LASER SHOCK IMPRINTING OF METALLIC MEMBRANES TOWARD SOFT TEMPLATES AND ITS APPLICATIONS

Shengyu Jin (5929850)

25 June 2020

<p>Laser shock imprinting (LSI) is a novel fabrication technique capable of manufacturing various membrane materials. This top-down imprinting process can fabricate membranes in high precision, high throughput, and large scalability. It reveals a variety of applications ranging from electronics to photonics, which is beneficial from its reliable and precise modulation of micro/nanostructures. </p> <p> In this thesis, we firstly proposed and developed a cost-effective LSI process to manufacture hierarchical micro/nanostructured power generators. By combining the conventional soft lithography technique, LSI is well compatible with it to fabricate metal membranes towards soft templates. It is a significant progress from the originally-developed silicon wafer template layout because it effectively reduces the process cost by replacing sophisticatedly developed silicon wafers with low-cost photocurable polymers. In addition, the use of polymer expands the boundary limit of geometrical complexity from simple patterns to hierarchical structures, as a result, we successfully conducted LSI technology to fabricate biomimic leaf structures into metallic membranes with the help of soft SU-8 templates. These fabricated metallic membraned are used as water-driven triboelectric nanogenerators. In addition to the introduction of polymer template, we further developed a successive laser shock imprinting (SLSI) process to fabricate hierarchical nanostructures in a higher resolution. Typically, grating templates are collected via recycling blank discs and used as soft templates. Then multiple times of LSI process are conducted to manufacture membranes into complex nanostructures. The use of blank disc further reduces cost and increase process resolution. The highlight of this part of work is to feature the introduction of metallic thin films on disc template, which plays a significant role during this high strain rate imprinting process. Then, the imprinting mechanism was investigated through the finite element method to validate the experimental findings. Lastly, this soft template LSI process was applied to fabricate low dimensional materials such as nanowires (1D) and nanomembranes (2D), potentially introducing homogeneous and inhomogeneous strain field. Kelvin probe force microscopy was used to directly probe strain-induced changes. This soft-template LSI process reveals a new route of precisely fabricating low dimensional membranes into nanoelectronics systems. </p>

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Mechanical Engineering

Nanotechnology not elsewhere classified

Laser Shock Imprinting

Lithography

Soft Templates

The effects of effort and day of exposure on imprinting

Van Dyke, Jean Elizabeth

01 January 1974

24 pairs of newly-hatched Leghorn chicks were randomly divided into 3 groups. Ss in one group followed a moving object for 30 min on Day 1 of life; Ss in another group followed for 30 min on Day 2; Ss in the remaining group followed for 15 min on Day 1 and 15 min on Day 2. One S in each pair followed by his own effort, while the other S rode behind the object in a transparent box. On Day 4, Ss were tested for the duration of following of the object. No important differences among groups were observed. On Day 6, Ss were tested for ability to discriminate between the original and a novel object, and for following the original. Active Ss scored significantly higher than passive Ss on all Day 6 tests; Ss trained on Day 2 scored significantly higher on the following than Ss trained on Day 1. The results suggest that the ‘law of effort’ may apply more to discrimination than to recognition of the imprinting object.

Imprinting (Psychology)

Birds Behavior

Leghorns (Poultry) Behavior

Animal Sciences

Life Sciences

Poultry or Avian Science

Social and Behavioral Sciences

Effect of DNA methyltransferase 1 on transmission ratio distortion and epigenetic inheritance

Yang, Lanjian, 1976-

January 2008

No description available.

Inheritance Patterns -- genetics.

Mice, Inbred C57BL.

Crosses, Genetic.

Genomic Imprinting -- genetics.

Mice.

Short- and Long-Term Effects of Filial Imprinting on a Model Hen on the Emotional State of White Leghorn Chicks (Gallus gallus domesticus)

Åkerstedt, Lovisa

January 2023

In layer hen commercial production systems, chicks are not raised by hens and do therefore not receive any maternal care. In the wild, after hatching, chicks undergo filial imprinting where they create a social bond with a stimulus in their surrounding environment, usually the mother hen. Filial imprinting behaviors remain in chicks until adulthood. This bond and maternal care influence the emotional development of chicks. Here, I aimed to investigate short- and long-term effects of filial imprinting on a model hen, on the emotional state of White Leghorn chicks, hatched at Linköping University. To measure optimism, pessimism, and fear, a judgment bias test (JBT), an open field test (OFT), and a novel object test (NOT), was performed and replicated. Before the tests, half of the chicks were imprinted on a model hen, while the other half was not given such a model to imprint on. All chicks were weighed during the entire project. The hypotheses were that the imprinted chicks would be more optimistic in the JBT, show less fearful behavior in the OFT and NOT, and weigh more compared to the non-imprinted chicks. If these results would be found, imprinting could potentially be used to reduce stress in commercially hatched chicks, and thus improve their welfare. The results were inconsistent with all three hypotheses. This indicates that imprinting on a model hen, did not have a positive impact on the chicks’ emotional state. Further studies need to be performed to find methods to improve commercially hatched chicks’ emotional welfare.

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chick

cognition

emotional state

fear

filial imprinting

model hen

White Leghorn

Gallus gallus domesticus

Behavioral Sciences Biology

Etologi

Effects of sex ratio on ontogeny of sexual behavior and mating competence in male guppies, poecilia reticulata

Field, Kristin L.

29 September 2004

No description available.

developmental ecology

sex ratio

behavioral plasticity

phenotypic plasticity

cowbirds (Molothrus ater)

early social environment

imprinting

mate choice

social context

Empreinte parentale et Aide Médicale à la Procréation : evaluation de l’impact de différents facteurs sur la mise en place et/ou le maintien du marquage différentiel des gènes soumis à empreinte dans des ovocytes et des embryons humains issus de l’AMP / Imprinting and assisted reproduction : evaluation of the impact of assisted reproductive technologies on the establishment and maintenance of imprinting in human oocytes and preimplantation embryos

Khoueiry, Rita

22 December 2009

Les marqueurs épigénétiques, en particulier la méthylation de l’ADN des gènes soumis à empreinte parentale, sont sensibles aux changements environnementaux. Les techniques de l’aide médicalisée à la procréation (AMP) nécessitant la manipulation des gamètes et des embryons in vitro et dans la plupart des cas la stimulation hormonale de l’ovulation des patientes, peuvent interférer avec la reprogrammation et/ou le maintien de la méthylation des gènes soumis à empreinte. Afin d’évaluer ce risque nous avons analysé le profil de méthylation de KvDMR1, qui régule l’expression de KCNQ1OT1, dans des ovocytes humains mûris in vivo ou in vitro, provenant de patientes stimulées ou non. Nos résultats montrent que la mise en place de la méthylation au niveau de KvDMR1 se poursuit au cours de la maturation de l’ovocyte après reprise de la méiose, in vivo et in vitro et que la superovulation des patientes en AMP génère des ovocytes épigénétiquement immatures. Par ailleurs, l’étude de la méthylation de KvDMR1 et de H19 DMR (qui régule l’expression d’Igf2 et H19) dans des embryons issus d’ICSI, évolutifs ou présentant un défaut de développement, n’établit pas de lien entre les dérégulations de l’empreinte et l’arrêt du développement embryonnaire au stade blastocyste. / Epigenetic modifications, particularly DNA methylation of imprinted genes are sensible to environment. Techniques of assisted reproduction require in vitro manipulation of gamete and embryos and currently superovulation of patients. These technologies may interfere with eprogramming and maintenance of methylation at imprinted genes. To evaluate such a risk, we have determined the methylation profile of KvDMR1, the region that regulates KCNQ1OT1 imprinted gene, in human oocytes retrieved from stimulated or unstimulated cycles, at different phases of their maturation in vivo or in vitro. Our results show that the timing of establishment of the methylation profile of KvDMR1 covers the maturation phase of 199 oocyte growth, in vivo and in vitro, and that hyperstimulation likely recruits young follicles epigenetically immature. Analysis of the methylation profile of KvDMR1 and H19DMR (DMR of IGF2/H19) in ICSI embryos suggests that imprinting disorders are not responsible of embryo developmental failure prior the blastocyst stage

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Aide Médicale à la Procréation

Maturation in vitro

Épigénétique

Empreinte

Méthylation

Développement préimplantatoire

Embryon

Ovocyte

KCNQ1OT1

H19

Assisted Reproduction Technologies

In vivo maturation

Epigenetic

Imprinting

Methylation

Preimplantation development

Embryo

Oocyte

KCNQ1OT1

H19

Identification d’un réseau de gènes soumis à empreinte génomique parentale et son rôle dans le contrôle des transitions entre prolifération, quiescence et différenciation. / Identification of an imprinted gene network and its role in controlling transitions between proliferation, quiescence and differentiation.

Al Adhami, Hala

29 November 2012

L'empreinte génomique parentale est un mécanisme de régulation épigénétique conduisant à la répression d'un allèle d'un gène en fonction de son origine parentale. Ce mécanisme affecte un nombre restreint de gènes chez les mammifères métathériens et euthériens. Ces gènes, dits gènes soumis à empreinte (GSE), ont des fonctions moléculaires variées et sans lien apparent. Cependant, deux thèmes reviennent de manière récurrente dans leurs fonctions: le contrôle de la croissance embryonnaire et la tumorigenèse. Ma thèse a consisté à démontrer l'existence d'un lien fonctionnel entre les GSE. Nous montrons que les GSE s'inscrivent dans un même réseau de co-expression transcriptionnelle et qu'ils sont co-régulés dans différentes situations biologiques lors des transitions entre les différents états cellulaires. En effet, une induction coordonnée de la plupart des GSE a lieu lors des sorties du cycle cellulaire, réversibles (quiescence) ou non (différenciation). Les perturbations individuelles de l'expression de plusieurs GSE dans le modèle des pré-adipocytes 3T3-L1 confirment un rôle du réseau des GSE dans le contrôle des transitions entre prolifération, quiescence et différenciation. De plus, l'analyse des gènes bi-alléliques inclus dans le même réseau de co-régulation que les GSE montre un enrichissement en gènes de la matrice extracellulaire. La fonction associée à ce réseau serait donc le contrôle des transitions entre les différents états cellulaires, via le remodelage de la matrice extracellulaire. Pour conclure, outre l'identification d'une fonction commune aux GSE, nos résultats suggèrent un scénario pour le ciblage de ces gènes par l'empreinte génomique parentale au cours de l'évolution des mammifères. / Genomic imprinting is an epigenetic mechanism leading to the repression of one allele of a gene, depending on its parental origin. This mechanism affects a small number of genes in metatherian and eutherian mammals. These genes, named imprinted genes (IGs), display various molecular functions and thus seem unrelated. However, their alterations are frequently associated with the control of embryonic growth and tumorigenesis. My PhD project has consisted in demonstrating a functional link between IGs. We show that IGs are frequently co-expressed and belong to a common gene network. They are co-regulated in biological situations corresponding to the transitions between different cellular states. Coordinated induction of most IGs takes place at the outputs of the cell cycle. Loss and gain of function experiments of several IGs in the 3T3-L1 pre-adipocyte model demonstrate a role of the IG network in controlling transitions between cellular states (proliferation, quiescence and differentiation). In addition to IGs, this network also includes bi-allelic genes, with many extracellular matrix genes. Therefore, the function associated with the IG network could be the fine control of transitions between cellular states through a remodeling of the extracellular matrix.To conclude, in addition to the identification of a common cellular function for IGs, our results suggest a possible scenario for the targeting of these genes by parental genomic imprinting during mammalian evolution.

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Empreinte génomique parentale

Réseau génique

Méta-analyses

Quiescence

Matrice extracellulaire

Cycle cellulaire

Parental genomic imprinting

Gene network

Meta-analysis

Quiescence

Extracellular matrix

Cell cycle

Mutações inativadoras no gene MKRN3 são causa de puberdade precoce central familial / Inactivating mutations in the MKRN3 gene are cause of familial central precocious puberty

Macêdo, Francisca Delanie Bulcão de

26 April 2016

A maioria dos casos de puberdade precoce central (PPC) em meninas permanece idiopática. A hipótese de uma causa genética vem se fortalecendo após a descoberta de alguns genes associados a este fenótipo, sobretudo aqueles implicados com o sistema kisspeptina (KISS1 e KISS1R). Entretanto, apenas casos isolados de PPC foram relacionados à mutação na kisspeptina ou em seu receptor. Até recentemente, a maioria dos estudos genéticos em PPC buscava genes candidatos selecionados com base em modelos animais, análise genética de pacientes com hipogonadismo hipogonadotrófico, ou ainda, nos estudos de associação ampla do genoma. Neste trabalho, foi utilizado o sequenciamento exômico global, uma metodologia mais moderna de sequenciamento, para identificar variantes associadas ao fenótipo de PPC. Trinta e seis indivíduos com a forma de PPC familial (19 famílias) e 213 casos aparentemente esporádicos foram inicialmente selecionados. A forma familial foi definida pela presença de mais de um membro afetado na família. DNA genômico foi extraído dos leucócitos do sangue periférico de todos os pacientes. O estudo de sequenciamento exômico global realizado pela técnica ILLUMINA, em 40 membros de 15 famílias com PPC, identificou mutações inativadoras em um único gene, MKRN3, em cinco dessas famílias. Pesquisa de mutação no MKRN3 realizada por sequenciamento direto em duas famílias adicionais (quatro pacientes) identificou duas novas variantes nesse gene. O MKRN3 é um gene de um único éxon, localizado no cromossomo 15 em uma região crítica para a síndrome de Prader Willi. O gene MKRN3 sofre imprinting materno, sendo expresso apenas pelo alelo paterno. A descoberta de mutações em pacientes com PPC familial despertou o interesse para a pesquisa de mutações nesse gene em 213 pacientes com PPC aparentemente esporádica por meio de reação em cadeia de polimerase seguida de purificação enzimática e sequenciamento automático direto (Sanger). Três novas mutações e duas já anteriormente identificadas, incluindo quatro frameshifts e uma variante missense, foram encontradas, em heterozigose, em seis meninas não relacionadas. Todas as novas variantes identificadas estavam ausentes nos bancos de dados (1000 Genomes e Exome Variant Server). O estudo de segregação familial em três dessas meninas com PPC aparentemente esporádica e mutação no MKRN3 confirmou o padrão de herança autossômica dominante com penetrância completa e transmissão exclusiva pelo alelo paterno, demonstrando que esses casos eram, na verdade, também familiares. A maioria das mutações encontradas no MKRN3 era do tipo frameshift ou nonsense, levando a stop códons prematuros e proteínas truncadas e, portanto, confirmando a associação com o fenótipo. As duas mutações missenses (p.Arg365Ser e p.Phe417Ile) identificadas estavam localizadas em regiões de dedo ou anel de zinco, importantes para a função da proteína. Além disso, os estudos in silico dessas duas variantes demonstraram patogenicidade. Todos os pacientes com mutação no MKRN3 apresentavam características clínicas e hormonais típicas de ativação prematura do eixo reprodutivo. A mediana de idade de início da puberdade foi de 6 anos nas meninas (variando de 3 a 6,5) e 8 anos nos meninos (variando de 5,9 a 8,5). Tendo em vista o fenômeno de imprinting, análise de metilação foi também realizada em um subgrupo de 52 pacientes com PPC pela técnica de MS-MLPA, mas não foram encontradas alterações no padrão de metilação. Em conclusão, este trabalho identificou um novo gene associado ao fenótipo de PPC. Atualmente, mutações inativadoras no MKRN3 representam a causa genética mais comum de PPC familial (33%). O MKRN3 é o primeiro gene imprintado associado a distúrbios puberais em humanos. O mecanismo preciso de ação desse gene na regulação da secreção de GnRH necessita de estudos adicionais / Most cases of central precocious puberty (CPP) in girls remain idiopathic. The hypothesis of a genetic cause has been strengthened after the discovery of some genes associated with this phenotype, particularly those involved with the kisspeptin system (KISS1 and KISS1R). However, genetic defects in KISS1 and its receptor are rare and have been identified in only a few patients with CPP.over the past years. To date, most genetic studies in CPP was based mainly on a candidate gene approach, including genes selected in animal studies, human models of patients with hypogonadotropic hypogonadism or in genome wide association studies. In the present study, we used whole exome sequencing, a more advanced method of sequencing, to identify variants associated with CPP. Thirty-six patients with the familial form of CPP (19 families) and 213 apparently sporadic cases were initially selected. The familial form was defined by the presence of more than one member affected in the family. Genomic DNA was extracted from peripheral blood leukocytes in all patients. Whole exome sequencing performed by ILLUMINA technique in 40 members of 15 families with CPP, identified inactivating mutations in a single gene, MKRN3, in five out of these families. Analysis of MKRN3 mutations performed by automatic sequencing in two additional families (four patients) identified two novel mutations. MKRN3 is an introless gene located on chromosome 15, in the Prader Willi syndrome critical region, and it is expressed only by the paternal allele due to the maternal imprinting. Following the initial findings, we searched for MKRN3 mutations in 213 patients with apparently sporadic CPP using polymerase chain reaction followed by direct enzymatic purification and automated sequencing (Sanger). Three new mutations and two previously reported, including four frameshifts and one missense variant was identified in six unrelated girls with CPP. All variants were not described in the two databases (1000 Genomes and Exome Variant Server). The familial segregation analysis performed in three out of these girls with apparently sporadic CPP and MKRN3 mutations confirmed the autosomal dominant inheritance with complete penetrance and exclusive transmission through the paternal allele, revealing familial inheritance in apparently sporadic cases. Most of these MKRN3 mutations were frameshifts or nonsense, leading to premature stop codons and truncated proteins, thus demonstrating positive genotype- phenotype correlation. The two missense mutations (p.Arg365Ser and p.Phe417Ile) identified were located within zinc finger motifs, regions predicted to be essential for the protein function. Besides that, all missense mutations were predicted to be pathogenic by in silico analysis. All patients carrying MKRN3 mutations exhibited typical clinical and hormonal features of premature activation of the reproductive axis. The median age of puberty onset was 6.0 years in girls (ranging from 3.0 to 6.5) and 8.0 years in boys (ranging from 5.9 to 8.5). In view of the imprinting phenomenon, methylation analysis was also performed in a subgroup of 52 patients with CPP by MSMLPA technique, but no methylation abnormalities were detected. In conclusion, our work has identified a new gene associated with CPP. Currently, inactivating mutations in MKRN3 represent the most common genetic cause of familial CPP (33%). MKRN3 is the first imprinted gene associated with pubertal disorders in humans. However, its precise mechanism of action in the regulation of GnRH secretion needs further studies

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Gene MKRN3

Gene MKRN3

Impressão genômica

Mutação genética

Mutation genetic

Puberdade precoce/genética

Puberty precocious/genetics,

Análise de metilação global em pacientes com puberdade precoce central familial / Global methylation analysis of patients with familial central precocious puberty

Bessa, Danielle de Souza

17 August 2018

A idade normal para início da puberdade em meninas varia bastante, de 8 a 13 anos, e os genes envolvidos nesse controle são parcialmente conhecidos. Fatores ambientais, como alimentação e exposição a disruptores endócrinos, contribuem para essa variabilidade, de modo que genes modulados epigeneticamente podem justificar parte da complexidade desse processo. O termo epigenética se refere às modificações na expressão gênica que não são causadas por alterações na sequência do DNA. A metilação do DNA é o mecanismo epigenético mais bem estudado. Na última década surgiram evidências demonstrando a relação entre metilação do DNA e desenvolvimento puberal. Em fêmeas de roedores, a hipermetilação do DNA levou à puberdade precoce. Em humanos, a puberdade precoce central (PPC) familial causada por mutações nos genes MKRN3 e DLK1 é considerada um defeito do imprinting, fenômeno epigenético no qual apenas um dos alelos parentais é expresso, estando o outro metilado e inativo. Além disso, um conceito atual propõe que o início da puberdade requer a repressão epigenética de fatores inibidores do eixo gonadotrófico. Recentemente, genes zinc finger (ZNF) foram relacionados ao processo puberal, e muitos deles codificam repressores transcricionais. Neste trabalho, estudamos a metilação do DNA do sangue periférico de 10 pacientes do sexo feminino com PPC familial (casos índices) e 33 meninas com desenvolvimento puberal normal (15 pré-púberes e 18 púberes), usando a plataforma Human Methylation 450 BeadChip. Duas pacientes tinham PPC de causa genética (uma com mutação no MKRN3 e outra com deleção no DLK1) e oito tinham PPC idiopática, sem mutações identificadas pelo sequenciamento exômico global. Cento e vinte regiões diferencialmente metiladas foram identificadas entre as meninas saudáveis pré-púberes e púberes, estando 74% delas no cromossomo X. Apenas uma região mostrou-se hipometilada no grupo púbere e, de maneira importante, contém a região promotora do ZFP57, fator necessário para manutenção do imprinting. Uma vez que a hipermetilação nas regiões promotoras dos genes é relacionada à inibição transcricional, o achado de hipermetilação global do DNA na puberdade sugere que haja inibição de fatores inibidores do eixo gonadotrófico, o que resultaria no início do processo puberal. O receptor estrogênico destacou-se como um fator transcricional que se liga a sete genes diferencialmente metilados entre os controles pré-púberes e púberes. As pacientes com PPC apresentaram mais sítios CpG hipermetilados tanto na comparação com as meninas pré-púberes (81%) quanto púberes (89%). Há doze genes ZNF contendo sítios CpG hipermetilados na PPC. Não foram encontradas anormalidades de metilação nos genes MKRN3 e DLK1 nem em suas regiões regulatórias. Em conclusão, este estudo evidenciou hipermetilação global do DNA em meninas com puberdade normal e precoce, sugerindo que esse padrão é uma marca epigenética da puberdade. Pela primeira vez, mudanças no metiloma de pacientes com PPC foram descritas. Modificações na metilação de vários genes ZNF parecem compor a complexa rede de mecanismos que leva ao início da puberdade humana / Normal puberty initiation varies greatly among girls, from 8 to 13 years, and the genetic basis for its control is partially known. Environmental factors, such as nutrition and exposure to endocrine disruptors, contribute to this variance, and epigenetically modulated genes may justify some of the complexity observed in this process. Epigenetics refers to alterations in gene expression that are not caused by changes in DNA sequence itself. DNA methylation is the best studied epigenetic mechanism. In the last decade, evidence has emerged showing the relationship between DNA methylation and pubertal development. In female mice, DNA hypermethylation led to precocious puberty. In humans, familial central precocious puberty (CPP) caused by mutations in the MKRN3 and DLK1 genes is considered a disorder of imprinting, an epigenetic phenomenon in which only one parental allele is expressed, and the other allele is methylated and inactive. In addition, animal studies indicated that pubertal timing requires epigenetic repression of inhibitory factors of the gonadotrophic axis. Recently, zinc finger genes (ZNF) were related to pubertal development, many of which encode transcriptional repressors. In the present study, we analyzed the DNA methylation of peripheral blood samples from 10 female patients with familial CPP (index cases) and 33 girls with normal pubertal development (15 pre-pubertal and 18 pubertal), using the Human Methylation 450 BeadChip assay. Genetic CPP was diagnosed in two patients (one with a MKRN3 mutation and the other with a DLK1 deletion). The remaining eight cases with idiopathic CPP were previously evaluated by whole exome sequencing and no causative mutations were identified so far. We evidenced 120 differentially methylated regions between pre-pubertal and pubertal healthy girls, and 74% of them were located at the X chromosome. Only one genomic region was hypomethylated in the pubertal group. Of note, it contains the promoter region of ZFP57, an important factor for imprinting maintenance. As DNA hypermethylation in gene promoters is related to gene silencing, the finding of global DNA hypermethylation in puberty suggests inhibition of inhibitory factors of the hypothalamic-pituitary-gonadal axis that results in puberty onset. Importantly, the estrogen receptor was identified as a transcriptional factor that binds to seven differentially methylated genes associated with pubertal process. Patients with CPP exhibited more hypermethylated CpG sites compared to both pre-pubertal (81%) and pubertal (89%) controls. Twelve ZNF genes were recognized as having hypermethylated CpG sites in CPP. The methylation analyses of MKRN3 and DLK1 genes showed no abnormalities. In conclusion, this study revealed a widespread DNA hypermethylation in girls with normal and precocious puberty, suggesting that this pattern can be an epigenetic signature of puberty. For the first time, changes in the methylome of patients with CPP were described. We highlight that alterations in methylation levels of several ZNF genes may impact the onset of human puberty

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Dedos de zinco

DNA methylation, Genomic imprinting

Epigenética

Epigenomics

Impressão genômica

Metilação de DNA

Puberdade

Puberdade precoce

Puberty

Puberty precocious

Receptores estrogênicos

Receptors estrogen

Zinc fingers

Programmation métabolique par l’environnement périnatal et profils hypothalamiques des microARNs chez le rat / Metabolic programming by perinatal environment and hypothalamic microRNA profiles in rats

Benoit, Charlotte

20 November 2012

Les maladies métaboliques telles que l’obésité ou le diabète de type 2 sont multifactorielles et multigéniques. Ces dernières décennies, la prévalence de ces pathologies notamment chez les enfants et les jeunes adultes a drastiquement augmenté, désignant ainsi l’environnement comme un élément-clé de ces pathologies. Ainsi, un environnement métabolique et/ou endocrinien déséquilibré pendant les périodes de gestation et/ou lactation prédispose la descendance à certaines pathologies à l’âge adulte. Ces phénotypes sont souvent associés, dans l’hypothalamus, structure impliquée dans la régulation de l’homéostasie énergétique, à des modifications de l’expression d’ARNm ou de protéines. Les microARNs (miARNs), régulateurs post-transcriptionnels majeurs, apparaissent donc comme des candidats intéressants pour l’exploration des mécanismes moléculaires sous-tendant les dysfonctionnements hypothalamiques. Le but du ce travail de thèse a été de caractériser le phénotype ainsi que le profil hypothalamique d’expression des miARNs chez des rats adultes nés et/ou allaités dans deux contextes différents de programmation métabolique. Dans un premier temps, nous avons étudié les conséquences à long-terme du blocage de la leptine postnatale, hormone contrôlant la mise en place du métabolisme et l’établissement de connexions hypothalamiques. Les rats traités avec un antagoniste de la leptine présentent un surpoids quel que soit le régime (normal ou hyperlipidique). Ces animaux présentent des signes de résistance à l’insuline dès le sevrage. Leur profil hypothalamique d’expression des microARNs est modifié notamment en ce qui concerne l’expression de certains miARNs associés à l’insulino-résistance périphérique. Dans un second temps nous avons étudié l’impact d’un régime maternel hyperlipidique. Ce régime maternel induit un moindre poids chez la descendance dès le deuxième jour postnatal. A l’âge adulte, les mâles présentent une sensibilité normale à l’insuline et à la leptine et ne sont pas prédisposés au surpoids lorsqu’ils sont soumis à un régime hyperlipidique. Les femelles présentent le même phénotype associé à une meilleure tolérance au glucose. Nous avons étudié le profil d’expression des miARNs dans les noyaux arqué et paraventriculaire de l’hypothalamus des mâles. L’expression de certains miARNs abondants est modulée chez les animaux nés de mères soumises au régime hyperlipidique. Les travaux de cette thèse ouvrent la voie à une étude systématique des profils hypothalamiques d’expression des miARNs dans un contexte de programmations métaboliques diverses. / Epidemiological studies have demonstrated that the incidence of metabolic diseases in adults such as hypertension, insulin resistance, obesity and the metabolic syndrome is markedly increased when maternal nutrition is altered at critical periods of foetal development. Numerous studies in humans and rodents have demonstrated the importance of the perinatal environment in metabolic programming. Thus, a metabolic or endocrine unbalanced environment predisposes offspring to various metabolic diseases in adulthood. These phenotypes are often associated with changes in mRNA or protein expression in the hypothalamus, a central structure involved in the regulation of energy homeostasis. In this context, microRNAs (miRNAs) appear as attractive candidates for exploration of the molecular mechanisms underlying hypothalamic dysfunction observed during metabolic programming. The aim of my project was to characterize the phenotype and the hypothalamic profile of miRNAs in the adult offspring in two contexts of metabolic programming. First, we studied the long-term consequences of early postnatal leptin blockade, a hormone described to be involved in the establishment of metabolism and hypothalamic connections. Rats treated with a leptin antagonist exhibit overweight (under chow and high-fat diet) and are also subjected to insulin resistance. As signs of insulin resistance appeared as soon as weaning, we analyzed at this age by microarray the hypothalamic miRNAs expression profile which reveals modification of hypothalamic miRNA expression pattern including miRNAs previously linked to peripheral insulin-résistance. In the second part of my thesis, we have demonstrated that a maternal high-fat diet induced a lower weight in the offspring from the second postnatal day. In adulthood, these animals exhibit similar insulin and leptin sensitivities as compared to controls and are not predisposed to overweight when exposed to a high fat diet. This phenotype is associated with changes in the miRNA expression profile in arcuate and paraventricular hypothalamic nuclei. In conclusion, we show for the first time that metabolic programming is associated with altered hypothalamic expression of miRNAs, which could contribute, at least partially, to the establishment of the offspring phenotype.

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Programmation métabolique

Environnement périnatal

Empreinte maternelle

Régime hyperlipidique

Homéostasie énergétique

Leptine

MicroARN

Hypothalamus

Metabolic programming

Perinatal environment

Maternal imprinting

High-fat diet

Energy homeostasis

Leptin

MicroRNA

Hypothalamus