any defect in development of the immune system. The second mutation was identified in BACH2 gene encoding a transcriptional repressor involved in the development of the immune system. Knockout mice for this gene have a similar phenotype to the immune deficiency described in this patient. Investigations on this mutation are ongoing in the patient and among family members that also carry the mutation.

Réparation de l’ADN

Déficits immunitaires

Instabilité génomique

Répertoire TCRα

Séquençage de l’exome

DNA damage repair

Immune deficiencies

Genomic instability

TCRα repertoire

Whole exome sequencing

571.964 8

A reparação do dano como protagonista no Direito penal ambiental: o caráter de ultima ratio, subsidiariedade e fragmentariedade, São Leopoldo - RS

Lima, Bruna Aspar

28 April 2014

Submitted by Silvana Teresinha Dornelles Studzinski (sstudzinski) on 2015-07-06T15:41:09Z No. of bitstreams: 1 Bruna Aspar Lima.pdf: 971532 bytes, checksum: 82f0e82dde808eb1cc573502c39c908b (MD5) / Made available in DSpace on 2015-07-06T15:41:09Z (GMT). No. of bitstreams: 1 Bruna Aspar Lima.pdf: 971532 bytes, checksum: 82f0e82dde808eb1cc573502c39c908b (MD5) Previous issue date: 2014-04-28 / Nenhuma / O presente trabalho visa ao desenvolvimento de uma nova forma de enfrentamento da criminalidade ecológica através da efetiva e integral reparação do dano. Serão examinados, inicialmente, os contornos da sociedade contemporânea, destacando a assunção do risco como elemento nuclear da organização social e a dinâmica peculiar que com isso se assume, o processo expansivo da tutela penal e a aclamada proteção do meio ambiente. Posteriormente, será traçado, em linhas gerais, o despertar ecológico, as respostas encontradas pelo Estado em termos de proteção, através da promulgação de leis ambientais redundantes na proteção através do Direito Penal, bem como os fundamentos legitimadores a autorizar o sancionamento penal, visando uma verdadeira análise conjunta da proteção do meio ambiente e da tutela penal, com a necessidade deste para proteger aquele. O estudo propõe-se, ainda, a analisar o novo enfoque assumido pela reparação do dano em termos de Direito Penal, ao redescobrir a vítima do delito e, em vista disto, aproximar-se do ideal reparatório, traçando, ao final, uma ligação com os objetivos primordiais galgados em termos de preservação e proteção do meio ambiente e a influência direta nos critérios de punibilidade em termos de desenvolvimento de uma nova racionalidade referente ao contexto de proteção do meio ambiente. / This work aims a development of a new way of facing the ecological criminality through the effective and integral of damage repair. Will be examinated, initially, the contours of the contemporary society, detaching the assumption of the risk as a nuclear element of the social organization and the peculiar dynamics that with it is assumed, the expansive process of the criminal guardianship and the acclaimed protection of the environment. Posteriorly, will be traced, in general lines, the ecological awakening, the answers found by the State in terms of protection, through the constant promulgation of ecological laws, redundant in the protection through the Criminal Law, so as the legitimation fundaments that authorizes the criminal sanctioning, aiming a true joint analysis of the environment protection and the criminal guardianship with the necessity of this last to protect that one. The study also intends to examine the new approach assumed by the damage repair in terms of the Environmental Criminal Law, that assumes a remedial bias, through the rediscovering of the victim, fulfilling with the primordials objectives searched in the preservation and protection of the environment, influencing the punishment in terms of a development of a new rationality about an environment protection context.

Sociedade contemporânea

Risco

Crime ambiental

Reparação do dano

Punibilidade

Contemporary society

Risk

Environmental crime

Damage repair

Punishment

Post-replicative resolution of under-replication

Carrington, James T.

January 2017

The evolutionary pressure to prevent re-replication by inactivating licensing during S phase leaves higher-eukaryotes with large genomes, such as human cells, vulnerable to replication stresses. Origins licensed in G1 must be sufficient to complete replication as new origins cannot be licensed in response to irreversible replication fork stalling. Interdisciplinary approaches between cellular biology and biophysics predict that replication of the genome is routinely incomplete in G2, even in the absence of external stressors. The frequency of converging replication forks that never terminate due to irreversible stalling (double fork stall), which result in a segment of unreplicated DNA, was modelled using high quality origin-mapping data in HeLa and IMR-90 cells. From this, hypotheses were generated that related an increase in unreplicated segments of DNA to reduced functional origin number. Presented in this thesis is the confirmation of this relation by quantifying chromosome mis-segregation and DNA damage responses when origin number was reduced using RNAi against licensing factors. The number of ultrafine anaphase bridges and 53BP1 nuclear bodies are in remarkable concordance with the theoretical predictions for the number of double fork stalls, indicating that cells are able to tolerate under-replication through such post-replicative cellular responses. 53BP1 preferentially binds to chromatin associated with large replicons, and functions synergistically with dormant origins to protect the stability of the genome. Additional candidates, inspired by common fragile site research, have also been characterised as responders to spontaneous under-replication, and include FANCD2 and MiDAS, which function in early mitosis to facilitate completion of replication before cells enter anaphase. In conclusion, a series of mechanisms that sequentially function throughout the cell cycle protects the stability of the human genome against inevitable spontaneous under-replication brought about by its large size.

A aplicação do código de defesa do consumidor às ações judiciais por alegado erro médico / The application of the Code of Consumers for alleged medical malpractice suits.

Andréia Cristina Scapin

07 June 2010

A presente pesquisa tem como objetivo analisar a responsabilidade do médico dentro do contexto doutrinário e jurisprudencial da atualidade e demonstrar, a partir da análise de ações judiciais por alegado erro médico, propostas perante o Poder Judiciário, que os direitos atribuídos ao consumidor pelo Código de Defesa do Consumidor, bem como as prerrogativas de facilitação do acesso ao judiciário atualmente são aplicados pelos profissionais do Direito ao exercício da atividade médica de forma generalizada, ou seja, tanto em relação às sociedades empresárias hospitais, clínicas e planos de saúde, quanto aos profissionais liberais, sem considerar que o §4º do artigo 14 do Código de Defesa do Consumidor, ao estabelecer como requisito para a responsabilidade do profissional liberal a comprovação de culpa (imprudência, negligência e imperícia), determina, a contrario sensu, a aplicação das normas do Código Civil, de forma que, também as prerrogativas de facilitação de acesso ao judiciário, exclusivas da legislação de consumo, não poderiam ser aplicadas ao exercício da atividade pelo profissional liberal. / This study aims at analyzing physicians responsibilities at both the doctrinal and jurisprudential levels to date. Thus, it also aims to show, from an analysis of alleged medical malpractice suits filed in the judiciary power, that the consumers rights guaranteed by the Code of Consumers Defense, as well as the privileges of access to the judiciary power, are currently applied by law professionals for the medical practice in a general way, meaning that both business corporations, hospitals, clinics and health insurance companies, as well as liberal professionals, not mentioning the fourth paragraph of clause 14 from the Code of Consumers Defense, which regulates liberal professionals responsibilities to establish guilt of imprudence, negligence or malpractice, it is, however, guided by the application of the rules from the Civil Code, in a sense that the privileges of access to the judiciary power could not be applied to the liberal Professionals medical practice, either.

Direito à vida

Erro médico

Reparação do dano

Responsabilidade civil

Sociedade de consumo

Code of consumers defense

Damage repair

Liberal professional

Medical malpractice