Efeitos do arsenito na meiose, no desenvolvimento embrionário pré-implantação e na apoptose embrionária em camundongos / Effects of arsenite on meiosis, preimplantation development, and apoptosis in the mouse

Paula Andrea de Albuquerque Salles Navarro

17 February 2003

O arsênio inorgânico, um contaminante ambiental, produz uma série de respostas de estresse em células de mamíferos, incluindo o comprometimento da função mitocondrial, acompanhado por inibição do crescimento celular e carcinogênese. Como previamente identificamos efeitos deletérios do comprometimento da função mitocondrial e dos radicais livres do oxigênio na oogênese, investigamos os efeitos do arsenito na meiose, no desenvolvimento embrionário pré-implantação e na apoptose embrionária em camundongos. Camundongas com 6 semanas de idade foram tratadas com baixa (0,16 mg) ou média dose de arsenito (0,32 mg), por meio de 7 injeções intraperitoneais, 1 a cada 2 dias, durante 14 dias. Os controles foram injetados com solvente. A incidência de anomalias meióticas, caracterizadas por anormalidades do fuso celular e/ou mal alinhamento cromossômico, foi significantemente aumentada tanto nos oócitos in vivo ovulados, como nos in vitro maturados, oriundos dos animais tratados com arsenito. Foram detectadas reduções significativas das taxas de clivagem (24 horas de cultivo), de formação de mórula (72 h) e de desenvolvimento para blastocisto (96 h), nos embriões dos grupos tratados com arsenito. Apesar do número total de núcleos não ter diferido significativamente entre os blastocistos dos grupos controle e de tratamento, a percentagem de núcleos apoptóticos foi significantivamente maior nos blastocistos derivados dos animais tratados com a dose média de arsenito. Estes dados sugerem que o arsenito causa aberrações meióticas, que podem contribuir tanto para o comprometimento do desenvolvimento embrionário pré-implantação, como para a apoptose embrionária. / Inorganic arsenic, an environmental contaminant, produces a variety of stress responses in mammalian cells, including mitochondrial uncoupling accompanied by growth inhibition and carcinogenesis. Because previously we identified detrimental effects of mitochondrial uncoupling, and reactive oxygen species (ROS) on oogenesis, we investigated effects of arsenite on meiosis, early embryo development, and apoptosis in mice. Six-week-old CD-1 mice were treated with either low (0.16mg) or medium (0.32mg) doses of arsenite every two days by 7 intraperitoneal injections for 14 days, and controls were injected with solvent. The incidence of meiotic anomalies, characterized by spindle disruption and/or chromosomal misalignment or spreading, was significantly increased in both in vivo and in vitro treated oocytes. Further, we found a significant decrease in cleavage rates at 24h, morula formation at 72h, and development to blastocyst at 96h in treated groups. Although the total number of nuclei in developed blastocysts did not significantly differ between the treated and control groups, the percentage of apoptotic nuclei was significantly increased in blastocysts derived from the medium dose treated group. These data suggest that arsenite causes meiotic aberrations, which may contribute to decreased cleavage and preimplantation development, as well as increased apoptosis.

apoptose

arsenito

embrião

meiose

N-acetil-cisteína

apoptosis

arsenite

meiotic abnormalities

preimplantation development

X chromosome drive in Drosophila testacea

Keais, Graeme

01 May 2018

Selfish genes that bias their own transmission during gametogenesis can spread rapidly in populations, even if they contribute negatively to the fitness of their host. Driving X chromosomes provide a clear example of this type of selfish propagation. These chromosomes, which are found in a broad range of taxa including plants, mammals, and insects, can have important evolutionary and ecological consequences. In this thesis, I report a new case of X chromosome drive (X drive) in a widespread woodland fly, Drosophila testacea. I show that males carrying the driving X (SR males) sire 80-100% female offspring, and that the majority of sons produced by SR males are sterile and appear to lack a Y chromosome. This suggests that meiotic defects involving the Y chromosome may underlie X drive in this species. Abnormalities in sperm cysts of SR males reflect that some spermatids are failing to develop properly, confirming that drive is acting during gametogenesis. Further, I show that SR males possess a diagnostic X chromosome haplotype that is perfectly associated with the sex ratio distortion phenotype. Phylogenetic analysis of X-linked sequences from D. testacea and related species strongly suggests that the driving X arose prior to the split of D. testacea and its sister species, D. neotestacea and D. orientacea. Suppressed recombination between the XST and XSR due to inversions on the XSR likely explains their disparate evolutionary histories. By screening wild-caught flies using progeny sex ratios and a diagnostic X-linked marker, I demonstrate that the driving X is present in wild populations at a frequency of ~10% and that autosomal suppressors of drive are segregating in the same population. Both SR males and homozygous females for the driving X have reduced fertility, which helps to explain the persistence of the driving X over evolutionary timescales. The testacea species group appears to be a hotspot for X drive, and D. testacea is a promising model to compare driving X chromosomes in closely related species, some of which may even be younger than the chromosomes themselves. / Graduate / 2019-04-16

Drosophila

Genetic conflict

Meiotic drive

Selfish genetic elements

X chromosome drive

Segregation distortion

Characterisation of the human DNA damage response and replication protein Topoisomerase IIβ Binding Protein 1 (TopBP1)

Reini, K. (Kaarina)

21 November 2006

Abstract Genetic information is stored in the base sequence of DNA. As DNA is often damaged by radiation or reactive chemicals, cells have developed mechanisms to correct the DNA lesions. These mechanisms involve recognition of damage, DNA repair and cell cycle delay until DNA is restored. Failures in the proper processing of DNA lesions may lead to mutations, premature aging, or diseases such as cancer. In this thesis study the human topoisomerase IIβ binding protein 1 (TopBP1) was identified as the homolog of budding yeast Dpb11 and fission yeast Cut5. TopBP1 was found to be necessary for DNA replication and to associate with replicative DNA polymerase ε. TopBP1 localised to the sites of DNA damage and stalled replication forks, which suggests a role in the DNA damage response. TopBP1 interacted with the checkpoint protein Rad9, which is a part of a protein complex whose function includes tethering proteins to sites of DNA damage. This supports a role for TopBP1 in the early steps of checkpoint activation after DNA damage. TopBP1 also interacted with the tumour suppressor protein p53 in a phosphorylation dependent manner. In addition, the data support a role for TopBP1 outside of S-phase. During M-phase, TopBP1 was found to localise to centrosomes along with the tumour suppressor proteins Brca1 and p53. Analysis of the expression of TopBP1 in mouse tissues suggested that TopBP1 may also play a role during meiosis. The localisation pattern of TopBP1 in mouse meiotic spermatocytes resembled that of many proteins functioning during meiotic recombination. For example, co-localisation of ATR kinase and TopBP1 was observed during meiotic prophase I. In accordance with the findings from mouse studies, the analysis of a cut5 mutant during yeast meiosis showed that Cut5 is essential for the meiotic checkpoint. These results strongly suggest that TopBP1 operates in replication and has checkpoint functions during both the mitotic and meiotic cell cycles.

DNA damage response

DNA replication

TopBP1

meiosis

meiotic prophase I

mitosis

Meiotický efekt mutace genu MutS homolog 6 (Msh6) u dvou myších poddruhů / Meiotic effect of MutS homolog 6 (Msh6) mutation in two mouse subspecies

Fusek, Karel

January 2021

To study hybrid sterility our laboratory uses mouse strains PWD/Ph (PWD), derived from Mus musculus musculus wild mice and the common laboratory strain C57BL/6J (B6) mostly of Mus musculus domesticus origin as a model. Crossing between PWD female and B6 male results in sterile male progeny. F1 hybrid males carry defects in the repair mechanisms of asymmetric double-strand DNA breaks (DSBs). Functional interplay of SPO11 and PRDM9 proteins in the meiotic prophase I is necessary for repairs. Its defect leads to incorrect synapse formation between homologous chromosomes, leading to halt in spermatogenesis and thus male sterility. The formation of DSBs and their subsequent repair is essential for first meiotic division. The working hypothesis stems from the findings in yeast model, where supposed antirecombinatorial mechanism of mismatch repair genes Msh6 and Msh2 prevents DSBs repairs during meiosis. Despite the functional mechanism of these two genes is not explicitly known, existence of similar repair system in mice is presumed. Variety of methods was implemented in this thesis. The effects of Msh6 deletion on meiotic prophase I and sperm maturation were performed by designing guide RNAs for CRISPR/Cas9 for creation of three knock-outs in B6 mice. The PCR was used to amplify regions adjacent to the...

Role a regulace jaderné membrány během meiotického zrání savčího oocytu / Role and regulation of nuclear membrane during meiotic maturation of mammalian oocyte

Končická, Markéta

January 2019

Meiotic division of a female germ cell, an oocyte, is more prone to segregation errors and consequently to aneuploidies than meiosis of a sperm. Aneuploidies and chromosomal aberrations in oocytes increase with higher maternal age in humans and also in mice. Meiotic maturation onset is connected with activity of cyclin dependent kinase 1 (CDK1) that leads to dissociation of nuclear membrane. Moreover regulation of translation of key transcripts is necessary for proper meiotic progression. In thesis findings from four scientific publications are interpreted. We have analyzed the timing of nuclear envelope breakdown (NEBD) and polar body extrusion in mouse oocytes originating from two distinct female age groups: young (2 months old) and aged (12 months old). We found that meiotic maturation happens faster in aged females' oocytes due to early phosphorylation of Lamin A/C, a component of nuclear lamina, and rapid dissociation of nuclear membrane. Moreover aged females' oocytes presented unique characteristic invaginations of nuclear membrane and thus significantly increased circumference of the nuclear envelope compared to the oocytes from young females. These data combined with increased activity of CDK1 and Cyclin B, as well as increased translation of factors that regulate the translation itself,...

Vliv bisfenolu S na vybrané markery meiotického zrání prasečích oocytů / Bisphenol S influence on selected markers of meiotic maturation of porcine oocytes

Černíková, Terezie

January 2020

Bisphenol A is a widely used chemical in the manufacture of plastics. The presence of BPA in the environment adversely affects human health due to contamination of air, drinking water and food. Growing concerns about the effects of BPA have led to its regulation in production and development of alternative chemicals to BPA, such as bisphenol S (BPS). However, the effects of BPS were not properly tested before its introduction to production and the effects on human reproduction are still unknown. For this reason, it is desirable to test the effect of BPS on mammalian oocyte development. This study hypothesizes that BPS exposure causes inhibition of meiotic maturation of porcine oocytes in vitro. This study aims to investigate the potency of BPS at low concentrations corresponding to normal human exposures to selected porcine oocyte proteins. The results of this study demonstrate the negative effect of BPS on the progression of meiotic maturation and reaching the mature oocyte stage. In addition, the results show an increase in the formation of defective meiotic spindles and a disruption of mitochondrial integrity after exposure to BPS concentrations. However, the effect of BPS on double-strand breaks was not demonstrated in this study, in contrast to the case of BPA. Taken together, the results show...

Profiling Methylenetetrahydrofolate Reductase Throughout Mouse Oocyte and Preimplantation Embryo Development

Young, Kyla

29 March 2022

The global DNA methylation pattern is erased and re-established during oogenesis and again in preimplantation (PI) embryo development. Understanding where these methyl groups come from and how the process of methylation is regulated is important, as disruptions could result in detrimental effects. The methionine cycle that produces the cellular methyl pool is linked to the folate cycle. The key enzyme linking theses cycles is Methylenetetrahydrofolate Reductase (MTHFR) which converts 5,10-methylenetetrahydrofolate to 5-methyltetrahydrofolate. Mthfr RNA and protein are present throughout mouse oocyte and PI embryo development, including the germinal vesicle, MII egg, 1-cell embryo, 2-cell embryo, morula and blastocysts. In MII eggs the protein appears to be heavier than in any other stage. This was reversed by treatment with Lambda Protein Phosphatase (LPP), indicating that MTHFR is phosphorylated in MII eggs. MTHFR was progressively phosphorylated beginning shortly after initiation of meiotic maturation, reaching maximal levels in MII eggs before decreasing after egg activation using strontium chloride. Potential kinases responsible for the phosphorylation of MTHFR have been identified however not in oocytes or PI embryos. DYRK1A/1 and GSK3A/B have both been suggested to mediate the phosphorylation, however when inhibited showed no effect on the oocyte sample. An LC-MS/MS assay was attempted to measure the activity of MTHFR in wildtype and knockout mouse liver samples, however unsuccessful in the amounts needed to be used for comparison to oocytes. Overall, MTHFR is present in the developing stages of interest and is mediated in some capacity by phosphorylation modifications around the MII stage of development.

5,10-methylenetetrahydrofolate reductase

meiotic maturation

folate

one-carbon metabolism

oocyte

methionine

phosphorylation

S-adenosyl methionine

Bases génétiques et évolution du conflit génétique induit par la distorsion de ségrégation des chromosomes sexuels chez Drosophila simulans / Genetic bases and evolution of the genetic conflict caused by sex chromosome segregation distortion in Drosophila simulans

Courret, Cécile

02 December 2019

La distorsion de ségrégation méiotique est une entorse à la loi de ségrégation équilibrée des allèles via les gamètes. Les gènes ou éléments génétiques causaux (distorteurs de ségrégation) empêchent, chez les hétérozygotes, la production de gamètes qui ne les contiennent pas. Ils peuvent ainsi se répandre dans les populations même s’ils sont délétères pour les individus porteurs.Parce qu'ils induisent un biais du sexe ratio, les distorteurs liés au sexe et s'exprimant dans le sexe hétérogamétique sont générateurs de conflits intragénomiques, caractérisés par l'évolution de suppresseurs qui tendent à rétablir l'équilibre des sexes. Ce processus peut conduire à l’émergence de nouvelles espèces, à l’évolution du comportement reproducteur ou du déterminisme du sexe.Dans l'espèce Drosophila simulans, des distorteurs liés au chromosome X, perturbent la ségrégation du chromosome Y lors de la méiose mâle. La descendance des mâles porteurs est alors très majoritairement femelle. Un de ces éléments distorteurs, le gène HP1D2, code une protéine qui se lie au chromosome Y avant la méiose. La distorsion est le fait d'allèles dysfonctionnels de HP1D2 (qui ont un faible niveau de transcrits testiculaires et/ou ont une délétion du domaine d’interaction protéine-protéine). Dans les populations naturelles envahies par les distorteurs, ceux-ci se trouvent neutralisés par des suppresseurs autosomaux et des chromosomes Y résistants.Le premier volet de ma thèse a été consacré au déterminisme génétique de la suppression autosomale. Par cartographie de QTL, utilisant des lignées recombinantes consanguines, j'ai révélé la complexité de ce déterminisme : 5 QTLs avec de nombreuses relation d’épistasie.Le deuxième volet est consacré au chromosome Y, qui présente, d’importante variations phénotypiques pour la résistance aux distorteurs. Nous avons étudié ses variations moléculaires et structurales et la dynamique des Y résistants dans les populations naturelles. Le séquençage de différents chromosomes Y, résistants ou sensibles, a permis de retracer l’histoire évolutive du chromosome Y en relation avec celle des distorteurs.Le dernier volet est une étude cytologique pour comparer le comportement des formes sauvages et distortrices de la protéine HP1D2 dans les spermatogonies.Dans l’ensemble ces travaux apportent un éclairage sur les bases génétiques et moléculaires du système Paris et sur son évolution. / Meiotic drive is an infringement of the law of allele segregation into the gametes. In heterozygote individuals, the causal genes or genetic elements (meiotic drivers), prevent the production of gamete which does not contain it. Thus, they can spread through populations even if they are deleterious for the carriers.Because they induce sex-ratio bias, sex-linked drivers that are expressed in the heterogametic sex, are an important source of genetic conflict, characterized by the evolution of suppressor which tends to restore a balanced sex ratio. This process can lead to the emergence of new species, evolution of reproductive behavior or sex determination.In Drosophila simulans, X-linked meiotic drivers disturb the segregation of the Y chromosome during male meiosis. The progeny of carrier male is mainly composed of females. One of the drivers is the HP1D2 gene, which encodes a protein that binds to the heterochromatic Y chromosome. The distortion is due to dysfunctional alleles of HP1D2 (low level of expression and/or a deletion of its protein-protein interaction domain). In natural populations where the drivers have spread, they are neutralized by autosomal suppressors and resistant Y chromosomes.The first part of my thesis was focus on the genetic determinism of autosomal suppression. I performed a QTL mapping using recombinant inbreed lines which highlighted the complexity of the genetic determinism of suppression: 5 QTLs and multiple epistatic interaction.The second part is about the Y chromosome, which show important phenotypic variation in the resistance of Y chromosomes to the driver. We studied its molecular and structural variation and the dynamic of resistant Y chromosomes in natural population. The sequencing of different Y chromosomes, sensitive and resistant, allowed us to retrace the evolutionary history of the Y chromosome related to the one of the driver.The last part is a cytological study to compare the localization of the functional and the driver form of HP1D2 in spermatogonia.Generally, results presented here give a better insight regarding the genetic bases and the evolution of the multiple actors of the Paris sex ratio system.

Drosophile

Distorteur de ségrégation

Chromosome sexuel

Conflit génétique

Hétérochromatine

Drosophila

Meiotic drive

Sex chromosome

Genetic conflict

Heterochromatin

Killer action of Spok homologue in Fusarium vanattenii : Investigation through site directed mutagenesis

Jorayev, Samuel

January 2023

The Spok genes are a group of selfish genetic elements in the fungus Podespora anserina which kills spores lacking them. These Spoks function through a toxin and resistance domain. Homologues of these have been found across other species such as in the Fusarium genus. Nechadraft_82228 is a Spok homologue present in the species Fusarium vanettenii, with uncertain killer action. In this study the killer action is examined through site directed mutagenesis (SDM) of the resistance domain in Nechadraft_82228. The site directed mutagenesis was performed successfully and showed negative results regarding whether the Nechadraft_82228 had functioning killer action and resistance. Growth pattern for spot assays hinted at the existence of a different underlying reason for the lack of growth, opposed to a functional toxin/killer action. Namely respiratory dysfunction in the transformed Saccharomyces. Cerevisiae, potentially due to unfit heat shock temperature.

Spok genes

FuSpok

Meiotic Driver

Fusarium

transposons

Microbiology

Mikrobiologi

Biological Systematics

Biologisk systematik

Studies on the formation and elongation of the delimiting membrane in Bipolaris maydis / トウモロコシごま葉枯病菌における前胞子膜の形成および伸長に関する研究

Tsuji, Kenya

23 March 2022

京都大学 / 新制・課程博士 / 博士(農学) / 甲第23961号 / 農博第2510号 / 新制||農||1092(附属図書館) / 学位論文||R4||N5396(農学部図書室) / 京都大学大学院農学研究科地域環境科学専攻 / (主査)教授 田中 千尋, 教授 本田 与一, 教授 日本 典秀 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM

ascospore

Bipolaris maydis

delimiting membrane

exocyst

meiotic silencing

septin

sexual reproduction

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