Étude de la reprogrammation du chromosome X dans les cellules souches embryonnaires et extra-embryonnaires au cours du développement préimplantatoire murin / Study of X chromosome reprogrammation in embryonic and extra-embryonic stem cells during mouse preimplantation development

Prudhomme, Julie

26 September 2014

Chez les Mammifères femelles, l’extinction transcriptionnelle d’un des deux chromosomes X pendant l’embryogénèse précoce compense le déséquilibre de dose des gènes liés à l’X entre les sexes. L’inactivation aléatoire du chromosome X est mise en place dans la masse cellulaire interne du blastocyste et maintenue jusqu’à l’âge adulte dans le soma. Chez certains Euthériens incluant la souris, les tissus extra-embryonnaires (trophectoderme et endoderme primitif) montrent une inactivation soumise à empreinte du X paternel. Le statut inactif du Xp peut être étudié ex vivo dans les cellules souches trophoblastiques (TS) dérivées du trophectoderme. Nous avons pu sélectionner des cellules TS montrant une réactivation partielle du Xp ou bien une inversion complète du profil d’inactivation. Ceci révèle une plasticité épigénétique accrue de l’inactivation dans le trophectoderme par au soma.L’inactivation aléatoire du chromosome X est récapitulée pendant la différenciation des cellules souches embryonnaires (ES), qui servent de modèle cellulaire. Ce processus est déclenché par l’accumulation en cis du long ARN non codant Xist qui crée un domaine nucléaire répresseur autour du futur chromosome X inactif. Avant la différenciation, l’accumulation de Xist est réprimée par un autre long ARN non codant, Tsix, qui est transcrit en antisens de Xist. Afin d’adresser la dynamique fonctionnelle des ARN Xist et Tsix, nous avons inséré différents motifs d’étiquetage au locus Xist/Tsix endogène. Incorporés dans l’ARN sens ou antisens, ces étiquettes sont reconnues spécifiquement par des molécules fluorescentes, permettant ainsi la visualisation de ces transcrits dans les cellules vivantes. / In female Mammals, the transcriptional silencing of one of the two X chromosomes during early embryogenesis compensates the dosage disequilibrium of X-linked genes between sexes. Random X chromosome inactivation occurs in the inner cell mass of the blastocyst and is maintained through adult life in the soma. In some Eutherian species including mice, extraembryonic tissues (trophectoderm and primitive endoderm) exhibit imprinted inactivation of the paternal X. The inactive state of the Xp can be extensively studied ex vivo in Trophoblast Stem (TS) cells derived from the trophectoderm. We were able to select from the general cell population, TS cells exhibiting partial reactivation of the Xp or showing a complete switch of imprinted X-inactivation pattern. This reveals an accrued epigenetic plasticity of imprinted X-inactivation in the trophectoderm as compared to random X-inactivation in the soma.Random X-chromosome inactivation is recapitulated during the differentiation of female Embryonic Stem (ES) cells – which serves as cellular model. This process is triggered by the cis-accumulation of Xist long non coding RNA molecules which create a nuclear repressive domain around the future inactive X chromosome. Before differentiation, the accumulation of Xist is repressed by another lncRNA, Tsix, that is transcribed antisense to Xist. In order to address the functional dynamics of Xist and Tsix RNAs, we inserted different types of tag sequences in the endogenous Xist/Tsix locus. Incorporated in the sense or antisense RNA, these tags are specifically recognized by fluorescent molecules, thereby allowing live cell imaging of these transcripts.

Inactivation du chromosome X

Épigénétique

Cellules souches

Développement préimplantatoire murin

Longs ARN non codants

Régulation transcriptionnelle

X-chromosome inactivation

Epigenetic

572.87

Padrão de Inativação do Cromossomo X e Expressão de microRNAs X-específicos na Pré-Eclâmpsia / X-chomosome Inactivation Pattern and of MicroRNAs X-specific Expression in Preeclampsia

Oliveira, Adriane Araujo de

27 January 2010

As síndromes hipertensivas gestacionais estão entre as maiores causas de morte materna e fetal. Entre elas destaca-se a pré-eclâmpsia (PE), que caracteriza-se pelo aumento da pressão arterial e proteinúria, a partir da 20ª semana de gestação. Embora sua etiologia seja ainda discutida, o papel dos fatores genéticos é amplamente aceito. Alterações do padrão da inativação do cromossomo X, processo epigenético encontrado em mamíferos com placenta, têm sido encontradas em algumas doenças que ocorrem exclusivamente em mulheres. O XIST é um gene chave nesse processo. Por outro lado, muitos microRNAs (pequenos RNAs não codificantes) são expressos abundantemente na placenta humana e alguns estão mapeados no cromossomo X. O objetivo do presente trabalho foi a verificação do padrão de inativação do cromossomo X e da expressão dos genes XIST e dos microRNAs X-específicos miR-221, miR-222 e mir-223 em mulheres com PE. O ensaio de HUMARA (receptor de andrógeno humano) utilizando PCR convencional e digestão com a enzima sensível à metilação HpaII foi analisado de forma qualitativa (visualização em gel de poliacrilamida) e semi-quantitativa (sequenciamento), sendo realizado a partir de sangue periférico (todas as amostras) e de tecido placentário [apenas das placentas de fetos femininos (17 amostras)]. Para o estudo do padrão de expressão foi obtido cDNA por transcrição reversa, a partir de RNA total extraído do tecido placentário (30 amostras).. A análise foi realizada por meio de PCR em tempo real. Foram utilizados os testes de Qui-quadrado e de t-Student, além do modelo linear generalizado para a análise estatística. Não houve diferença estatisticamente significativa para o parâmetro de inativação do cromossomo X entre os grupos controle e de PE, independente do tipo de tecido estudado (sangue ou placenta) quando foram aplicados os ensaios de HUMARA qualitativo e semi-quantitativo. Para o gene XIST e o microRNA miR-221 não foi evidenciada diferença estatisticamente significativa entre os grupos controle e de PE. O microRNA miR-223 não apresentou transcritos detectáveis em nenhum dos grupos de estudo. Para o microRNA miR-222, houve diferença estatisticamente significativa, sendo que no grupo de PE a expressão foi mais elevada. Não foi encontrada associação entre o padrão de inativação do cromossomo X e a expressão do gene XIST e dos microRNAs estudados. Embora a inativação preferencial do cromossomo X tenha sido encontrada nos dois grupos, padrões de inativação preferencial extrema foram verificados em um número maior de casos com PE. Os resultados mostram que o miR-222 apresenta potencial para ser utilizado como marcador molecular da PE, sugerindo também que exista uma diminuição na expressão de seus genes-alvo que devem ser estudados como candidatos na patogênese da doença. / The gestational hypertensive syndromes are among the major causes of maternal and fetal death. The Preeclampsia (PE) is the most prevalent of those syndromes and it is characterized by the increase of blood pressure and proteinury, which start from to 20th week of gestation. Although its ethiology is argued actually the genetics factors have been accepted. Alterations in pattern of chromosome X inactivation, epigenetic process of mammals with placenta have been found in some diseases that occur exclusively in women. XIST is a key gene in this process. On the other hand very microRNAs (small RNAs no coding) are overexpressed in human placenta and someones are located at X choromosome. The subject of this research was verify the patterns of chromosome X inactivation and the expression of the XIST gene and X-specific microRNAs in women affected by PE. In the HUMARA (human androgen receptor) assay was carried out with peripheral blood (all samples) and placental tissue [only female fetuses placentas (17 samples)]. The conventional PCR and digestion methodology with HpaII enzyme were employed and the result was analysed to qualitative (polyacrilamide gel) and semi quantitative (sequencing) form. The cDNA was obtained to gene expression study by reverse transcription reaction from placenta total RNA (30 samples). Gene expression assay was carried out with real time PCR. To statistical analyze was used the Qui-square and t-Student tests besides the widespread lineal model. There was not statistical significant differences to chormosome X inactivation parameter among the groups control and PE independently of the tissue studied (blood or placenta) when the qualitative and semi quantitative HUMARA assay were applied. To XIST and miR-221 were not evidenced significant statistical differences among the groups control and of PE. The miR-223 did not show detectable transcripts to any group studied. The miR-222 expression was more elevated in the PE group than control group and this difference was significant statistically. In the present study was not found association among the chromosome X inactivation pattern and the gene expression of XIST and the microRNAs studied. Although the chromosome X inactivation have been found in the two groups the preferential chromosome X inactivation patterns were verified in a great number of cases in PE group. The results showed that miR-222 has a potential to be employed as molecular marker of PE also suggesting the existence of a decrease in expression of its target genes which have to be investigated like candidates to disease pathogenesis.

Chromosome X Inactivation

Differential Gene Expression

ensaio de HUMARA

Expressão Gênica Diferencial

gene XIST

HUMARA assay

Inativação do cromossomo X

MicroRNAs

MicroRNAs

Pré-eclâmpsia

Preeclampsia

XIST

Analysis of the role of nuclear organization during random X chromosome inactivation / Analyse du role de l’organisation nucleaire dans l’inactivation du chromosome X

Pollex, Tim

19 September 2014

Chez les mammifères femelles, le processus d’inactivation du chromosome X (XCI) assure la compensation de dose entre les deux sexes. Chez la souris, l’inactivation du X est établie de manière aléatoire dans l’épiblaste au stade blastocyste et peut être récapitulée in vitro dans les cellules souches embryonnaires. L’ARN non-codant Xist, exprimé à partir du centre d’inactivation du X (Xic), est le régulateur principal de ce processus. Il décore en cis le chromosome choisi pour être inactivé et initie la répression de ses gènes. Ainsi, de manière remarquable, les deux chromosomes X sont traités différemment pendant l’initiation de la XCI malgré leur homologie de séquence et leur localisation au sein d’un même noyau. De manière remarquable, ce processus implique le traitement différentiel de deux chromosomes homologues au sein d’un même noyau, avec des changements d’environnements nucléaires et chromatiniens entre le X actif et le X inactif. Il a été proposé que la localisation nucléaire pourrait jouer un rôle important dans l’initiation de l’expression monoallélique des gènes, non seulement pour l’initiation de la XCI mais aussi pour des processus tels que l’exclusion allélique dans les cellules lymphoides. Par exemple, l’association de loci avec des compartiments hétérochromatiques nucléaires et l’association en trans de loci homologues pourraient être impliquées dans la régulation des gènes monoalléliques. Ainsi, j’ai utilisé le système bactérien TetR/TetO afin d’analyser le rôle de l’organisation nucléaire du chromosome X et du Xic dans l’initiation de la XCI. J’ai pu montrer que si le recrutement des protéines de fusion TetR-LaminB1 ou -Cbx5 au niveau de la cassette TetO insérée dans le Xic permet la répression des gènes à proximité, cet évènement n’est pas toujours accompagné d’une relocalisation nucléaire. De plus, l’association forcée du Xic avec la périphérie nucléaire (TetR-LaminB1) n’a pas d’influence sur le choix du chromosome X à inactiver. Enfin, si la relocalisation des deux Xic à la périphérie nucléaire induit une réduction des évènements d’association en trans entre les deux loci, elle n’a pas d’effet sur l’initiation de l’inactivation. En résumé, ces résultats suggèrent que l’organisation nucléaire du chromosome X et du Xic et l’association des Xic en trans ne sont pas des facteurs déterministes pour le choix et l’initiation de la XCI, mais pourraient être le résultat des changements d’expression des gènes liés à l’X au cours de la différenciation des cellules souches ainsi que de l’augmentation de l’expression de Xist.Enfin, j’ai également analysé le rôle de la protéine CTCF, qui a été proposée pour être importante dans l’organisation structurale du génome, dans le contexte du Xic et de l’initiation de l’inactivation. Ainsi, le recrutement de CTCF au niveau de cassette TetO insérée dans le Xic induit localement une réduction mineure des interactions en cis et la répression des gènes du Xic, à l’exception de Xist dont l’expression est augmentée. Pour autant, la présence ectopique de CTCF n’a pas d’incidence majeure sur l’organisation générale du Xic. / X-chromosome inactivation (XCI) ensures dosage compensation in female mammals. Random XCI is established in the epiblast of female mouse embryos and can be recapitulated in vitro in differentiating embryonic stem cells (ESCs). The major regulator of XCI is the long non-coding RNA Xist, which is expressed from the X-inactivation center (Xic), covers the chromosome in cis and initiates gene silencing. During XCI, the two X chromosomes are treated very differently, despite their homology and the fact that they reside in the same nucleus. Nuclear localization has been hypothesized to play a role in monoallelic gene regulation, not only during XCI but also in other contexts. For example, association with heterochromatin and homologous trans interactions (“pairing”) have been implicated in the establishment of monoallelic gene expression in lymphoid cells and transient pairing has been suggested to participate in symmetry breaking during random XCI. Using the bacterial tetO/tetR system to alter the subnuclear localization and environment of one or both Xics, we have tested the function of subnuclear localization and trans interactions between the Xic loci during initiation of XCI. Using stable expression and reversible binding of TetR fusion proteins (e.g. LaminB1, Cbx5) we show that binding of these proteins can induce local gene repression and chromatin changes, although this is not always associated with subnuclear relocalization. We further show that the forced association of the Xic with the nuclear envelope, does not impact on the choice-making process during XCI. In particular, tethering both Xics to the nuclear lamina during early ESC differentiation resulted in a substantial reduction of homologous pairing events, but had no obvious impact on the onset of random, monoallelic Xist expression. Taken together, our results suggest that nuclear localization and trans interactions of the Xic may be downstream events rather than causal in the regulation of the XCI process.Furthermore, we recruited CTCF, a protein suggested to be involved in structural organization of the genome, to the Xic using the tetO/tetR system. Upon binding of CTCF the overall structure of the Xic remained unaltered though few cis interactions appeared to be weakened, which was accompanied by gene repression in the Xic. Surprisingly, the only upregulated gene in the Xic was Xist in ESCs and during differentiation, which demonstrates that the induced minor changes of cis interactions might impact on gene regulation in the Xic.

Compensation du dosage

Centre d’inactivation du chromosome X

Cellule souche embryonnaire

Xist

Dosage compensation

X-inactivation center

Embryonic stem cells

Random monoallelic gene expression

Xist

Recherche de gènes candidats responsables du Syndrome d'Aicardi Complémentarité des approches expérimentales et bioinformatiques /

Yilmaz, Saliha Jonveaux, Philippe.

January 2007

Thèse de doctorat : Génomique : Nancy 1 : 2007. / Titre provenant de l'écran-titre.

Echappement à l'inactivation du chromosome X du gène TLR7 dans les lymphocytes B de femmes : mise en évidence et conséquences fonctionnelles / TLR7 escapes from X chromosome inactivation in human immune cell subpopulations : association with enhanced B cell responses

Souyris, Mélanie

27 November 2017

Les femmes développent une réponse immunitaire plus forte que celle des hommes. Ceci les protège vis-à-vis des infections virales ou bactériennes, mais augmente également leur risque de développer une pathologie auto-immune. Le lupus érythemateux systémique (LES) est une pathologie auto-immune prototypique à fort dimorphisme sexuel, avec 9 femmes affectées pour 1 homme. TLR7 (Toll-like receptor 7) est un TLR endosomal spécifique de l'ARN simple brin. Ce récepteur joue un rôle crucial dans la réponse antivirale mais aussi dans la rupture de tolérance à la base de la pathologie lupique. Sa surexpression dans un modèle murin suffit à induire le développement spontané d'un lupus. Au contraire, son invalidation dans des souches de souris développant un lupus spontané, est protectrice. Chez l'Homme, TLR7 est exprimé dans les cellules dendritiques plasmacytoïdes (pDC), les monocytes, ainsi que dans les lymphocytes B (LB). Son engagement induit la production de médiateurs pro-inflammatoires par les pDC et les monocytes, et la maturation et la production d'anticorps par les LB. Le gène TLR7 est porté sur le bras court du chromosome X. Un mécanisme compensatoire du dosage des gènes portés sur les gonosomes intervient dans les cellules des mammifères, où un des deux chromosomes X est aléatoirement inactivé pendant le développement embryonnaire. Or ce mécanisme est imparfait et, chez les femmes, au minimum 15% des gènes portés sur l'X sont susceptibles d'échapper à son inactivation. Vu l'effet du dosage de Tlr7 dans les modèles murins du lupus, et de la localisation de TLR7 sur le chromosome X humain, nous avons cherché à déterminer si TLR7 serait sujet à l'échappement à l'inactivation de l'X chez les femmes. Pour cela nous avons développé une approche basée sur l'analyse sur cellule unique de l'expression d'un marqueur allélique au niveau des transcrits de TLR7. Nos résultats démontrent que ce gène échappe à l'inactivation du chromosome X dans 30% environ des LB, monocytes et pDC de femmes saines. De plus, nous avons observé par une technique d'hybridation in situ la transcription simultanée des deux allèles. L'expression bi-allélique de TLR7 est associée à une augmentation significative de l'ARNm de TLR7 dans les LB naïfs. Enfin, nos résultats démontrent que les LB naïfs exprimant les deux allèles de TLR7 sont préférentiellement enrichis dans les cellules différentiées dont la commutation de classe a été induite par un ligand de TLR7. De la même façon, les cellules plasmocytaires où TLR7 échappe à l'inactivation de l'X sont enrichies parmi les cellules prolifératrices en réponse à l'engagement de TLR7. En conclusion, ce travail démontre que le gène TLR7 échappe à l'inactivation de l'X chez plusieurs types de cellules immunitaires, que le dosage des transcrits du gène s'en trouve augmenté chez les lymphocytes B, et que la réponse biologique à l'engagement TLR7 est plus importante chez les lymphocytes B à expression bi-allélique. Par ailleurs, de premiers résultats mettent en évidence l'échappement de TLR7 à l'inactivation de l'X chez des hommes atteints du syndrome de Klinefelter (47, XXY). Ceci pourrait expliquer leur susceptibilité équivalente à celle des femmes au développement du lupus. / Women develop stronger immune responses than men, with positive effects on the resistance to viral or bacterial infections but magnifying also the susceptibility to autoimmune diseases like systemic lupus erythematosus (SLE), which affects 9 women per 1 man. Toll-like receptor 7 (TLR7) is an endosomal single-stranded RNA sensor that plays a key role in the initiation of the antiviral response. TLR7 dosage, however, is also a crucial determinant in SLE, and Tlr7 overexpression suffices to induce spontaneous lupus-like disease. Conversely, Tlr7 knock-out abolishes SLE development in lupus-prone mice. In humans, TLR7 is expressed in plasmacytoid dendritic cells (pDCs), monocytes and B lymphocytes. TLR7 engagement increases B cell maturation and production of antibodies, but also the production of pro-inflammatory cytokines by pDCs and monocytes. Human TLR7 is encoded on the short arm of the X chromosome. The cells of female mammals randomly inactivate one X chromosome in the course of embryonic development to equalize gene dosage between the sexes. However, 15% of X-linked human genes consistently escape inactivation so that both alleles are expressed in individual cells. Because increased dosage of TLR7 expression due to non-inactivation could contribute to autoimmunity, we investigated allelic expression of TLR7 in individual immune cells from women using a TLR7 allelic marker observable on mRNA molecules. Our results show that TLR7 escapes X chromosome inactivation in about 30% of B cells, pDCs and monocytes. TLR7 bi-allelic expression was observed also in situ by RNA-FISH. Naive B cell TLR7 bi-allelic expression is accompanied by higher TLR7 mRNA expression. Our results demonstrate that TLR7 escape from X-inactivation is associated with an enhanced plasma cell proliferative response to TLR7 ligands, and promotes immunoglobulin class switch induced by T cell help and TLR7 engagement. Our study provides proof of principle that TLR7 escapes from X chromosome inactivation in several types of immune cells of women and results in greater transcriptional expression, and shows also that cellular function in bi-allelic B cells is augmented in a TLR7-specific manner. Bi-allelic expression of TLR7 in women is thus a potential risk factor in the pathogenesis of SLE. Our initial results show also that TLR7 escapes from X inactivation in the immune cells of men with Klinefelter syndrome (47, XXY), which may explain a risk of SLE equivalent to women's.

TLR7

Chromosome X

Lupus érythémateux systémique

Différences liées au sexe

Lymphocytes B

TLR7

X chromosome

Systemic Lupus Erythematosus

Sex differencies

B cells

Facteurs de risques de développer une maladie auto-immune chez les hommes? : cas particulier de la polyarthrite rhumatoïde / Risk factors for men to develop an autoimmune disease : special case of rheumatoid arthritis

Martin, Gabriel

20 December 2017

Peu d’hommes sont touchés par les maladies auto-immunes (MAI), maladies où la réponse immune est très forte et attaque l’hôte. La polyarthrite rhumatoïde (PR), une maladie inflammatoire chronique, suit cette règle avec 3 femmes pour 1 homme atteint. Dans cette thèse, nous analysons les différences en fonction du sexe et les raisons d’un tel biais. D’après des observations chez l’animal, nous nous sommes demandés si les rares hommes atteints de PR ont une augmentation du nombre de copies d’un gène impliqué dans la réponse immune et porté par le chromosome (Chr) X. Contrairement aux femmes, les hommes n’ont qu’un Chr X et de ce fait qu’une copie de ce gène. Cependant, nous avons montré par différentes techniques, que ces patients avaient 10% de cellules portant 2 copies de ce gène, et que cette augmentation venait de cellules ayant 2 Chr X. Nos recherches soulignent l’importance du Chr X dans l’auto-immunité et ouvrent un nouveau champ d'investigation pour les hommes atteints de MAI. / Few men are affected by autoimmune diseases (AID), diseases where the immune response is very strong and attacks the host. Rheumatoid arthritis (RA), a chronic inflammatory disease, follows this rule with 3 women affected for 1 man. In this thesis, we analyse gender differences and the reasons for such bias. Based on observations in animals, we wondered whether the rare men with RA have an increased copy number of a gene involved in the immune response and carried by the X chromosome (Chr). Unlike women, men have only one X Chr and one copy of this gene. However, we showed by different techniques that these patients had 10% of cells carrying 2 copies of this gene, and that this increase came from cells with 2 X Chr. Our research emphasizes the importance of the X Chr in autoimmunity and opens up a new field of investigation for men with AID.

Polyarthrite Rhumatoïde

Chromosome X

TLR7 et TLR8

Hommes

Biais sexuel

Variation du nombre de copies

Rheumatoid Arthritis

X chromosome

TLR7 and TLR8

Men

Gender Bias

Copy number variation

612

Padrão de Inativação do Cromossomo X e Expressão de microRNAs X-específicos na Pré-Eclâmpsia / X-chomosome Inactivation Pattern and of MicroRNAs X-specific Expression in Preeclampsia

Adriane Araujo de Oliveira

27 January 2010

As síndromes hipertensivas gestacionais estão entre as maiores causas de morte materna e fetal. Entre elas destaca-se a pré-eclâmpsia (PE), que caracteriza-se pelo aumento da pressão arterial e proteinúria, a partir da 20ª semana de gestação. Embora sua etiologia seja ainda discutida, o papel dos fatores genéticos é amplamente aceito. Alterações do padrão da inativação do cromossomo X, processo epigenético encontrado em mamíferos com placenta, têm sido encontradas em algumas doenças que ocorrem exclusivamente em mulheres. O XIST é um gene chave nesse processo. Por outro lado, muitos microRNAs (pequenos RNAs não codificantes) são expressos abundantemente na placenta humana e alguns estão mapeados no cromossomo X. O objetivo do presente trabalho foi a verificação do padrão de inativação do cromossomo X e da expressão dos genes XIST e dos microRNAs X-específicos miR-221, miR-222 e mir-223 em mulheres com PE. O ensaio de HUMARA (receptor de andrógeno humano) utilizando PCR convencional e digestão com a enzima sensível à metilação HpaII foi analisado de forma qualitativa (visualização em gel de poliacrilamida) e semi-quantitativa (sequenciamento), sendo realizado a partir de sangue periférico (todas as amostras) e de tecido placentário [apenas das placentas de fetos femininos (17 amostras)]. Para o estudo do padrão de expressão foi obtido cDNA por transcrição reversa, a partir de RNA total extraído do tecido placentário (30 amostras).. A análise foi realizada por meio de PCR em tempo real. Foram utilizados os testes de Qui-quadrado e de t-Student, além do modelo linear generalizado para a análise estatística. Não houve diferença estatisticamente significativa para o parâmetro de inativação do cromossomo X entre os grupos controle e de PE, independente do tipo de tecido estudado (sangue ou placenta) quando foram aplicados os ensaios de HUMARA qualitativo e semi-quantitativo. Para o gene XIST e o microRNA miR-221 não foi evidenciada diferença estatisticamente significativa entre os grupos controle e de PE. O microRNA miR-223 não apresentou transcritos detectáveis em nenhum dos grupos de estudo. Para o microRNA miR-222, houve diferença estatisticamente significativa, sendo que no grupo de PE a expressão foi mais elevada. Não foi encontrada associação entre o padrão de inativação do cromossomo X e a expressão do gene XIST e dos microRNAs estudados. Embora a inativação preferencial do cromossomo X tenha sido encontrada nos dois grupos, padrões de inativação preferencial extrema foram verificados em um número maior de casos com PE. Os resultados mostram que o miR-222 apresenta potencial para ser utilizado como marcador molecular da PE, sugerindo também que exista uma diminuição na expressão de seus genes-alvo que devem ser estudados como candidatos na patogênese da doença. / The gestational hypertensive syndromes are among the major causes of maternal and fetal death. The Preeclampsia (PE) is the most prevalent of those syndromes and it is characterized by the increase of blood pressure and proteinury, which start from to 20th week of gestation. Although its ethiology is argued actually the genetics factors have been accepted. Alterations in pattern of chromosome X inactivation, epigenetic process of mammals with placenta have been found in some diseases that occur exclusively in women. XIST is a key gene in this process. On the other hand very microRNAs (small RNAs no coding) are overexpressed in human placenta and someones are located at X choromosome. The subject of this research was verify the patterns of chromosome X inactivation and the expression of the XIST gene and X-specific microRNAs in women affected by PE. In the HUMARA (human androgen receptor) assay was carried out with peripheral blood (all samples) and placental tissue [only female fetuses placentas (17 samples)]. The conventional PCR and digestion methodology with HpaII enzyme were employed and the result was analysed to qualitative (polyacrilamide gel) and semi quantitative (sequencing) form. The cDNA was obtained to gene expression study by reverse transcription reaction from placenta total RNA (30 samples). Gene expression assay was carried out with real time PCR. To statistical analyze was used the Qui-square and t-Student tests besides the widespread lineal model. There was not statistical significant differences to chormosome X inactivation parameter among the groups control and PE independently of the tissue studied (blood or placenta) when the qualitative and semi quantitative HUMARA assay were applied. To XIST and miR-221 were not evidenced significant statistical differences among the groups control and of PE. The miR-223 did not show detectable transcripts to any group studied. The miR-222 expression was more elevated in the PE group than control group and this difference was significant statistically. In the present study was not found association among the chromosome X inactivation pattern and the gene expression of XIST and the microRNAs studied. Although the chromosome X inactivation have been found in the two groups the preferential chromosome X inactivation patterns were verified in a great number of cases in PE group. The results showed that miR-222 has a potential to be employed as molecular marker of PE also suggesting the existence of a decrease in expression of its target genes which have to be investigated like candidates to disease pathogenesis.

ensaio de HUMARA

Expressão Gênica Diferencial

gene XIST

Inativação do cromossomo X

MicroRNAs

Pré-eclâmpsia

Chromosome X Inactivation

Differential Gene Expression

HUMARA assay

MicroRNAs

Preeclampsia

XIST

Détection de processus sexuellement antagonistes dans le génome humain / Detection of sexually antagonistic processes in the human genome

Lucotte, Elise

23 November 2015

Chez les espèces sexuées, une sélection sexuellement antagoniste (SA) peut agir si les deux sexes ont des optimums en fitness différents pour un même trait. De plus, si l'architecture génétique de ce trait est partagée entre les sexes, un conflit sexuel intralocus (IASC) peut se produire, menant à l'évolution d'un dimorphisme sexuel. Un modèle de génétique des populations classique prédit que le chromosome X offre un environnement plus favorable à l'accumulation de locus sous sélection SA en comparaison aux autosomes. Nous nous sommes dans un premier temps intéressée à la détection d'une signature d'IASC dans le génome humain, c'est-à-dire des différences de fréquences alléliques entre les sexes. En effectuant un balayage du génome, nous avons mis en évidence un enrichissement en locus montrant une signature d'IASC sur le chromosome X en comparaison aux autosomes. Un mécanisme possible à l'origine des différences de fréquences alléliques entre les sexes dans une population est une distorsion de transmission sexe-spécifique. Dans un second temps, nous avons donc mis au point une méthode de détection de locus pour lesquels les parents transmettent préférentiellement un allèle à leurs fils, et un autre allèle à leurs filles, en utilisant une base de données de séquençage de trios parents-enfant. Nos résultats indiquent que des processus de distorsion de transmission sexe-spécifique seraient à l'origine d'une grande partie des différences de fréquences alléliques entre les sexes observées chez les enfants. Cela suggère que des processus sexuellement antagonistes agissant sur la survie pourraient avoir lieu entre la production des gamètes et la naissance chez l'Homme. / Sexually Antagonistic (SA) selection can occur when, within a species, the two sexes have different fitness optima for a trait. If a trait under SA selection is encoded by the same set of genes in the two sexes, an Intralocus Sexual Conflict (IASC) can arise, leading to the evolution of sexual dimorphism. A classical theoretical model predicts that the X chromosome should be a hotspot for the accumulation of loci under IASC, as compared to the autosomes. In this dissertation, we first aimed at detecting differences in allelic frequencies between males and females, a signature of IASC, in the human genome using a genome scan. We show that loci exhibiting signatures of ongoing IASC are preferentially located on the X chromosome as compared to autosomes. Moreover, they are enriched in genes involved in the determination of traits known to be sexually dimorphic in humans, including reproduction, metabolism and immune system, supporting an implication of sexually antagonistic selection in the evolution of sexual dimorphisms in humans. One possible mechanism leading to differences in allelic frequencies between the sexes is a sex-specific transmission distortion. Therefore, we aimed at detecting loci for which parents preferentially transmit one allele to their sons and another allele to their daughters in a sequencing dataset containing trios (parents-child). We found that sex-specific transmission distortions are at the origin of a large proportion of the differences in allelic frequencies between the sexes observed in children. This suggests that sexually antagonistic processes on survival may occur between the production of gametes and birth in humans.

Sélection sexuellement antagoniste

Conflit sexuel intralocus

Dimorphisme sexuel

Balayage du génome

Chromosome X

Sexually antagonistic selection

Genome scan

576.58

Genetic-epidemiologic analysis of X-inactivation skewing in human females : suggestive evidence for two distinct traits

Mio, Robert

January 2003

Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal.

Chromosome X

Biaisé acquise

Biaisé primaire

HUMARA

Héritabilité

Cellules souches hématopoïétiques

Cellules buccales

Humain

Femme

Québec

Lignées hématopoïétiques

Études d'association

Donnée clinique

Analyse[s] sanguines

Âge

Studium exprese mutantních alel a stavu X inaktivace ve vztahu ke klinickým projevům vybraných monogenních X vázaných onemocnění / Gene expression of mutant alleles and X inactivation pattern in patients with selected X-linked disorders

Černá, Alena

January 2019

In comparison to men, the number of X-linked genes is doubled in women as they have two chromosomes X while men are hemizygotes for X-linked genes. This imbalance is compensated by X inactivation (XCI) process, also known as primary X-inactivation, occurring in the early stage of embryogenesis. X inactivation is a random process and females are mosaics of two cell populations. The ratio of expressed alleles in women can be random (50:50) or skewed (≥80:20). The skewed X inactivation may occur due to selection when one of the alleles is preferentially inactivated (secondary X inactivation). In this study XCI status in heterozygous females with various severity of phenotypic symptoms and traits in selected X linked inherited metabolic diseases is analysed, with the focus being Fabry disease - the deficiency of the enzyme alpha-galactosidase A encoded by GLA gene. Moreover, XCI in one family with X linked agammaglobulinemia is examined. Mutant alleles and XCI status based on various loci, different methodical approaches and different tissues is subjected to examination. For the first time, the direct analysis of GLA gene transcript to detect the allele ratio was used alongside with the single-nucleotide polymorphisms in the IDS and LAMP genes for allele-specific expression (ASE) and the AR, RP2 and...