Local chromosome context is a major determinant of crossover pathway biochemistry during budding yeast meiosis

01 October 2019

Yes / Abstract The budding yeast genome contains regions where meiotic recombination initiates more frequently than in others. This pattern parallels enrichment for the meiotic chromosome axis proteins Hop1 and Red1. These proteins are important for Spo11-catalyzed double strand break formation; their contribution to crossover recombination remains undefined. Using the sequence-specific VMA1-derived endonuclease (VDE) to initiate recombination in meiosis, we show that chromosome structure influences the choice of proteins that resolve recombination intermediates to form crossovers. At a Hop1-enriched locus, most VDE-initiated crossovers, like most Spo11-initiated crossovers, required the meiosis-specific MutLγ resolvase. In contrast, at a locus with lower Hop1 occupancy, most VDE-initiated crossovers were MutLγ-independent. In pch2 mutants, the two loci displayed similar Hop1 occupancy levels, and VDE-induced crossovers were similarly MutLγ-dependent. We suggest that meiotic and mitotic recombination pathways coexist within meiotic cells, and that features of meiotic chromosome structure determine whether one or the other predominates in different regions.

Holliday junction resolvase

S. cerevisiae

VMA1-derived endonuclease

Chromosome structure

Chromosomes

Genes

Homologous recombination mechanisms

Meiotic chromosome axis

Caractérisation génomique et développement d’outils de construction de clones infectieux pour l’étude de flexivirus / Genomic characterization and development of tools for the construction of infectious full-lngth cDNAs for the study of flexiviruses

Youssef, Fater

21 December 2010

La famille des Flexiviridae a été créée en 2004 et regroupe plusieurs genres viraux affectant particulièrement des espèces ligneuses dont des arbres fruitiers. Grâce à diverses approches plusieurs nouveaux Flexiviridae ont été partiellement caractérisés au cours de ces dernières années. En revanche la position taxonomique précise de certains d’entre eux et leur contribution à des pathologies particulières restent encore incertaines du fait de difficultés inhérentes à l’étude de ces agents. Dans le présent travail, nous avons obtenu les séquences génomiques complètes pour quatre agents proches de l’Apricot latent virus. Ceci a permis de préciser l’organisation génomique de ces virus et d’en déterminer la position taxonomique. Cette étude a également permis de montrer que la partie C-terminale de la capside et la protéine TGBp1 sont soumises à une pression sélective particulièrement forte. Dans un second volet de ce travail, plusieurs approches permettant l’obtention simple et rapide d’ADNc infectieux, sous forme clonée ou non ont été développées. Travaillant sur plusieurs Flexiviridae, dont le virus des taches foliaires chlorotiques du pommier (Apple chlorotic leaf spot virus, ACLSV), nous avons mis au point l’amplification d’ADNc génomiques complets en une seule étape à partir d’extraits d’acides nucléiques totaux obtenus à partir de plantes infectées. Des amplifiats comportant l’ADNc viral sous le contrôle du promoteur 35S du CaMV ou du promoteur de la RNA polymérase du phage T7 ont été obtenus et utilisés pour infecter des plantes directement par biolistique (promoteur 35S) ou pour obtenir des ARN infectieux par transcription in vitro (promoteur T7). Ces données ont mis en évidence des différences importantes dans le comportement de deux hôtes de l’ACLSV, Chenopodium quinoa et Nicotiana occidentalis 37B. Nous avons également utilisé le système de recombinaison homologue de la levure Saccharomyces cerevisiae simplifier le clonage d’ADNc complets amplifiés par PCR ou pour réaliser en une seule étape la construction d’un vecteur navette ternaire levure-E. coli-A. tumefaciens et l’obtention d’un clone ADNc de l’ACLSV inoculable par agroinfiltration. Ces différentes stratégies devraient trouver une large application, en particulier pour tester plus rapidement des hypothèses d’étiologie pour les virus de plantes réputés "difficiles", tels que ceux infectant des hôtes ligneux. / The Flexiviridae family was created in 2004 and contains several viral genera affecting in particular woody hosts, including fruit trees. Using various strategies several new Flexiviridae have been partially characterized in the past few years. However, due to difficulties inherent in studying these agents, the precise taxonomic position of some of them and their contribution to particular diseases are still uncertain. In the present work, the complete genomic sequences of four Prunus-infecting Apricot latent virus (ApLV) like isolates have been determined. This has allowed to determine the genomic organization and the taxonomic position of these viruses. The results obtained also indicate that the C-terminal half of the coat protein and the TGBp1 are the genomic regions under the strongest purifying selection pressure. In the second part of this work, a set of approaches to simplify and streamline the construction of cloned or uncloned infectious full-length viral cDNAs were developed. working with several Flexiviridae and, in particular, with the Apple chlorotic leaf spot virus (ACLSV), we have developed protocols allowing the one-step amplification from total nucleic acids extracts of full-length cDNAs. under the control of the CaMV 35S or phage T7 RNA polymerase promoters. Successful inoculation of plants with these uncloned amplification products was obtained by biolistic bombardment (35S promoter) or using in vitro synthesized RNA transcripts (T7 promoter). Results obtained showed significant differences in the behavior of the two ACLSV hosts, Chenopodium quinoa and Nicotiana occidentalis 37B. We also used the yeast homologous recombination system for the efficient cloning of full-length cDNAs and for the simultaneous one-step construction of a ternary yeast-E. coli-Agrobacterium tumefaciens shuttle vector and generation of an agroinfiltrable infectious ACLSV construct. These various strategies should find broad applications, in particular for the validation of etiological hypotheses in the case of “difficult” plant viruses, such as those infecting woody hosts.

Flexiviridae

Apricot latent virus

ADNc infectieux

Promoteur 35S

Promoteur T7

Recombinaison homologue

Saccharomyces cerevisiae

Infectious cDNA

35S promoter

T7 promoter

Homologous recombination

The analysis of homologous recombination pathways in Saccharomyces cerevisiae

Tay, Ye Dee

January 2010

Homologous recombination (HR) is essential for the repair of DNA doublestrand breaks (DSBs) and damaged replication forks. However, HR can also cause gross chromosomal rearrangements (GCRs) by producing crossovers (COs), resulting in the reciprocal exchange of sequences between non-sister chromatids. Therefore, HR-mediated GCRs are suppressed via the promotion of HR pathways that favour noncrossover (NCO) formation, such as the synthesis-dependent strand annealing (SDSA) and dissolution pathways, which are modulated by Mph1 and Sgs1 helicases, respectively. The mismatch repair (MMR) pathway is intricately associated with HR via its roles in repairing mismatches on heteroduplex DNA that can arise during HR and in preventing homeologous recombination. Using a plasmid break-repair assay, we have revealed a novel, MMR-independent role of MutSα in promoting the formation of a subset of COs that is specifically supressible by Mph1, during HR between two completely homologous sequences. In contrast, the MMR-dependent function of MutSα, together with Mph1 and Sgs1, was shown to be required for the suppression of CO formation during homeologous recombination. These data indicate that Mph1 can both antagonise and promote the functions of MutSα during DSB repair, depending on the levels of homology between the two recombining sequences. COs are generated by the resolution of Holliday junction (HJ) intermediates formed at the terminal stages of HR. Several S.cerevisiae proteins such as Yen1, Mus81, Slx1 and Rad1 have been implicated in HJ resolution. However, the in vivo roles of these proteins in HJ resolution remain to be confirmed. To directly and quantitatively monitor in vivo HJ resolution in S.cerevisiae, a transformation-based HJ resolution assay using a plasmid-borne HJ substrate has been developed. Using this system, we have demonstrated an in vivo HJ resolution function of Yen1, which acts redundantly with Mus81. Moreover, these redundant activities of Yen1 and Mus81 are essential for survival during replication stress, but are dispensable for DSB repair. An Slx4 and Rad1-dependent in vivo HJ resolution activity was also observed in the absence of Yen1 and Mus81 that was suppressed by presence of Slx1. Models describing how the nucleases interact to process HJs in vivo will be discussed.

572.8

Evaluation of a potential vaccine against hyperinvasive serogroup B Neisseria meningitidis by assessment of the effects of surface-expressed Opacity-associated proteins on the immune system

Sadarangani, Manish

January 2011

Neisseria meningitidis causes 500,000 cases of meningitis and septicaemia annually worldwide, with a mortality rate of approximately 10%. Most disease in developed countries is caused by serogroup B infection, against which there is no universal vaccine. Opa proteins are major meningococcal outer membrane proteins, and a limited number of Opa variants have been associated with hyperinvasive serogroup B meningococci, suggesting their use as a potential novel vaccine. Immunisation of mice with recombinant Opa elicited high levels of meningococcal-specific serum bactericidal antibody (SBA), demonstrating proof in principle of this approach. Opa proteins mediate bacterial adherence to host cells and modulate human cellular immunity, and there are conflicting data regarding their effects on CD4⁺ T cells. opa genes from N. meningitidis strain H44/76 were cloned into the plasmid vector pBluescript, disrupted using antibiotic resistance cassettes and transformed into H44/76 to sequentially disrupt the four opa genes. This produced a unique panel of 15 isogenic Opa-deficient strains, including an Opa-negative strain, which enabled investigation of the immunomodulatory role of surface-expressed Opa proteins. There was no consistent effect of Opa expressed on the surface of OMVs and inactivated bacteria on CD4⁺ T cells, with significant heterogeneity of responses between individuals. The rate of Opa phase variation was between 10^-3 and 10^-4, and increased 180-fold following transformation of bacteria with unrelated DNA. These data support further investigation of Opa as a potential meningococcal vaccine component, and highlight the importance of host and bacterial factors in the development of OMV vaccines.

616.8

Odpověď na poškození DNA během vývoje savčích oocytů / DNA damage response in mammalian oocytes

Vachová, Veronika

January 2017

During early embryonic development oocytes are arrested in prophase I of the first meiotic division, in which they can persist for years. After reaching sexual maturity and the luteinizing hormon surge resumption of meiosis and meiotic maturation occur. Oocytes are arrested again at metaphase of the second meiotic division. At this stage they are ovulated and waiting for a fertilisation. Oocytes are during their development exposed to factors that cause DNA damage, of which DNA double-strand breaks (DSBs) are the most serious threat. The maintaining of genome integrity is crucial for quality of oocytes, fertility and proper embryonic development. The mechanism of the oocyte response to DSBs presence is not fully understood and it seems to differ from somatic cells. We assume that DSBs are repaired during meiotic maturation probably by a mechanism of homologous recombination (HR). In this thesis we focuse on essencial recombinase RAD51, which participates in the repair by HR. We found that RAD51 inhibition leads to an increase of segregation errors in anaphase I. Using high resolution live cell imaging we observed chromosomal fragments and anaphase bridges. Immunofluorescence detection of DSBs-marker γH2AX showed increased amount of DSBs in prophase I and MII stage after RAD51 inhibition. Our data...

Influência do gene PTEN na expressão de RAD51 e suas parálogas, RAD51C e RAD51B, em linhagens de glioblastoma multiforme tratadas com etoposídeo / PTEN gene Influence in expression of RAD51 and its Paralogs RAD51C and RAD51B, in Glioblastoma strains treated with Etoposide

Oliveira, Ana Clara

12 May 2016

O Glioblastoma Multiforme (GBM) é o tipo de tumor cerebral maligno com maior incidência na população. A perda do gene PTEN (fosfatase e tensina homóloga) é uma alteração comum associada ao GBM (até 60%) e esse gene codifica uma enzima que antagoniza a ação de PI3K, inibindo a fosforilação de AKT e, desse modo, regulando vias de sinalização relativas à sobrevivência celular e proliferação. Mutações em PTEN têm sido associadas à instabilidade genômica e ao aumento no número de quebras de fita dupla, além de serem relacionadas também à redução da expressão de RAD51, a qual é uma proteína-chave da via de reparo por recombinação homóloga (HR). Diante disso, o objetivo deste estudo foi avaliar se o status de PTEN interfere na expressão de RAD51 e proteínas parálogas (RAD51C e RAD51B) e, consequentemente, se PTEN é capaz de influenciar a eficiência de HR. Com o objetivo de induzir a formação de quebras de fita duplas (DSBs) no DNA, as células foram tratadas com a droga antitumoral etoposídeo, que produz quebras no DNA, principalmente duplas (DSBs). Duas linhagens de GBM com status diferentes de PTEN foram utilizadas: T98G (PTEN mutado) e LN18 (PTEN tipo selvagem). As células de GBM foram tratadas com etoposídeo em diferentes experimentos ou ensaios: proliferação celular, quantificação da necrose e apoptose, cinética do ciclo celular, imunofluorescência da proteína ?- H2AX, quantificação dos níveis de expressão de RAD51 e parálogas e o silenciamento de PTEN na linhagem LN18. Os resultados mostraram que a linhagem LN18 foi mais sensível à droga nos tempos iniciais (24 e 72 h) (até 61,2% de redução), em comparação com a T98G (até 12,3% de redução); no tempo mais tardio de análise (120 h), ambas as linhagens sofreram redução acentuadana proliferação. Adicionalmente, a LN18 exibiu maior porcentagem de células apoptóticas e necróticas, em comparação com a linhagem T98G, nos tempos de24, 72 e 120 horas após o tratamento. O ensaio de imunofluorescência revelou maior indução de células positivas para ?-H2AX na linhagem LN18 em relação à T98G (p =<0,001), após tratamento com etoposídeo (50 e 75 ?M). Nessas concentrações, a análise da cinética do ciclo celular mostrou um bloqueio na fase G2 em ambas as linhagens (p<0,01) nos tempos analisados (24, 48 e 72h), mas apenas a linhagem LN18 revelou bloqueio na fase S. A expressão de RAD51, RAD51B e C foi mais elevada em LN18 em comparação com a T98G e U87MG, nas células tratados (75?M) e controles. PTEN foi silenciado (siRNA-PTEN) na linhagem LN18 para verificar se a redução da expressão desse gene reduziria também a expressão de RAD51 e parálogas. Após 72 horas de silenciamento, com 69,9% de inibição de PTEN, a expressão de RAD51 e RAD51C também se mostrou reduzida em relação ao grupo controle. Em conjunto, os resultados obtidos no presente estudo indicam que o status de PTEN é crucial para as vias de sobrevivência, controle do ciclo celular e indução de apoptose nas células de GBM, indicando a relação entre PTEN e RAD51 e parálogas nas células de GBM tratadas com um indutor de quebras no DNA. Adicionalmente, outras ferramentas de estudo são requeridas para investigar as vias moleculares e possíveis interações e complexos proteicos envolvendo a participação de PTEN e RAD51 e suas proteínas parálogas / Glioblastoma multiforme (GBM) is the most common malignant brain tumor. Loss of PTEN (Phosphatase and tensin homolog deleted on chromosome 10) gene is the most frequent alteration associated with GBM and encodes a phosphatase enzyme that antagonizes the PI3K, by inhibiting AKT phosphorylation thereby regulating signaling pathways related to cell survival and proliferation. PTEN deficiency has been associated with genomic instability and increased endogenous DSBs, as well as reduced expression of RAD51, which is a key gene with crucial role in HR. In this study, we aimed to evaluate whether the PTEN status in GBM cell lines can affect RAD51 expression and HR efficiency under conditions of treatment with the antineoplastic drug etoposide, which targets the DNA topoisomerase II enzyme, thus leading to the production of DNA breaks. T98G (PTEN mutated) and LN18 (PTEN wild-type) cells were treated with etoposide, and several assays were carried out: cell proliferation, detection and quantification of necrosis and apoptosis, cell cycle kinetics, immunofluorescence staining, RAD51 (and paralogs) protein expression, and PTEN silencing in LN18 cell line, by using the siRNA method. LN18 cells showed a greater reduction in cell proliferation, compared to T98G after treatments (25, 50, 75 e 100 µM) at 24, 72 and 120h. Both cell lines showed a significant increase (p=<0.001) in cell death induction, but LN18 presented a greater percentage of apoptotic and necrotic cells than T98G (24, 72 and 120h). The induction of DSB was analyzed by immunostaining (with ?-H2AX antibody), and for the concentrations (50 and 75 µM) tested, LN18 showed higher levels of ?-H2AX positive cells than that observed for T98G (p=<0.001). The analysis of cell cycle kinetics performed for cells treated with etoposide (50 and 75 µM) and collected at 24, 48 and 72h, LN18 presented a greater G2-blockage, as compared to T98G; only LN18 showed a blockage at the S-phase. The expression of RAD51, RAD51B and C was higher in LN18 compared to T98G and U87MG cells treated with etoposide (75 µM) and controls. When we silenced PTEN in LN18 linage, to check if PTEN silencing may reduce the expression of RAD51 and its paralogs, we found a 69.9% reduction in PTEN protein expressions, and the expression of RAD51 and RAD51C was also found reduced, compared to the control group. Taken together, the results obtained in this study indicate that the status of PTEN is critical for survival pathways, cell cycle control and induction of apoptosis in GBM cells, confirming the relationship between PTEN and RAD51 and its paralogs in GBM cells treated with an inducer of DNA breaks. These results contribute with relevant information for further studies on molecular pathways underlying the interaction between PTEN and RAD51 and its paralogs

DNA double strand breaks

Glioblastoma

glioblastoma

homologous recombination repair

parálogas de RAD51

PTEN

PTEN

quebras de fita dupla

RAD51

RAD51

RAD51 paralogs

reparo por recombinação homóloga

Geração de linhagens de células CHO transfectadas com vetores para expressão de anticorpos monoclonais humanizados anti-determinantes leucocitários: anti-CD3 e anti-CD18. / Generation of CHO cell lines expressing humanized monoclonal antibodies anti-leukocytary determinants: anti-CD3 and anti-CD18.

Serpieri, Flávia

23 October 2009

O projeto de obtenção de huAcMos (Anticorpos Monoclonais Humanizados) tinha como escopo a humanização de anticorpos murinos com potencial terapêutico, inserção das sequências em vetores de expressão e transfecção em células CHO (do inglês, Chinese Hamster Ovary). A expressão do huAcMo Anti-CD18 resultou em baixos níveis da proteína recombinante e inciamos o processo de expressão de isoformas do huAcMo Anti-CD3. As células foram transfectadas com seqüências codificadoras do fragmento FvFc Anti-CD3 e clonadas pelo equipamento ClonePix FL. O fragmento foi caracterizado e demonstrou uma menor afinidade quando comparada com a molécula murina original. Ulizamos o sistema de recombinação homóloga (CHO Flp-In, Invitrogen) para expressão da molécula inteira do huAcMo Anti-CD3. Os clones foram caracterizados e demonstrou, assim como o fragmento FvFc, uma menor afinidade pelo alvo. As diferenças nas propriedades de ligação são freqüentemente encontradas após processos de humanização; dependendo da função efetora esta diminuição de afinidade não é negativa para a molécula. / The humanized antibodies (huMab) project intent to use murine antibodies with therapeutic potencial to obtain more human sequences with maintened specificity. The sequences were inserted in expression vectors and transfected in CHO (Chinese Hamster Ovary) cells. Anti-CD18 huMab expression results in low levels of recombinant protein and lead us to try the expression of Anti-CD3 isoforms. The cells were transfected for the expression of a FvFc antibody fragment and cloned using ClonePix FL equipment. The fragment characterization demonstrate a lower affinity when compared with the murine molecule. We use the homologous recombination system (CHO Flp-In) for the expression of the whole molecule of huMab Anti-CD3; like the FvFc fragment, the whole molecule demonstrate a lower affinity for the target. The differences in the affinity properties are frequently found after humanization process and depending on the expected efector functions is not negatively characterized.

Amplificação gênica

Anticorpos monoclonais (Humano)

Biotechnology

Biotecnologia

Células CHO

CHO cells

Expressão estável

FvFc

FvFc

Genetic amplification

Homologous recombination

Monoclonal antibodies (Human)

Recombinação homóloga

Stable expression

Estudos sobre vacinologia e evolução do vírus da cinomose canina

Budaszewski, Renata da Fontoura

January 2017

O vírus da cinomose canina (CDV) é um importante patógeno de cães domésticos e carnívoros selvagens. A infecção pelo CDV é relevante a nível mundial e está associada com alta morbidade e mortalidade. Em diversos países a cinomose é considerada controlada pelo uso de vacinas, no entanto, no Brasil ainda é endêmica, principalmente devido ao grande número de animais não domiciliados. Além disso, surtos em cães e várias espécies de animais silvestres ocorrem com frequência, dizimando populações ameaçadas. As vacinas vivas atenuadas são seguras para cães, mas seu uso não é aconselhado em espécies altamente suscetíveis à infecção pelo CDV. Também os relatos de surtos de cinomose em cães supostamente vacinados levantam a hipótese de que as vacinas disponíveis no mercado podem não ser eficientes frente a algumas cepas de campo. Com o objetivo de gerar dados acerca dos mecanismos de evolução do CDV e desenvolver e testar a eficácia de uma vacina bivalente inativada contra o vírus da raiva (RABV) e CDV a presente tese será apresentada na forma de dois artigos científicos. Ainda, um artigo de revisão sobre os modelos animais utilizados para obtenção de informações sobre o vírus do sarampo utilizando a infecção de CDV em furões e cães foi publicada e será apresentada na presente tese. No primeiro artigo, foi analisada a ocorrência de recombinação homóloga em genomas de CDV e detectou-se oito possíveis vírus recombinantes, incluindo um evento de recombinação entre uma cepa de campo e uma cepa vacinal atenuada, sugerindo que o uso de vacinação com vírus vivo atenuado pode influenciar a evolução do CDV. No segundo trabalho, uma vacina recombinante bivalente inativada baseada em RABV expressando as glicoproteínas do envelope do CDV, hemaglutinina e proteína de fusão, mostrou-se eficiente na proteção contra infecção por CDV em furões quando utilizado um protocolo prime/boost. Finalmente, foi publicada uma revisão de literatura sobre os modelos animais utilizados para obtenção de informações sobre a patogênese do vírus do sarampo utilizando a infecção com o vírus da cinomose. / Canine distemper virus (CDV) is an important pathogen of domestic dogs and wild carnivores. CDV infection is globally relevant and it is associated with high morbidity and mortality. In several countries, distemper is considered controlled by vaccination, however, in Brazil it is still endemic, mainly due to the large number of non-domiciliated animals. In addition, outbreaks in dogs and various species of wild animals occur frequently, decimating threatened populations. Live attenuated vaccines are safe for dogs, but their use is not advised in species that are highly susceptible to CDV infection. Also, reports of canine distemper in supposedly vaccinated dogs raise the hypothesis that commercially available vaccines may not be effective against some wild type strains. In order to investigate the mechanisms of CDV evolution and to develop and assess the efficacy of an inactivated bivalent vaccine against rabies virus and CDV, this thesis will be presented in the form of two scientific papers. Furthermore, a review article on the animal models used to gain information on measles virus using CDV infection in ferrets and dogs has been published and will be presented in this thesis. In the first paper, the occurrence of homologous recombination in CDV genomes was analyzed and eight possible recombinant viruses were detected, including a recombination event between a wild type strain and an attenuated vaccine strain, suggesting that the use vaccines based on attenuated live virus may influence CDV evolution. In the second study, an inactivated bivalent recombinant vaccine based on RABV expressing CDV envelope glycoproteins, hemagglutinin and fusion protein, proved to be effective in protecting against CDV infection in ferrets when using a prime/boost protocol. Finally, a literature review was published on the animal models used to obtain information on the pathogenesis of measles virus using infection with canine distemper virus.

Virologia veterinaria

Vírus da cinomose canina

Virus da raiva

Recombinação homóloga

Vacinas

Modelos animais

Canine distemper virus

Homologous recombination

Vaccine

Rabies virus

Animal models

Análises da epidemiologia molecular e evolução de pestivírus

Weber, Matheus Nunes

January 2016

O gênero Pestivirus da família Flaviviridae, compreende vírus de genoma RNA fita simples e polaridade positiva que comumente estão associados a infecções em ruminantes e suídeos. Possui quatro espécies reconhecidas: o vírus da diarreia viral bovina tipo 1 (BVDV-1), o BVDV-2, o vírus da doença da fronteira (BDV) e o vírus da peste suína clássica (CSFV). Além disso, possui possíveis espécies atípicas, sendo o vírus ‘HoBi’-like a mais reconhecida na literatura. Com o objetivo de gerar mais informações acerca da epidemiologia molecular de pestivírus no País e dos mecanismos na evolução de vírus do gênero, o presente trabalho será apresentado sob a forma de seis artigos científicos. Os trabalhos visam a caracterização de pestivírus detectados em bovinos e javalis no Rio Grande do Sul, a identificação de cepas resultantes de provável recombinação homóloga, a análise das variantes virais intrahospedeiro (quasispécies) de animais infectados pelo vírus ‘HoBi’-like, e a comparação da multiplicação in vitro de diferentes cepas de pestivírus em cultivos celulares oriundos de diferentes raças bovinas. No primeiro trabalho, amostras de soro bovino de animais do Rio Grande do Sul foram obtidas junto ao serviço veterinário oficial e submetidas a RT-PCR para detecção de pestivírus seguida de sequenciamento e análise filogenética das amostras positivas, onde 57,6% foram classificadas como BVDV-1 e 42,4% como BVDV-2, sendo constada frequência elevada de BVDV-2 quando comparada a outras regiões no mundo. No segundo trabalho, 40 amostras de javalis cativos obtidas de abatedouro foram testadas utilizando metodologia semelhante a anteriormente mencionada, e foi possível a detecção de uma amostra positiva, que foi classificada como BVDV-2, sendo a primeira evidência molecular do BVDV em javalis na literatura. No terceiro artigo científico, foi pesquisado a ocorrência de recombinação homóloga, utilizando metodologia in silico, em sequências de pestivírus presentes em banco de dados públicos, onde foram descritos novos possíveis eventos de recombinação entre BVDV-1a e BVDV-1b, BVDV-2a e BVDV-2b e CSFV-2.2 com outro genogrupo indefinido. No quarto e quinto trabalhos, animais persistentemente infectados com o vírus ‘HoBi’-like foram gerados experimentalmente e, utilizando RT-PCR seguida de clonagem, sequenciamento e análises in silico, a composição e variações intrahospedeiro das quasispécies virais em circulação foram avaliadas, onde foi possível observar que características individuais do hospedeiro são importantes na seleção de variantes virais e que a nuvem de mutantes aumenta com o passar do tempo, não havando quasispécie dominante. Por fim, no sexto artigo científico, a multiplicação de cepas de BVDV-1a e 1b, BVDV-2a e vírus ‘HoBi’-like foram avaliadas in vitro em células de cultivo primário obtidas de gado europeu, zebuíno e raça mista e comparadas utilizando modelos estatísticos, onde foi possível a observação de ausência de diferenças entre as raças (P=0,88), mas presença de diferença entre indivíduos da mesma raça (P˂0,05). Os resultados aqui apresentados somam informações acerca da epidemiologia molecular, biologia e evolução dos pestivírus, sendo importantes para embasar futuras campanhas de controle e erradicação das doenças causadas por pestivírus. / The genus Pestivirus of the family Flaviviridae, comprises single stranded RNA-viruses that are commonly associated with infections in ruminants and swine. It has four recognized species: bovine viral diarrhea virus 1 (BVDV-1), BVDV-2, border disease virus (BDV) and classical swine fever virus (CSFV). It also has putative atypical species where the ‘HoBi’-like virus is the most highlighted in the literature. In order to generate more information about molecular epidemiology of pestiviruses and important mechanisms in the evolution of the virus genus, this work will be presented in six scientific articles form. The works aimed in the characterization of pestivirus detected in cattle and wild boar in Rio Grande do Sul state, identification of strains resulting from putative homologous recombination, analysis of intrahost viral variants (quasispecies) of animals infected with ‘HoBi’-like viruses, and the comparison of in vitro growth of different pestivirus strains in cell cultures derived from different cattle breeds. In the first study, bovine serum samples of cattle from Rio Grande do Sul state were collected by the official veterinary service and submitted to RT-PCR for detection of pestivirus followed by DNA sequencing and phylogenetic analysis of the positive samples, where 57.6% were classified as BVDV-1 and 42.4% as BVDV-2, which revealed high frequency of BVDV- 2 when compared to other regions worldwide. In the second work, 40 captive wild boar lung samples obtained from slaughterhouse were tested using similar methodology described above, and one sample resulted positive and was classified as BVDV-2, which represented the first molecular evidence of BVDV in wild boars. In the third scientific article, the occurrence of homologous recombination was investigated using in silico methods applied to sequences available in public databases, which are described putative new events between BVDV-1a and BVDV-1b, BVDV-2a and 2b and CSFV-2.2 and undetermined genogroup. In the fourth and fifth studies, animals persistently infected with the ‘HoBi’-like viruses were experimentally generated and using RT-PCR followed by cloning, sequencing and in silico analysis, the composition and intrahost variations of viral quasispecies in circulation were evaluated, where it was observed that individual characteristics of the host are important in the selection of viral variants and the mutant clouds increased overtime. Finally, in the sixth scientific article, the growth of BVDV-1a and 1b, and BVDV-2b, ‘HoBi’-like virus strains were evaluated in vitro using primary cell cultures obtained by taurine, indicine and mixed breed cattle using statistical models, it was possible to observe the absence of differences between cattle breeds (P=0.88), but presence of difference between individuals within the breed (P˂0.05). The results presented herein add information about the molecular epidemiology, biology and evolution of pestiviruses, being important to support future control and eradication programs of diseases caused by pestiviruses.

Pestivirus : Bvdv

Epidemiologia molecular

Recombinação homóloga

Virologia veterinaria : Bovinos

Infeccoes virais : Suinos

Infeccoes virais : Ruminantes

Pestivirus

Homologous recombination

Quasispecies

BVDV

‘HoBi’-like

Homologous recombination protects against mitotic defects and unbalanced chromosome segregation caused by spontaneous replication stress / Recombinaison homologue protège contre les défauts de la mitose et la ségrégation des chromosomes déséquilibre causé par le stress de réplication spontanée

Wilhelm, Therese

21 January 2011

Les cellules déficientes pour la recombinaison homologue (RH) présentent un ralentissement des fourches de réplication, un nombre aberrant de centrosomes et une aneuploïdie même en absence de stress exogène (Bertrand P 2003, Daboussi F 2005, 2008, Deng 1999, 2002, Griffin 2000, Kraakman-van der Zwet 2002). De plus, la fréquence des mitoses présentant des chromosomes surnuméraires est plus élevée dans ces cellules.L’ensemble des ces résultats suggéraient que le ralentissement des fourches de réplication dans les cellules déficientes pour la RH pourrait avoir un impact direct sur la formation de centrosomes surnuméraires. De plus, nous voulions savoir si cela pouvait également influencer la ségrégation des chromosomes au cours de la mitose. Les résultats que nous avons obtenus sont rassemblés dans l’article intitulé : “Homologous Recombination protects against mitotic defects and unbalanced chromosome segregation caused by spontaneous replication stress”.Le traitement des cellules compétentes pour la RH avec 5µM d’hydroxyurée (HU), un inhibiteur de l’enzyme de synthèse des dNTPs, induit un ralentissement des fourches de réplication parfaitement comparable à celui observé dans les cellules déficientes pour la RH. Après traitement à l’HU des cellules compétentes pour la RH, la fréquence de mitoses présentant des chromosomes surnuméraires augmente et devient similaire à la fréquence de mitoses avec des chromosomes surnuméraires pour les cellules déficientes pour la HR non traitées à l’HU. Nous avons mesuré l’impact de l’HU sur l’apparition des ponts anaphasiques et sur des défauts de ségrégation des chromosomes lors de la mitose. En l’absence de traitement, nous observons une fréquence plus élevée de ponts anaphasiques et de défauts de ségrégation dans des cellules déficientes pour la RH. Des traitements avec 5µM d’HU augmentent la fréquence des ponts anaphasiques et des erreurs de ségrégation dans les cellules compétentes pour la RH, pour atteindre un niveau comparable aux cellules déficientes pour la RH. Ainsi, une altération de la dynamique de réplication consécutive à une déficience de RH ou à un traitment avec de faibles doses d’HU induit des défauts au cours de la mitose. Un lien direct entre une dynamique de réplication anormale et l’apparition d’un nombre aberrant de centrosomes pourrait être la persistance en mitose d’ADN non répliqué ou endommagé.  Comme l’ADN non répliqué ou les fourches bloquées induisent la formation d’ADN simple brin couvert par RPA, nous avons compté le nombre de cellules en G2/M présentant des foyers de RPA, et observé que la fraction de cellules ayant plus de 5 foyers de RPA augmente dans des cellules déficientes pour Brca2. En conclusion, nous proposons un lien direct entre des altérations de la cinétique de réplication, l’apparition de centrosomes surnuméraires et des défauts de ségrégation des chromosomes en mitose dans les cellules déficientes pour la RH même non soumises à un stress exogène. L’utilisation de faibles doses d’HU dans des cellules compétentes pour la RH mime les phénotypes observés dans les cellules déficientes pour la RH et confirme notre modèle.Nous avons également cherché à comprendre les causes du ralentissement des fourches de réplication observé dans les cellules déficientes pour la RH. Il est ainsi possible que les arrêts de fourches spontanés soient une conséquence d’un stress oxydatif endogène. Dans les cellules compétentes pour la RH, le redémarrage des fourches bloquées est possible et assure une progression normale de la réplication de l’ADN. Ceci favorise une ségrégation équilibrée des chromosomes, le maintien de la diploïdie et la stabilité du génome. Dans des cellules déficientes pour la RH, les blocages de fourches devraient être délétères puisque les principaux mécanismes de redémarrage des fourches ne sont pas fonctionnels. De plus, l’arrêt prolongé des fourches ainsi que les cassures double brin générées par l’effondrement des fourches devraient activer des voies de signalisation. Nous avons néanmoins observé que les cellules ne sont pas bloquées dans le cycle cellulaire, ce qui suggère qu’un seuil supérieur de dommages doive être atteint pour induire l’arrêt du cycle. Les stress endogènes ne semblent donc pas suffisamment élevés pour atteindre ce seuil : même si l’ensemble des fourches parcourant le génome sont ralenties, l’activation d’origines cryptiques permet de compenser et ainsi de maintenir la progression dans le cycle. Mais puisque les cellules ne sont pas arrêtées dans le cycle, des fourches bloquées, de l’ADN endommagé ou non répliqué pourraient persister jusqu’à la transition G2/M et in fine perturber le déroulement de la mitose. Des centrosomes multipolaires provoquent la formation de fuseaux multipolaires et favorisent la ségrégation déséquilibrée des chromosomes, entraînant l’aneuploïdie, la déstabilisation du génome et le développement de cancers. / HR deficient cells show slow replication kinetics, aberrant centrosome number and aneuploidy even in the absence of any exogenous stress (Bertrand P 2003, Daboussi F 2005, 2008, Deng 1999, 2002, Griffin 2000, Kraakman-van der Zwet 2002). Frequency of mitosis with extra centrosomes is elevated and replication kinetics decreased in HR deficient compared to HR proficient cells, in the absence of exogenous stress. Thus the question arose, if replication slowing down in HR deficient cells has direct impact on the appearance of supernumerary centrosomes. Furthermore we wanted to know if this might directly impact chromosome segregation. The results we gained are brought together in the paper “Homologous recombination suppression causes spontaneous mitotic alterations through endogenous replication stress”. By treating our HR proficient cells with 5µM HU we found the perfect concentration to mimic replication dynamics of HR deficient cells in an HR proficient background. This concentration was applied to HR proficient cells. After HU treatment the frequency of mitosis with extra centrosomes was elevated in HR proficient cells. Now they showed the same frequency of mitosis with extra centrosomes, than unchallenged HR deficient cells. We measured the impact of HU treatment on occurrence of anaphase bridges or aberrant mitotic segregation. In the absence of treatment higher frequency of anaphase bridges and aberrant mitotic segregation was detected for HR deficient cells. With 5µM HU the frequency of anaphase bridges and aberrant mitosis could be elevated in HR proficient cells. Now they showed aberrant mitotic features with the same frequency than unchallenged HR deficient cells. A direct link between abnormal replication kinetics and aberrant centrosomes might be unreplicated or damaged DNA, that enter mitosis. Unreplicated or blocked DNA might harbour ss DNA bound RPA. Thus we counted G2/M cells with RPA foci. Indeed the fraction of cells that harbour more than 5 RPA foci was elevated in Brca2 deficient in comparison to Brca2 proficient cells. In conclusion we propose a direct link between delayed replication, supernumerary centrosomes and aberrant chromosome segregation in unchallenged HR deficient cells. If we mimicked replication kinetics of HR deficient cells in an HR proficient background, we also mimicked frequency of mitosis with extra centrosome number and aberrant chromosome segregation. Furthermore we investigated the causes of replication slowing down in HR deficient cells. It can be hypothesized that endogenous oxidative stress is implicated in spontaneous fork arrest. In HR proficient cells, reactivation of stalled replication forks and therefore normal replication progression is assured. This favours balanced chromosome segregation, diploidy and genetic stability.In HR deficient cells, replication fork blockage might be detrimental as the main restart mechanism for blocked forks is absent. Prolonged fork blockage or DSB’s arising by fork collapse or resolution of blocked replication forks might activate signalling pathways. However cells are not arrested in cell cycle progression, suggesting that a threshold should be reached to activate cell cycle arrest. Endogenous stress is not sufficient high to reach this threshold. Replication is genome wide slowed down. In this context, the activation of cryptic origins compensates at least partly the slow replication velocity. However, because cells were not arrested in cell cycle progression, some blocked replication forks and damaged or unreplicated DNA regions might persist until G2/M phase and affect centrosome duplication and chromosome segregation. Multipolar centrosomes cause multipolar spindles and favour unbalanced chromosome segregation leading to aneuploidy, genetic instability and cancer development.

RECOMBINAISON HOMOLOGUE

STRESS DE REPLICATION

DEFECTS DE CENTROSOME

DEFECTS DE SEGREGATION DE CHROMOSOME

STRESS OXIDATIVE

HOMOLOGOUS RECOMBINATION

REPLICATION STRESS

CENTROSOME DEFECTS

CHROMOSOME SEGREGATION DEFECTS

OXIDATIVE STRESS