Regulation of DNA replication during meiosis in fission yeast

Hua, Hui

January 2012

The interval between meiotic nuclear divisions can be regarded as a modified mitotic cell cycle where DNA replication is blocked. Mechanisms regulating this critical aspect of meiosis that allows haploid cells to be generated from a diploid progenitor were investigated in this project. Licensing is restricted after meiosis I due to down-regulation of Cdc18 and Cdt1. Late meiotic expression of Cdc18 and Cdt1, which load the MCM helicase onto replication origins, can lead to partial DNA replication after meiosis I. This implies that block to initiation via licensing forms an important component of this regulation. As detecting any minor DNA re-replication after meiosis I requires a technique more sensitive than flow cytometry for detection of total cell DNA contents, I also investigated a procedure to allow incorporation and detection of 5-ethynyl-2'-deoxyuridine (EdU) in fission yeast. Additional inactivation of Spd1 or stabilization of Dfp1 after MI when Cdc18 and Cdt1 are also expressed does not enhance re-replication, but cyclin-dependent kinase Cdc2 plays a role in preventing re-replication during the MI-MII interval. Unexpectedly, when the licensing block is subverted, replication forks only move a short distance in the interval between meiosis I and II, implying that the elongation step of DNA replication is also inefficient. In addition, I show that the regulation of entry into meiosis II is not delayed by a partial round of DNA replication or DNA damage, indicating that replication and DNA damage checkpoints do not operate in late meiosis.

572.8645

Mapování genů ovlivňujících poddruhově specifické funkce meiotického genu Prdm9 / Maping of genes modifying the subspecies-specific roles of the meiotic gene Prdm9

Škaloudová, Eliška

January 2015

The PRDM9 (PR domain containing 9) protein is an epigenetic factor that trimethylates lysine 4 of histone H3 and thereby determines the future meiotic double-strand breaks - sites important for proper segregation of homologous chromosomes. Males of the Mus musculus domesticus (Mmd) origin with homozygous deletion in Prdm9 (Prdm9-/- ) are sterile with a complete arrest in meiotic prophase I, in contrast to the same mutant males of the M. m. musculus (Mmm) subspecies. The aim of this diploma thesis was to identify the genomic loci responsible for the phenotypic difference of these Prdm9-/- males. The major research tool was a population of 182 Mmm x Mmd Prdm9-/- males. The mapping method of quantitative trait loci (QTLs) was based on relating the genotypes of single-nucleotide and microsatellite polymorphisms to the observed phenotypes. At least two QTLs on Chr X were identified. The Mmm alleles of these QTLs reduced fertility of Prdm9-/- males. Both QTLs were confirmed and narrowed down using two types of subconsomic strains. It was not possible to confirm other QTLs, particularly on autosomes. This QTL mapping is the first step towards the identification of genes that modify the resulting phenotype of Prdm9-/- animals. This identification should help designing studies of human infertility that...

La Yemanucléine de Drosophile est nécessaire à la méiose ovocytaire et l’assemblage de la chromatine paternelle dans le zygote / Drosophila Yemanuclein is required for meiosis in the oocyte and paternal chromatin assembly in the zygote

Algazeery, Ahmed

08 April 2013

La reproduction sexuée repose sur deux processus fondamentaux : la méiose qui permet la formation des gamètes dont le génome est haploïde et la syngamie qui permet, après fécondation, de restaurer la diploïdie par fusion des deux noyaux parentaux haploïdes. Alors que la méiose repose respectivement sur le génome maternel pour l'ovocyte et paternel pour le spermatozoïde, la restauration de la diploïdie dans le zygote repose exclusivement sur le génome maternel. Si un pronucleus maternel compétent pour la réplication est formé au terme de la méiose ovocytaire, le génome paternel quant à lui, n'acquiert cette compétence que sous l'influence de facteurs maternels. En effet, à la fin de la méiose, le génome paternel est « empaqueté » avec des protamines qui le rendent inactif pour toute fonction biologique, en particulier la réplication. L'éviction des protamines et leur remplacement par des histones maternelles sont des étapes indispensables à l'acquisition par le génome paternel de sa compétence à la réplication, préalable à la syngamie. Tous ces événements doivent être extrêmement coordonnés afin de permettre à un premier noyau zygotique comportant les deux lots de chromosomes parentaux de se former et d'entrer dans le premier cycle mitotique.Notre laboratoire a identifié yemanuclein-alpha, aussi appelé yemanuclein (yem) dans un crible moléculaire pour des gènes exprimés spécifiquement dans la lignée germinale femelle, et son premier allèle muté yem1. Cette mutation ponctuelle (V478E) a été identifiée dans un crible génétique de « stérilité femelle ». Une descendance exceptionnelle observée chez les femelles yem1, présente la propriété inattendue d'être parthénogénétique. Cette propriété révèle un double défaut chez le mutant : dans le processus de méiose ovocytaire qui conduit à la formation d'un pronucleus maternel haploïde mais aussi dans la formation d'un pronucleus paternel compétent pour la syngamie. Mes travaux de thèse ont porté sur les deux aspects de la fonction de la Yemanucléine. En conjuguant des méthodes de génétique, de biochimie, et de biologie cellulaire, nous avons pu mettre en évidence des fonctions essentielles de la Yemanucléine dans les étapes initiales de la prophase méiotique de l'ovocyte de drosophile. Nous avons pu montrer que la Yemanucléine joue un rôle clé dans la recombinaison méiotique et plus particulièrement dans la fréquence et la cinétique d'apparition des cassures double brin. Son association au complexe synaptonémal et au complexe cohésine, tous deux connus comme étant nécessaires à la ségrégation chromosomique, est un élément clé de cette fonction.Outre cette fonction méiotique, la Yemanucléine, facteur maternel, est aussi requise pour l'assemblage de la chromatine du pronucleus paternel. Nous montrons dans ce manuscrit qu'elle joue ce rôle à travers son action dans un troisième complexe, en partenariat avec la protéine HIRA. Le complexe multiprotéique contenant la protéine HIRA est connu pour sa fonction de chaperon du variant de l'histone H3.3 et son rôle dans l'assemblage de la chromatine du pronucleus paternel. La Yemanucléine est le premier membre de la famille HPC2/UBN1 caractérisé. Son rôle dans l'assemblage des nucléosomes découplé de la réplication est décrit pour la première fois dans ce manuscrit. C'est aussi la première fois qu'une protéine spécifique de la reproduction est décrite pour son implication à deux étapes clés de ce processus. / Sexual reproduction relies on two key events: formation of cells with a haploid genome through meiosis and restoration of diploidy through syngamy in the zygote. Meiosis completion is supported exclusively by the maternal genome for the oocyte and the paternal genome for the sperm cell. In contrast diploidy restoration in the zygote is entirely dependent on maternal factors. At the end of meiosis the maternal pronucleus is competent for replication, whereas the paternal genome is packed with protamines. These proteins need to be removed in the zygote and replaced by maternally provided histones before the paternal genome acquires competence for replication, a prerequisite for syngamy. All these events must be highly coordinated to allow the first zygotic nucleus to form with the two sets of parental chromosomes and enter the first mitotic cycle. Our laboratory has identified yemanuclein-alpha, also called yemanuclein (yem) in a molecular screen for genes specifically expressed in the female germ line and its first mutant allele yem1, in a female sterile screen. The role played by yem not only in the meiotic process through which a haploid maternal pronucleus is formed but also in the zygotic process that makes a paternal pronucleus competent for syngamy, is underscored by the obtention of exceptional parthenogenetic progeny from yem1 mothers.My thesis work is precisely dedicated to the analysis of both aspects of Yemanuclein function: in the oocyte and the zygote. Using genetic, biochemical and cell biology methods we were able to uncover essential functions of Yemanuclein in early meiotic prophase in the Drosophila oocyte. Using yem1 allele (V478E), we could show its requirement for meiotic recombination especially for the frequency and timing of the double strand breaks formation. Yemanuclein association with two protein complexes, the Synaptonemal Complex (SC) and the Cohesin complex known to be required for proper chromosome segregation, supports these findings. Beyond its meiotic function, Yemanuclein is also required in the zygote for assembly of paternal pronucleus chromatin. This is achieved through a third complex that acts as histone H3.3 chaperone. In the present manuscript we identify Yemanuclein as a partner of HIRA in its role in H3.3 nucleosome assembly and deposition on the paternal pronucleus. Interestingly Yemanuclein is the first member of the HPC2/UBN1 protein family ever characterized. The role of Yem/ HPC2/ UBN1 in replication independent chromatin remodeling remained elusive until very recently. Our work is original in that it is the first to report on a role of one member of this family in oocyte meiosis and paternal chromatin assembly in the zygote.

Ovocyte

Méiose

Recombinaison

Zygote

Histone H3.3

Hira

Oocyte

Meiosis

Recombination

Zygote

Histone H3.3

Hira

Evoluce vybraných karyotypových znaků u tetrapulmonátních pavoukovců / Evolution of selected karyotype characters in tetrapulmonate arachnids

Jílková, Klára

January 2013

The class Arachnida is not thoroughly explored from the cytogenetic point of view. Previous studies suggest a high diversity of karyotypes and sex determination in arachnids. This study deals with the evolution of sex chomosomes, nucleolar organizer regions (NOR), and telomeric repeats in the tetrapulmonate clade of arachnids, particularly in groups of ancient origin. Sex chromosomes were detected in two orders. Detection of NORs in a large set of species supports the hypothesis that the ancestral karyotype of arachnids contained NOR on one pair of autosomes only. The number of NORs has increased during the evolution of some groups of Pedipalpi. The NORs are located in terminal or subterminal chromosomal regions in most tetrapulmonates. The occurrence of the "insect" telomeric motif was confirmed in majority of tetrapulmonates. Interstitital telomeric repeats were not detected with the exception of one species. Keywords: arachnids, meiosis, sex chromosomes, telomeres, nucleolar organizer, heterochromatin

A melatonina na maturação in vitro de oócitos bovinos / The melatonin on in vitro maturation of bovine oocytes

Cunha, Maria Carolina Rodrigues Valerino da

04 April 2014

Apesar do grande volume de pesquisas e dos avanços da produção in vitro (PIV) de embriões bovinos, a eficiência da técnica ainda está distante do desejável, principalmente quando comparada a embriões produzidos in vivo. A maturação in vitro é etapa importante da PIV, visto que a qualidade dos embriões é dependente da qualidade do oócito e, assim, modificações nas condições de maturação in vitro podem trazer avanços à produção de embriões. A melatonina é um hormônio que foi detectado no fluido folicular de humanos, suínos e, mais recentemente, de bovinos. Ainda, seus receptores foram localizados em oócitos e células da granulosa. Estudos in vitro apontam efeitos benéficos de sua utilização na maturação e cultivo in vitro de oócitos e embriões, embora os resultados sejam por vezes contraditórios. O presente trabalho teve por objetivo avaliar o efeito da melatonina na maturação in vitro (MIV) de oócitos bovinos e também seu potencial como indutor de genes de enzimas antioxidantes e inibidor de fragmentação nuclear em células do cumulus. Para tanto, complexos cumulus-oócitos (CCOs), obtidos de ovários de abatedouro, foram maturados in vitro na presença de melatonina (10-9 e 10-6 M), FSH (controle positivo) ou sem hormônios (controle negativo). As taxas de maturação nuclear foram avaliadas às 6, 12, 18 e 24 horas de cultivo (Experimento 1). No Experimento 2, os mesmos grupos experimentais foram avaliados quanto à abundância relativa de transcritos de genes de enzimas antioxidantes (Cu,ZnSOD, MnSOD e GPx) em oócitos e células do cumulus (24 horas de MIV) por PCR em tempo real. No Experimento 3 foi avaliado o efeito dos tratamentos sobre a fragmentação nuclear em células do cumulus pela técnica de TUNEL e citometria de fluxo (24 horas de MIV). A taxa de maturação avaliada às 6 h de MIV foi de 100% de oócitos imaturos em vesícula germinativa (VG) (P>0,05). Às 12 horas de cultivo foi observado o efeito da melatonina similar ao FSH, variando a proporção de oócitos em metáfase I (MI) de 54,0 a 80,7 % entre os grupos (P<0,05). Após 18 h de MIV observou-se que a maioria dos oócitos já havia atingindo o estádio de metáfase II (MII) variando de 57,2 a 74,2 % (P>0,05). Após 24 h de MIV, observou-se que a maioria dos oócitos atingiu o estádio de MII (50,7 a 89,5%), sendo que a melatonina na maior concentração apresentou efeito similar ao da gonadotrofina (P<0,05). Em relação à expressão de enzimas antioxidantes em oócitos não houve efeito de nenhum tratamento (P>0,05%). Já em células do cumulus houve maior expressão do MnSOD no grupo com FSH em relação ao grupo maturado sem hormônios ou imaturo (P<0,05). A melatonina nas diferentes concentrações apresentou efeito similar ao da gonadotrofina (P>0,05). Transcritos para a enzima Cu,ZnSOD foram mais abundantes em cumulus de CCOs maturados com a maior concentração de melatonina (10-6 M) em relação ao grupo imaturo (P<0,05), não havendo variação nos demais (P>0,05). GPX4 não foi afetado pelos tratamentos (P>0,05). A quantidade de células do cumulus com fragmentação nuclear não foi afetada por nenhum tratamento (33,4 a 41,5/10.000 células; P>0,05) Com base nestes resultados conclui-se que a melatonina nas concentrações avaliadas (10-9 e 10-6 M), embora seja capaz de estimular a maturação nuclear e induzir a expressão de alguns genes antioxidantes em células do bovinas, ainda que de forma semelhante ao FSH, não provocou redução da fragmentação nuclear nestas células. / Nevertheless the great volume of research and the advances in in vitro production (IVP) of bovine embryos, the efficiency of this techinque is still beyond the desireable, specially when compared to embryos produced in vivo. in vitro maturation (IVM) is an important step in IVP, since the quality of embryos is dependent on the quality of oocytes, and, therefore, modifications to in vitro maturation conditions can bring improvements to embryo production. Melatonin is a hormone which has been detected in the folicular fluid of humans, pigs, and more recently, in bovine. Also, its receptores have been identified in oocytes and granulosa cells. Studies in vitro have shown that melatonin may have beneficial effects when used in oocyte maturation and embryo culture, although results are sometimes contradictory. The aim of the present work was to assess the effect of melatonin during IVM on nuclear maturation of bovine oocytes as well as its potential to induce expression of antioxidant enzymes and to reduce nuclear fragmentation in cumulus cells. Cumulus-oocyte comprexes (COCs), obtained from abbattoir ovaries, were matured in vitro in the presence of melatonin (10-9 e 10-6 M), FSH (positive controle) or without hormones (negative control). Maturation rates were evaluated at 6, 12, 18 and 24 h (Experiment 1). In Experiment 2, the same groups were evaluated for the relative abundance of transcripts encoding antioxidant enzymes (Cu,ZnSOD, MnSOD and GPx) in oocytes and cumulus cells (24 h IVM) by real time PCR. In Experiment 3, the effect of treatments on nuclear fragmentation in cumulus cells was determined by TUNEL and flow cytometry (24 h IVM). At 6 h IVM, all oocytes were at immature germinal vesicle (GV) stage. After 12 h of cuture the effect of melatonin was similar to that of FSH, with proportions of oocytes in metaphase I (MI) varying from 54.0 to 80.7% between groups (P>0.05). After 18 h IVM most oocytes had reached metaphase II (MII) stage (57.2 to 74.2%, P>0.05). At 24 h IVM, oocytes were also mostly in MII stage (50.7 to 89.5%), and the highest melatonin concentration was similar to the gonadotrophin (P>0.05). Regarding expression of antioxidant enzymes in oocytes there was no effect of treatments for any of the genes (P>0.05). However, in cumulus cells MnSOD expression was higher in FSH compared with the groups matured without hormones or immature cells (P<0.05). Melatonin in both concentrations were similar to FSH (P>0.05). Transcripts for Cu,ZnSOD were more abundant in cumulus from COCs matured with the highest melatonin concentration (10-6 M) in relation to immature cells (P<0.05), but was not diferent from other groups (P>0.05). GPx was not affected by treatments (P>0.05). The number of nuclear fragmentation in cumulus cells was also not affected by treatments (33.4 to 41.5/10,000 cells; P>0.05). According to these results it is concluded that melatonin is able to induce meiosis resumption in oocytes (10-9 and 10-6 M) and expression of some antioxidant genes in bovine cumulus cells, similar to the effect of FSH, but was ineffective in reducing nuclear fragmentation in these cells.

Antioxidantes

Antioxidants

Fragmentação nuclear

FSH

FSH

Meiose

Meiosis

Nuclear fragmentation

PCR

PCR

Análise do fator transcricional de meiose grauzone em Culex quinquefasciatus infectado por Wolbachia / Analysis of the transcriptional factor of meiosis grauzone in Culex quinquefasciatus infected by Wolbachia

Pereira, Stella Noguera

10 November 2017

Wolbachia pipientis é uma alfa-protobactéria intracelular obrigatória, endossimbionte de artrópodes e nematódeos que é herdada por via materna ao longo das gerações. A presença desta bactéria nos tecidos germinativos pode provocar nos hospedeiros alterações fenotípicas reprodutivas, como partenogênese, feminização genética de machos, morte de machos, incompatibilidade citoplasmática (IC) e alterações de fitness. Alguns mecanismos moleculares dessas alterações baseiam-se na modulação da expressão gênica do hospedeiro, ou seja, a bactéria pode suprimir ou estimular genes de forma a produzir ambiência favorável à manutenção da endossimbiose. Devido a esse potencial manipulador, Wolbachia tem sido testada como \"ferramenta\" para controle populacional de insetos vetores de patógenos. O mosquito Culex quinquefasciatus, naturalmente infectado por Wolbachia na região Neotropical, é um importante vetor de diversos patógenos que atingem humanos e animais. A presença da bactéria causa IC e altera o fitness no mosquito, mediante alterações temporais na ovogênese, fecundidade e fertilidade reprodutivas. Sabe-se que a presença da Wolbachia altera a expressão do gene grauzone e há fortes indícios de que esta expressão diferencial induza à IC em Cx. quinquefasciatus. Sabe-se também que este gene possui duas cópias parálogas em Cx. quinquefasciatus, porém estudos observaram a relevância de apenas um parálogo como importante regulador dos ciclos celulares da ovogênese e espermatogênese. No entanto, as bases genéticas dos fenótipos IC e \"fitness alterado\" do modelo Wolbachia-Cx. quinquefasciatus Neotropical ainda permanecem desconhecidas. Objetivamos inicialmente neste modelo quantificar e silenciar a expressão do gene grauzone (ambos parálogos) para suportar a hipótese pré-existente de que a superexpressão deste gene em mosquitos infectados por Wolbachia causa as alterações fenotípicas reprodutivas. Durante o desenvolvimento do projeto houve intercorrências que alteraram o rumo do trabalho: a necessidade de substituição da colônia experimental de mosquitos devido a baixas demográficas e à alta variabilidade intraespecífica do gene grauzone. Frente às intercorrências, formulamos como neo-objetivo a comparação filogenética entre as variantes do gene grauzone. Detectamos também variabilidade em um dos parálogos e concluímos que as cópias parálogas do gene encerram proteínas estruturalmente distintas e talvez funcionalmente distintas no tocante à alteração reprodutiva (IC) causada pela presença da Wolbachia. Foi possível observar que fêmeas infectadas apresentam amplificações de grauzone mais intensas quando comparadas com fêmeas não-infectadas no 4° dia de emergência, corroborando dados da literatura. Em conjunto, esses achados indicam que é promissora a continuidade do estudo do papel de grauzone na IC, mas demonstra também que este gene é mais complexo do que se imaginava, o que demandará maior esforço investigativo. A expectativa de uso futuro de Wolbachia como controlador biológico de mosquitos-vetores poderá se beneficiar de estudos como aqui proposto. / Wolbachia pipientis is an obligate intracellular alpha-protobacterium, endosymbiont of arthropods and nematodes, which is inherited through maternal route over generations. The presence of this bacterium in germinative tissues can cause reproductive phenotypic alterations in the hosts, such as parthenogenesis, genetic feminization of males, death of males, cytoplasmic incompatibility (CI) and fitness changes. Some molecular mechanisms of these alterations are based on the modulation of gene expression of the host, that is, the bacterium can suppress or stimulate genes in order to produce favorable environment for the maintenance of the endosymbiosis. Due to this potential manipulator, Wolbachia has been tested as a \"tool\" for population control of pathogen vector insects. The mosquito Culex quinquefasciatus, naturally infected by Wolbachia in the Neotropical region, is an important vector of several pathogens that affect humans and animals. The presence of the bacteria causes CI and changes the fitness in the mosquito, through temporal changes in ovogenesis, reproductive fertility and fertility. The presence of Wolbachia is known to alter the expression of the grauzone gene and there are strong indications that this differential expression induces the CI in Cx. quinquefasciatus. It is known that this gene occurs with two paralogs copies in Cx. quinquefasciatus, but studies have observed the relevance of only one paralog as important regulator of oogenesis and spermatogenesis cell cycles. However, the genetic basis of the phenotypes \"changed fitness\" and CI of Wolbachia-Cx quinquefasciatus Neotropical model remain unknown. We initially aimed at quantifying and knockdown of grauzone gene (both paralogs) to support the preexisting hypothesis that overexpression of this gene in Wolbachia-infected mosquitoes causes reproductive phenotypic changes. During the development of the project there were intercurrences that altered the course of work: the need to replace mosquito populations due to demographic lows and the high intraspecific variability of grauzone gene. In view of the intercurrences we formulated the neo-objective phylogenetic comparison between the variants of the grauzone gene. We also detected variability in one of the paralogs and concluded that the paralogs copies of the gene contain structurally distinct and perhaps functionally distinct proteins with respect to the reproductive alteration (CI) caused by the presence of Wolbachia. It was possible to observe that infected females show more intense grauzone amplifications when compared to uninfected females on the 4th day of emergence, corroborating data from the literature. Taken together, these findings indicate that the continuity of the study of the role of grauzone in CI is promising, but also demonstrates that this gene is more complex than previously thought, which will require more investigative effort. The expectation of future use of Wolbachia as a biological control of mosquito-vectors may benefit from studies as proposed here.

Cell cycle

Ciclo celular

Culicidae

Culicidae

Development genetics

Genética do desenvolvimento

Genética molecular

Meiose

Meiosis

Molecular genetics

O óxido nítrico e os nucleotídeos cíclicos em oócitos bovinos maturados in vitro / Nitric oxide and cyclic nucleotides in bovine oocytes matured in vitro

Schwarz, Kátia Regina Lancellotti

30 September 2011

O óxido nítrico (NO) é um mensageiro químico gerado pela atividade da enzima óxido nítrico sintase (NOS) a qual foi detectada em vários órgãos incluído o sistema reprodutor. O sistema NOS/NO parece desempenhar papel importante na maturação oocitária entre outras funções. No entanto, apesar das evidências, há poucos estudos sobre o papel desse sistema em oócitos da espécie bovina. Sabe-se que o NO atua pela via da guanilato ciclase (GC) estimulando a produção do nucleotídeo GMPc, que por sua vez é capaz de influenciar os níveis de outro nucleotídeo, o AMPc, que é um importante elemento da via de sinalização das gonadotrofinas nos oócitos e no controle da maturação oocitária. O objetivo do presente estudo foi de investigar o envolvimento da via do GMPc na ação do sistema NOS/NO na maturação in vitro (MIV) de oócitos bovinos e seu efeito sobre a via do AMPc. Com a maior concentração estudada do doador de NO (10-7M de SNAP), apenas 36% dos oócitos conseguiram alcançar o estágio de RVG (P< 0,05), após 9 horas de maturação. Esse atraso também foi observado com diferentes concentrações do estimulador de GC (5, 10 ou 50&mu;M de Proptoporfirina IX) e pelo análogo de GMPc (1, 2 e 4mM de 8-Br-GMPc ), que apresentaram uma taxa média de RVG de 50% para os tratamentos e 70% para os grupos controles sem as drogas (P<0,05). No início da maturação (0h), os níveis de GMPc foram de 5,29 pmol/oócito sofrendo uma queda logo na primeira hora de cultivo para 2,97 pmol nos oócitos do grupo controle e 1,54 pmol nos cultivados com associação de 10-7M de SNAP (doador de NO) e 100&mu;M de OQD (inibidor de GC (P<0,05). No grupo de oócitos cultivados apenas com SNAP, os níveis de GMPc se mantiveram em 4,51 pmol/oócito, semelhante ao grupo imaturo (0h de cultivo, P>0,05). O doador de NO manteve estável o nível de GMPc somente na primeira hora de maturação. Após 3 e 6 h de MIV, os níveis de GMPc permaneceram baixos e similares (0,07 a 2,46 pmol/oócito, P>0,05) nos grupos controle (sem drogas), tratado com doador de NO (10-7M de SNAP) associado ou não ao inibidor de guanilato ciclase (100&mu;M de OQD). Também foi observada uma queda nos níveis de AMPc em relação ao grupo imaturo (32,42 fmol de AMPc/oócito) para os demais grupos (P<0,05), que apresentaram aproximadamente, 12,0 a 16,0 fmol de AMPc/oócito durante a primeira hora, 3,3 a 8,0 fmol/oócito durante a terceira hora e 7,4 a 18,3 durante a sexta hora de maturação (P>0,05). O NO afetou os níveis de GMPc no início da maturação, mas não os níveis de AMPc. O NO e o GMPc podem atuar no controle da expressão gênica de uma série de proteínas envolvidas no controles dos níveis de AMPc e GMPc ou suas funções. Esse controle pode ser efeito direto do NO (PKG2, PDE3A, PDE4D e PDE8A), do GMPc (ADCY6) ou do NO via GMPc (PKA1) e varia com o compartimento considerado (oócito ou células do cumulus). Esses resultados demonstraram a inter-relação das vias NO/GMPc/AMPc e toda a sua complexidade dependendo do tipo celular e da fase da maturação de oócitos bovinos. / The NOS/NO system seems to play an important role in oocyte maturation besides other functions. However, despite the evidence, there are few studies on the possible role of this system in bovine oocytes. It is known that NO acts via guanylate cyclase (GC) by stimulating the production of the nucleotide cGMP, which in turn can influence the levels of another nucleotide, cAMP, which is an important element of the signaling pathway of gonadotropins in oocytes and in the control of oocyte maturation. The aim of the present study was to investigate the involvement of the cGMP pathway in the action of the NOS/NO system on the in vitro maturation (IVM) of bovine oocytes and its effect on the cAMP pathway. The highest studied concentration of the NO donor (10-7M SNAP), only 36% of oocytes were able to undergo GVBD (P<0.05) after 9 hours of maturation. This delay was also observed with different concentrations of the GC stimulator (5, 10 or 50&mu;M Proptoporfirin IX) and the cGMP analogue (1, 2 and 4 mM 8-Br-cGMP), which had an average of 50% GVBD for treatment groups and 70% for control groups without drugs (P<0.05). At the beginning of maturation (0 h) cGMP levels were 5.29 pmol/oocyte and decreased within the first hour of culture to 2.97 pmol and 1.54 pmol in the control group and in oocytes cultured in 10-7M SNAP (NO donor) associated with 100&mu;M OQD (GC inhibitor; P<0.05). In the group of oocytes cultured only with SNAP, cGMP levels remained at 4.51 pmol/oocyte similar to the immature group (0 h culture, P> 0.05). The increase of NO maintained cGMP levels stable only during the first hours of maturation. After 3 and 6 h IVM, cGMP levels remained low and similar (0.01 to 2.5 pmol/ ocyte, P>0.05) in control (without drugs), treated with NO donor (SNAP 10-7M) with or without the guanylate cyclase inhibitor (100&mu;M OQD). A decrease in cAMP levels was also observed when compared with the immature group (32.42 fmol cAMP/oocyte) for the other groups (P <0.05), which showed 12.0 to 16.0 fmol cAMP/oocyte after the first hour, 3.3 to 8.0 fmol/oocyte after the third hour and 7.4 to 18.3 after the sixth hour of IVM (P>0.05). NO and cGMP may act to control gene expression in a series of proteins involved in control of the levels of cAMP and cGMP or their functions. The control may be a direct effect of NO (PKG2, PDE3, PDE4D and PDE8A), cGMP (ADCY6) or NO via cGMP (PKA1) and varies with the compartment considered (oocyte or cumulus cells). The results showed the interrelationship of the NO/cGMP/cAMP pathway and all its complexity depending on the cell type and the stage of maturation in bovine oocytes.

In vitro maturation

Bovine oocyte

Maturação in vitro

Meiose

Meiosis

Nitric oxide

Oócito bovino

Óxido nítrico

Investigating the expression and function of DAZL and BOLL during human oogenesis

He, Jing

January 2016

Fetal germ cell development is a key stage of female reproductive life. The DAZ family proteins (DAZ, DAZL and BOLL) are RNA-binding proteins with critical roles in murine germ cell development but their expression and potential targets in the human are largely unknown. The studies in this Thesis investigated the expression and function of DAZL and BOLL in human fetal ovary. Both DAZL and BOLL mRNA are increased dramatically at the time of entry into meiosis. Immunohistochemical analysis with specific meiotic markers suggested that DAZL and BOLL have distinct spatial-temporal expression patterns, with minimal co-expression – BOLL expression was transient prior to follicle formation. This pattern was shown not to be present in the mouse fetal ovary, where Dazl and Boll are co-expressed, indicating a limitation of the mouse for exploring the function of Boll. Two human cell lines, embryonic kidney derived HEK293 cells and germ cell tumour derived TCam-2 cells were used as models to identify the mRNA targets of DAZL and BOLL after transfection of DAZL or BOLL vectors. In HEK293 cells, TEX19 and TEX14 were confirmed as potential targets of both DAZL and BOLL, and CDC25A as a potential DAZL target. Further experiments indicated that DAZL and BOLL did not increase target mRNA transcription but increased stabilisation. A DAZL/GFP co-transfection-FACS system for TCam-2 cells was established as this cell line has very low transfection efficiency. TEX14 and SYCP3 significantly increased in GFP+ve-DAZL+ve cells when compare to the GFP-ve-DAZL-ve cells, whilst SOX17 and DNMT3L significantly decreased in the GFP+ve-DAZL+ve cells. A 3'-UTR luciferase assay confirmed regulation of TEX14 and SOX17 by DAZL through their 3'-UTR. RNA immunoprecipitation further demonstrated direct binding between human TEX14, TEX19, SYCP3, SOX17 mRNA and DAZL protein, and that TEX14 binding is through its 3'-UTR. Dual fluorescence immunohistochemistry showed that SOX17 and DMNT3L are expressed in early germ cells with DAZL, and are later down-regulated co-incident with that of DAZL, consistent with the novel repressive effect of human DAZL on these two potential targets. These studies indicate that DAZL and BOLL are associated with different key meiotic stages of germ cell development in human fetal ovary. Several potential mRNA targets of DAZL and BOLL, and a novel repression function of human DAZL on its mRNA targets were identified giving further insight into the role of these factors in human ovarian development.

612.6

Espermatogênese e comportamento nucleolar em machos de Heteoptera aquáticos /

Castanhole, Márcia Maria Urbanin.

January 2009

Orientador: Mary Massumi Itoyama / Banca: Satiko Nanya / Banca: Maria Aparecida Marin Morales / Resumo: Os aspectos da espermatogênese e do comportamento nucleolar foram analisados em Brachymetra albinerva, Cylindrostethus palmaris, Halobatopsis platensis, Limnogonus aduncus (Gerridae), Martarega sp. (Notonectidae), Rhagovelia whitei e Rhagovelia sp. (Veliidae). Os testículos são arredondados (Veliidae), alongados (Gerridae) ou espiralados (Notonectidae) e apresentam membrana transparente recobrindo-os. O complemento cromossômico encontrado foi de 2n = 23 (22A + X0, L. aduncus e R. sp.); 25 (24A + X0, B. albinerva e H. platensis); 26 (22A + 2m + XY, Martarega sp.); 29 (28A + X0, C. palmaris) ou 39 (38A + X0, R. whitei) cromossomos, sendo que a única espécie com sistema cromossômico do sexo diferente foi M. sp., que apresentou sistema XY, além de ser, também, a única espécie com m-cromossomos. O comportamento meiótico de todas as espécies foi semelhante, isto é, apresentaram: cromossomos holocêntricos, material heteropicnótico na prófase; quiasmas intersticiais e/ou terminais; primeira divisão reducional para os autossomos e o inverso para os cromossomos sexuais. A única diferença observada foi com relação ao tamanho extremamente maior das células de M. sp., em todas as fases da espermatogênese. Com relação ao comportamento nucleolar as espécies não apresentaram diferenças, somente M. sp. que possui nucléolos maiores que as demais espécies. A única espécie na qual foi possível identificar com clareza a região da RON foi L. aduncus, na região terminal de um autossomo. Confirmou-se, também, através da espécie L. aduncus, que as associações teloméricas não ocorrem ao acaso. Nas demais espécies a marcação da RON foi bastante discreta, não sendo possível afirmar com clareza onde ela está localizada. / Abstract: The aspects of spermatogenesis and nucleolar behaviour were analyzed in Brachymetra albinerva, Cylindrostethus palmaris, Halobatopsis platensis, Limnogonus aduncus (Gerridae), Martarega sp. (Notonectidae), Rhagovelia whitei and Rhagovelia sp. (Veliidae). The testicles are rounded (Veliidae), elongated (Gerridae) or spiral (Notonectidae) and have a transparent membrane covering them. The complement chromosome was 2n = 23 (22A + X0, L. aduncus and R. sp.), 25 (24A + X0, B. albinerva and H. platensis), 26 (22A + 2m + XY, Martarega sp.), 29 (28A + X0, C. palmaris) or 39 (38A + X0, R. whitei) chromosomes, and the only specie with different sex chromosome system was M. sp., which presented XY system and m-chromosomes. The meiotic behavior of all species was similar: holocentric chromosomes, heteropicnotic material at prophase; chiasmas interstitial and/or terminal; first reductional division for the autosomes and the reverse for the sex chromosomes. The only difference observed was related to the very largest size of the cells M. sp. in all stages of spermatogenesis. With regard to the nucleolar behavior, the species did not show differences, only M. sp. which has nucleoli larger than the other species. The only species in which it was clearly possible to identify the region of NOR was L. aduncus, in the region of a terminal autosome. It was also confirmed that the telomeric associations do not occur at random. In other species the marking was very discreet, no one can clearly say where NOR is located. / Mestre

Citogenética animal.

Espermatogênese em animais.

Hemiptera.

Aquatic heteroptera. eng

Meiosis. eng

Nucleolar behaviour. eng

Análise da espermatogênese e do comportamento nucleolar em espécies das famílias Alydidae, Coreidae, Pentatomidae e Reduviidae (Heteroptera) /

Murakami, Aline Sumitani.

January 2010

Orientador: Mary Massumi Itoyama / Banca: Ester Tartarotti / Banca: Maria Aparecida Marin Morales / Resumo: Clicar acesso eletrônico abaixo / Abstract: Click electronic access below / Mestre

Citogenética animal.

Espermatogênese em animais.

Hemiptera.

Meiosis. eng

Spermiogenesis. eng

Nucleolar behaviour. eng