Identificação de SNPs em sítios CpG localizados em regiões genômicas relacionadas à produção em bovinos /

Maldonado, Mariângela Bueno Cordeiro

January 2017

Orientador: Flavia Lombardi Lopes / Banca: Silvia Helena Venturoli Perri / Banca: José Fernando Garcia / Banca: Ricardo da Fonseca / Banca: José bento Sterman Ferraz / Resumo: O objetivo desse estudo foi identificar polimorfismos de nucleotídeo único (SNPs) potencialmente sujeitos a controle epigenético exercido por metilação do DNA via seus envolvimentos na criação, remoção ou deslocamento de sítios CpG (meSNPs) e a partir de tal identificação criar um banco de dados para meSNPs, bem como determinar a possível associação desses marcadores com ilhas CpG (CGIs) e com o perfil metilacional de tecidos submetidos ao ensaio de recuperação de ilhas CpG metiladas combinado com plataformas de sequenciamento de nova geração (MIRA-seq) em bovinos. Usando as variantes anotadas para os SNPs identificados no Run5 do projeto 1000 Bull Genomes e a sequência genômica bovina de referência UMD3.1.1, identificamos e anotamos 12.836.763 meSNPs de acordo com o padrão de variação criado por cada SNP em um sítio CpG. Também analisamos a distribuição genômica desses meSNPs, sendo a maioria deles localizados em regiões intergênicas (68,00%) e intrônicas (26,32%). Globalmente, os meSNPs representam 22,53% dos 56.969.697 SNPs descritos na base de dados e 12,35% deles estão localizados em CGIs. Comparando o número observado com o número esperado de meSNPs nas CGIs e nos tecidos submetidos ao MIRA-seq, verificamos um enriquecimento médio (P<0,01) para meSNPs de 2,47 vezes em CGIs relaxadas e 1,90 vezes em CGIs rigorosas. Nos tecidos, o enriquecimento foi de 1,52 vezes em longissimus dorsi e 2,09 vezes em intestino delgado. Dez meSNPs com metilação diferencial, sendo 1 em longi... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The aim of this study was to identify single nucleotide polymorphisms (SNPs) potentially subject to epigenetic control exerted by DNA methylation via their involvement in creating, removing or displacement CpG sites (meSNPs) and from this identification create a database for meSNPs, as well as to determine its possible association with CpG islands (CGIs) and the methylation profile of tissues submitted to the methylated-CpG island recovery assay combined with next generation sequencing platforms (MIRA-seq) in cattle. Using the variant annotations for SNPs identified in Run5 of the 1000 bull genomes project and the UMD3.1.1 bovine reference genome sequence assembly, we identified and classified 12,836,763 meSNPs according to the pattern of variation caused at the CpG site. We have also analyzed the genomic distribution of the meSNPs, with the majority being located in intergenic regions (68.00%) and then in introns (26.32%) and the remainder distributed among proximal promoters (3.93%), coding regions (1.27%), untranslated regions (UTRs) (0.29%), non-coding RNAs (0.11%) and splice regions (0.08%). Overall, meSNPs represent 22.53% of 56,969,697 SNPs described in the database of which 12.35% are located in CGIs. Comparing the observed number with the expected number of meSNPs in the CGIs and tissues submitted to the MIRAseq we found a mean enrichment (P<0.01) for meSNPs of 2.47 times in the relaxed CGIs and 1.90 times in the strict CGIs. In the tissues the enrichment was of 1.52... (Complete abstract click electronic access below) / Doutor

Genoma.

Ilhas de CpG

Metilação de DNA.

Polimorfismo de nucleotídeo único.

Repressão epigenética

CpG islands

DNA methylation

Epigenetic repression

MDM2 as a chromatin modifier

Gerber, Sabrina

20 June 2021

No description available.

570

MDM2

P53

KDM2B

CpG islands

Gene regulation

Chromatin immunoprecipitation

Biologie (PPN619462639)

Understanding the role of CFP1 at CpG islands

Brown, David

January 2014

Vertebrate genomes are punctuated by CpG islands regions, which have an elevated frequency of CpG dinucleotides. CpG islands are associated with over 70% of mammalian promoters suggesting they may contribute to the regulation of transcription. However, despite being discovered over 30 years ago, the function of CpG islands is still not understood. Unlike the majority of the genome, CpG islands are resistant to DNA methylation. This provides a binding site for CFP1 which binds specifically to non-methylated DNA via its zinc-finger CXXC (zf-CXXC) domain. CFP1 is a subunit of the SET1 methyltransferase complex, and is thought to direct the activating histone modification H3K4me3 to CpG islands. Interestingly, CFP1 also contains a PHD domain which is proposed to bind the H3K4me3 mark, potentially producing a feedback loop between H3K4me3 and the SET1 complex. Although the structural basis for discrimination of non-methylated CpGs is known, it is not clear how zf-CXXC proteins distinguish CpG islands amongst the irregular nucleosomal landscape which exists within the nucleus. This thesis is focused on the role of CFP1 in the relationship between CpG islands, SET1 and H3K4me3. To address these questions, it was important to mechanistically dissect the contribution of the PHD and zf-CXXC domains. The proposal that the PHD domain of CFP1 binds selectively to H3K4me3 was confirmed by in vitro experiments, however this study demonstrates that the PHD domain is insufficient for stable interactions with chromatin. Using complementary genome-wide and live cell imaging approaches, the zf-CXXC domain shown to be required for PHD-dependent interactions. Genome-wide snapshots of binding interactions, together with spatial and temporal details, expose a surprising contribution of the SET1 complex to the nuclear mobility of CFP1, providing a new perspective on the role of CFP1 in H3K4 methylation.

572

Functional epigenetics identifies protein phosphatase-1 regulatory subunit genes as candidate tumor suppressors frequently silenced by promoter CpG methylation in multiple tumors. / CUHK electronic theses & dissertations collection

January 2010

Gene expression profiles obtained by means of semi-quantitative RT-PCR showed that both PPP1R1B and PPP1R3C were frequently silenced in multiple carcinomas. Bisulfite treated tumor DNA was subjected to Methylation-specific PCR (MSP) using primers flanking across the &sim;130bp CpG island of the promoter of the particular gene of interest. It was revealed that PPP1R1B and PPP1R3C gene silencing in the carcinoma cell lines were due to promoter CpG island hypermethylation. Such claim was further confirmed by bisulfite genomic sequencing (BGS). Treatment with 5' azacytidine and TSA restored PPP1R1B and PPP1R3C expression in carcinoma cells through demethylating the hypermethylated promoter. In terms of cancer growth inhibition, ectopic expression of PPP1R1B and PPP1R3C could significantly inhibit the proliferation of carcinoma cell lines by 40--50% and 50--60%, respectively, according to the result of anchorage-dependent colony formation assay. / Overall, we believed that PPP1R1B and PPP1R3C are the putative tumor suppressor genes in which their expression silencing through promoter CpG island hypermethylation may be strongly linked to the development of cancer. / Protein Phosphatase 1 regulatory subunits are a family of small molecules which define the substrate specificity and subcellular localization of protein phosphatase-1 upon their interactions. Downregulation of Protein Phosphatase 1 regulatory subunits were often associated with tumor initiation and progression, for example, ASPP family (PPP1R13A and PPP1R13B). In the present study, PPP1R1B and PPP1R3C were identified in which their tumor suppressor functions had been investigated. / Reduction in the level of p-ser473 Akt and p-ser552 beta-catenin could be observed when PPP1R1B expression was restored in respective carcinoma cells. In addition, the transcription activity of AP-1 decreased in the presence of full-length PPP1R1B expression as determined by Dual-Luciferase reporter assay system. Ectopic expression of PPP1R3C increased the amount of inactive pSer9-GSK-3beta as shown in the western blot analysis and a concomitant increased in p53 level was observed in colorectal carcinoma HCT116 cells. Transcription activity of NF-kappaB in HCT116 cells was increased but decreased in KYSE150 cells (ESCC) in the presence of PPP1R3C expression. Subcellular localization study using the GFP-fusion protein revealed that PPP1R1B protein was distributed throughout the cytoplasm while PPP1R3C protein was mainly localized around the nuclear membrane. / Leung, Ching Hei. / Adviser: Tak Cheung Chan. / Source: Dissertation Abstracts International, Volume: 73-01, Section: B, page: . / Thesis (Ph.D.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references (leaves 160-183). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.

Antioncogenes

Cancer--Genetic aspects

Nucleotide sequence

Phosphoprotein phosphatases

CpG Islands--physiology

Genes, Tumor Suppressor

Neoplasms--genetics

Protein Phosphatase 1--genetics

Identificação de SNPs em sítios CpG localizados em regiões genômicas relacionadas à produção em bovinos / Identification of SNPs in CpG sites located in genomic regions related to production in cattle

Maldonado, Mariângela Bueno Cordeiro [UNESP]

22 August 2017

Submitted by Mariângela Bueno Cordeiro Maldonado null (maribuenocordeiro@hotmail.com) on 2017-09-01T02:02:20Z No. of bitstreams: 1 TESE DE DOUTORADO 2017 - Mariangela Maldonado .pdf: 1446039 bytes, checksum: 2e08a41374d1ed14783e9142f58bdec8 (MD5) / Approved for entry into archive by LUIZA DE MENEZES ROMANETTO (luizamenezes@reitoria.unesp.br) on 2017-09-01T13:59:09Z (GMT) No. of bitstreams: 1 maldonado_mbc_dr_araca.pdf: 1446039 bytes, checksum: 2e08a41374d1ed14783e9142f58bdec8 (MD5) / Made available in DSpace on 2017-09-01T13:59:09Z (GMT). No. of bitstreams: 1 maldonado_mbc_dr_araca.pdf: 1446039 bytes, checksum: 2e08a41374d1ed14783e9142f58bdec8 (MD5) Previous issue date: 2017-08-22 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / O objetivo desse estudo foi identificar polimorfismos de nucleotídeo único (SNPs) potencialmente sujeitos a controle epigenético exercido por metilação do DNA via seus envolvimentos na criação, remoção ou deslocamento de sítios CpG (meSNPs) e a partir de tal identificação criar um banco de dados para meSNPs, bem como determinar a possível associação desses marcadores com ilhas CpG (CGIs) e com o perfil metilacional de tecidos submetidos ao ensaio de recuperação de ilhas CpG metiladas combinado com plataformas de sequenciamento de nova geração (MIRA-seq) em bovinos. Usando as variantes anotadas para os SNPs identificados no Run5 do projeto 1000 Bull Genomes e a sequência genômica bovina de referência UMD3.1.1, identificamos e anotamos 12.836.763 meSNPs de acordo com o padrão de variação criado por cada SNP em um sítio CpG. Também analisamos a distribuição genômica desses meSNPs, sendo a maioria deles localizados em regiões intergênicas (68,00%) e intrônicas (26,32%). Globalmente, os meSNPs representam 22,53% dos 56.969.697 SNPs descritos na base de dados e 12,35% deles estão localizados em CGIs. Comparando o número observado com o número esperado de meSNPs nas CGIs e nos tecidos submetidos ao MIRA-seq, verificamos um enriquecimento médio (P<0,01) para meSNPs de 2,47 vezes em CGIs relaxadas e 1,90 vezes em CGIs rigorosas. Nos tecidos, o enriquecimento foi de 1,52 vezes em longissimus dorsi e 2,09 vezes em intestino delgado. Dez meSNPs com metilação diferencial, sendo 1 em longissimus dorsi e 9 em intestino delgado, causaram uma alteração na sequência genômica, a qual está associada ao fenótipo de eficiência alimentar em bovinos. / The aim of this study was to identify single nucleotide polymorphisms (SNPs) potentially subject to epigenetic control exerted by DNA methylation via their involvement in creating, removing or displacement CpG sites (meSNPs) and from this identification create a database for meSNPs, as well as to determine its possible association with CpG islands (CGIs) and the methylation profile of tissues submitted to the methylated-CpG island recovery assay combined with next generation sequencing platforms (MIRA-seq) in cattle. Using the variant annotations for SNPs identified in Run5 of the 1000 bull genomes project and the UMD3.1.1 bovine reference genome sequence assembly, we identified and classified 12,836,763 meSNPs according to the pattern of variation caused at the CpG site. We have also analyzed the genomic distribution of the meSNPs, with the majority being located in intergenic regions (68.00%) and then in introns (26.32%) and the remainder distributed among proximal promoters (3.93%), coding regions (1.27%), untranslated regions (UTRs) (0.29%), non-coding RNAs (0.11%) and splice regions (0.08%). Overall, meSNPs represent 22.53% of 56,969,697 SNPs described in the database of which 12.35% are located in CGIs. Comparing the observed number with the expected number of meSNPs in the CGIs and tissues submitted to the MIRAseq we found a mean enrichment (P<0.01) for meSNPs of 2.47 times in the relaxed CGIs and 1.90 times in the strict CGIs. In the tissues the enrichment was of 1.52 times in ribeye and 2.09 times in small intestine. Ten meSNPs, differing in methylation status, 1 in ribeye and 9 in small intestine, caused an alteration in the genomic sequence which is associated with a feed efficiency phenotype in cattle. / FAPESP: 2015/20557-5 / FAPESP: 2016/07584-6

Genoma

Ilhas de CpG

Metilação de DNA

Polimorfismo de nucleotídeo único

Repressão epigenética

CpG islands

DNA methylation

Epigenetic repression

Genome

Single nucleotide polymorphism

Analysing and predicting differences between methylated and unmethylated DNA sequence features

Ali, Isse

January 2015

DNA methylation is involved in various biological phenomena, and its dysregulation has been demonstrated as being correlated with a number of human disease processes, including cancers, autism, and autoimmune, mental health and neuro-degenerative ones. It has become important and useful in characterising and modelling these biological phenomena in or-der to understand the mechanism of such occurrences, in relation to both health and disease. An attempt has previously been made to map DNA methylation across human tissues, however, the means of distinguishing between methylated, unmethylated and differentially-methylated groups using DNA sequence features remains unclear. The aim of this study is therefore to: firstly, investigate DNA methylation classes and predict these based on DNA sequence features; secondly, to further identify methylation-associated DNA sequence features, and distinguish methylation differences between males and females in relation to both healthy and diseased, sta-tuses. This research is conducted in relation to three samples within nine biological feature sub-sets extracted from DNA sequence patterns (Human genome database). Two samples contain classes (methylated, unmethy-lated and differentially-methylated) within a total of 642 samples with 3,809 attributes driven from four human chromosomes, i.e. chromosomes 6, 20, 21 and 22, and the third sample contains all human chromosomes, which encompasses 1628 individuals, and then 1,505 CpG loci (features) were extracted by using Hierarchical clustering (a process Heatmap), along with pair correlation distance and then applied feature selection methods. From this analysis, author extract 47 features associated with gender and age, with 17 revealing significant methylation differences between males and females. Methylation classes prediction were applied a K-nearest Neighbour classifier, combined with a ten-fold cross- validation, since to some data were severely imbalanced (i.e., existed in sub-classes), and it has been established that direct analysis in machine-learning is biased towards the majority class. Hence, author propose a Modified- Leave-One-Out (MLOO) cross-validation and AdaBoost methods to tackle these issues, with the aim of compositing a balanced outcome and limiting the bias in-terference from inter-differences of the classes involved, which has provided potential predictive accuracies between 75% and 100%, based on the DNA sequence context.

572.8

Évolution des îlots CpG chez les primates / Evolution of CpG islands in Primates

Guillet-Renard, Claire

07 October 2009

Cette thèse a pour l’objet l’étude des pressions de sélection qui s’appliquent sur les îlots CpG, courtes séquences génomiques qui échappent à la méthylation chez les mammifères. Nous avons tout d’abord étudié les caractéristiques génomiques des îlots CpG, notamment leurs liens avec l’initiation de transcription des gènes et les origines de réplication de l’ADN, en utilisant des jeux de données récemment publiés. Nous avons ensuite déterminé si les caractéristiques de séquence des îlots CpG (richesse en dinucléotides CpG et richesse en GC) étaient sous pression de sélection et pouvaient jouer un rôle dans les fonctions des îlots CpG. Nous avons montré que la richesse relative en dinucléotides CpG des îlots CpG résulte uniquement de la faible méthylation de ces séquences. De plus, la richesse en bases GC des îlots CpG n’est pas soumise à pression de sélection mais semble résulter d’un mécanisme neutre, la conversion génique biaisée vers GC. Nous discutons également du devenir des îlots CpG chez les primates, qui et avons montré que si le taux de GC de ces séquences est en train de diminuer, la richesse relative en CpG quant à elle reste stable / This thesis analyses selective pressures applying on CpG islands, short sequences which escape methylation in mammalian genomes. We first studied genomic characteristics of CpG islands. We namely studied their relationships with gene transcription start, and with DNA replication origins, using recently published data. We then determined wether base peculiar composition of CpG islands (high number of CpG dinucleotides, high GC content) may be under (negative or positive) selective pressures, and thus play a role in their function, or not. We showed that the relative CpG-richness of CpG islands is the mere consequence of the low methylation of these genomic regions. Moreover, we showed that the high GC content of CpG islands is not under selective pressures, and seem to result from a neutral mechanism, biased gene conversion toward GC. We also discussed the future of CpG islands and primates. We showed that the GC content of CpG islands is decreasing, while the relative CpG content remains constant

Ilots CpG

Méthylation de l' ADN

Pression de sélection

Conversion génique biaisée

Initiation de transcription

Réplication de l’ADN

Primates

CpG islands

DNA methylation

Selective pressures

Biased gene conversion

Transcription start

DNA replication

Primates

576.5

Evolutionary usage and developmental roles of vertebrate non-methylated DNA

Long, Hannah Katherine

January 2014

Vertebrate genomes exhibit global methylation of cytosine residues where they occur in a cytosine-guanine dinucleotide (CpG) context and this epigenetic mark is generally thought to be repressive to transcription. Punctuating this pervasive DNA methylation landscape are short, contiguous regions of non-methylated DNA which are found at two thirds of mammalian gene promoters. These non-methylated regions exhibit CpG content close to expected levels as they escape the depletion of CpGs observed across the methylated fraction of the genome. The unique nucleotide properties of these CpG island (CGI) regions enable their identification by computational prediction in mammalian genomes. Owing to a lack of high-resolution genome-wide DNA methylation profiles in non-mammalian species, these CGI predictions have often been used as a proxy for non-methylated DNA in these organisms. In contrast to mammals, CGI predictions in cold-blooded vertebrates rarely coincide with gene promoters, leading to the belief that CGls are significantly divergent between vertebrate species, and that unique promoter-associated features may have been acquired during warmblooded vertebrate evolution. This thesis is primarily concerned with the location, establishment and biological function of non-methylated islands of DNA in vertebrate genomes. To experimentally determine genome-wide profiles of non-methylated DNA, a novel biochemical technique was established called biotinylated ZF-CxxC affinity purification (Bio-CAP), and development of this method is discussed in Chapter 3. Experimental analysis of non-methylated DNA profiles in this thesis initially addresses two main questions: (1) 'How does the non-methylated DNA landscape compare genome-wide for seven vertebrates considering distinct tissue types and developmental stages?' (2) 'How are vertebrate non-methylated regions of DNA defined and interpreted in the nuclear environment?' To address the first question, non-methylated DNA was profiled by Bio-CAP sequencing across the genomes of seven diverse vertebrate species, representing all major branch points of vertebrate evolution, and the results are discussed in Chapters 4 and S. Contrary to previously held dogma, experimentally determined nonmethylated islands of DNA (NMls) constitute an ancient epigenetic feature of vertebrate gene regulatory elements. However, despite having numerous high-resolution maps of vertebrate non-methylated DNA, the means by which NMls are identified and maintained in the nuclear environment remains poorly understood. To address the second question and identify features which determine the methylation state of DNA, exogenous DNA sequences were introduced into mouse embryonic stem (ES) c~.II~. Non-methylated DNA was profiled by Bio-CAP sequencing to investigate how different features, such as sequence-specific binding motifs, chromatin architecture and nucleotide composition of a given DNA sequence impact local DNA methylation patterns. Interestingly, the majority of exogenous promoters were appropriately non-methylated in mouse ES cells, germline and somatic cells suggesting that gene promoters have retained strong signals for the nonmethylated state across millions of years of evolution (discussed in Chapter 6). During mouse embryogenesis, genome-scale DNA demethylation and remethylation events occur to remodel the epigenetic landscape and loss of DNA methylation during this time leads to embryonic lethality. To investigate the biological function of non-methylated DNA, the third question addressed in this thesis is (3) 'What is the developmental importance of non-methylated islands of DNA during vertebrate embryogenesis?' To investigate this, members of the ZF-CxxC domain-containing family of chromatin modifiers were ablated in zebrafish embryos to perturb the chromatin landscape at NMls, and therefore interfere with their function during early development (Chapter 7). Early embryonic development and patterning was disrupted in knockdown embryos, suggesting that interpretation of non-methylated DNA and placement of chromatin modifications at NMls is essential for normal zebrafish embryogenesis. Together this work sheds light on the evolutionary origins of NMls, the mechanisms involved in the recognition and establishment of nonmethylated loci and provides an insight into the function of non-methylated DNA during early embryonic development.

572.8

Restrição no consumo de sódio durante a gestação é responsável pelo baixo peso ao nascimento e pela resistência à insulina da prole na idade adulta: estudo do mecanismo epigenético por metilação do DNA / Sodium intake restriction during pregnancy is responsible for low birth weight and the insulin resistance of offspring in adulthood: a study of epigenetic mechanism by DNA methylation

Siqueira, Flavia Ramos de

14 May 2014

Sabe-se que algumas alterações nutricionais maternas durante o período perinatal estão associadas com doenças metabólicas na vida adulta das proles, tais como diabetes melito tipo 2, resistência à insulina, obesidade e hipertensão arterial. O período da gestação em que estas alterações nutricionais influenciam a prole na idade adulta ainda não está elucidado. Modificações epigenéticas têm sido propostas como mecanismos responsáveis por estas desordens metabólicas. Ratas Wistar de doze semanas de idade foram alimentadas com dieta com conteúdo baixo (HO - 0,15% NaCl) ou normal (NR - 1,3% NaCl) de sódio desde o primeiro dia de gestação até o nascimento da prole ou HO durante a primeira (HO10) ou segunda (HO20) metade da gestação. O peso corpóreo e a ingestão de água e ração foram avaliados semanalmente durante a gestação. Teste de tolerância à insulina (ITT) e à glicose (GTT) e HOMA-IR foram realizados nas proles adultas. Expressão gênica por qRT-PCR e metilação do DNA na região promotora dos genes foram mapeadas utilizando tratamento com bissulfito de sódio e avaliadas por pirosequenciamento. O ganho de peso materno foi menor no HO e HO20 na terceira semana de gestação em comparação com NR e HO10. O peso ao nascimento da prole foi menor em machos e fêmeas dos grupos HO e HO20 em relação ao NR e HO10. O HOMA-IR foi maior nos machos com 12 semanas de idade do grupo HO em comparação com NR e com 20 semanas de idade do grupo HO10 em comparação com NR e HO20. Nas fêmeas com 12 semanas de idade o HOMA-IR foi maior no HO10 comparado com HO. Os níveis de insulina no soro foram maiores tanto nos machos com 20 semanas de idade do grupo HO10 comparado com NR quanto nas fêmeas com 12 semanas de idade do grupo HO10 comparado com HO. A área sob a curva do GTT indicou intolerância à glicose nos machos do grupo HO. A porcentagem de metilação das ilhas CpG no promotor dos genes de Igf1, Igf1r, Ins1, Ins2 e Insr no fígado de machos e fêmeas neonatais e no fígado, tecido adiposo branco e músculo em machos com 20 semanas de idade foi influenciada pela baixa ingestão de sal durante a gestação. Nenhuma destas alterações foi identificada nas fêmeas com 20 semanas de idade. Em conclusão, a baixa ingestão de sal na segunda metade da gestação é responsável pelo baixo peso ao nascimento em ambos os sexos. A intolerância à glicose observada na prole adulta ocorreu somente se a dieta hipossódica é dada durante a gestação inteira. Por outro lado, a resistência à insulina em resposta ao consumo de dieta hipossódica durante a gestação está relacionada com o momento em que ocorre este insulto e com o envelhecimento da prole. Também foi observado que alterações na metilação do promotor do gene Igf1 está correlacionado com o baixo peso ao nascimento em resposta a ingestão de dieta hipossódica durante a gestação / It is known that some maternal nutritional alterations during pregnancy are associated with metabolic disorders in adult offspring, such as insulin resistance, type 2 diabetes mellitus, obesity and arterial hypertension. The period of pregnancy in which these nutritional alterations influence adult offspring remains uncertain. Epigenetic changes are proposed to underlie these metabolic disorders. Twelve-week-old female Wistar rats were fed a low-salt (LS - 0.15% NaCl) or normal-salt (NS - 1.3% NaCl) diet since the first day of gestation until delivery or LS during the first (LS10) or second (LS20) half of gestation. Body weight, food and water intake were weekly evaluated during gestation. Blood glucose, insulin (ITT) and glucose (GTT) tolerance tests, HOMA-IR were performed in adult offspring. Gene expression and DNA methylation were mapped using bisulfite treatment evaluated by pyrosequencing in the male and female neonates and adult offspring. Weight gain was lower in LS and LS20 dams than in NS and LS10 dams in the third week of pregnancy. Birth weights were lower in male and female LS20 and LS rats compared with NS and LS10 neonates. HOMA-IR was higher in 12-week-old LS males compared with NS and in 20-week-old male LS10 rats compared with NS and LS20 rats. In 12-week-old LS10 females, HOMA-IR was higher than in LS. Serum insulin levels were higher in 20 week-old LS10 male compared with NS rats and in 12-week-old LS10 female compared to LS rats. The area under the curve of GTT indicated glucose intolerance in 12- and 20-week-old LS male. Methylation of CpG islands of the Insr, Igf1, Igf1r, Ins1 and Ins2 genes in liver in neonates male and female offspring and liver, white adipose tissue and muscle in 20-week-old male offspring were influenced by low-salt intake during pregnancy. None of these alterations was identified in 20-week-old females. In conclusion, low-salt diet consumption in the second half of pregnancy can result in low birth weights in the males and females offspring. Glucose intolerance observed in adult offspring occurred only if low salt intake was given throughout pregnancy. However, insulin resistance in response to low salt intake during pregnancy is related to the time at which this insult occurs and to the age of the offspring. Alterations in the DNA methylation of Igf1 were observed to be correlated with low birth weight in response to low salt feeding during pregnancy

Baixo peso ao nascer

CpG Islands

Dieta hipossódica

DNA methylation

Epigênese genética

Epigeneses genetic

Expressão gênica

Fetal programming

Gene expression

Glucose intolerance

Ilhas de CpG

Insulin resistance

Insulin-like growth factor 1

Intolerância à glicose

Low birth weight

Low sodium diet

Metilação do DNA

Programação fetal

Ratos Wistar

Rats Wistar

Resistência à insulina

Restrição no consumo de sódio durante a gestação é responsável pelo baixo peso ao nascimento e pela resistência à insulina da prole na idade adulta: estudo do mecanismo epigenético por metilação do DNA / Sodium intake restriction during pregnancy is responsible for low birth weight and the insulin resistance of offspring in adulthood: a study of epigenetic mechanism by DNA methylation

Flavia Ramos de Siqueira

14 May 2014

Sabe-se que algumas alterações nutricionais maternas durante o período perinatal estão associadas com doenças metabólicas na vida adulta das proles, tais como diabetes melito tipo 2, resistência à insulina, obesidade e hipertensão arterial. O período da gestação em que estas alterações nutricionais influenciam a prole na idade adulta ainda não está elucidado. Modificações epigenéticas têm sido propostas como mecanismos responsáveis por estas desordens metabólicas. Ratas Wistar de doze semanas de idade foram alimentadas com dieta com conteúdo baixo (HO - 0,15% NaCl) ou normal (NR - 1,3% NaCl) de sódio desde o primeiro dia de gestação até o nascimento da prole ou HO durante a primeira (HO10) ou segunda (HO20) metade da gestação. O peso corpóreo e a ingestão de água e ração foram avaliados semanalmente durante a gestação. Teste de tolerância à insulina (ITT) e à glicose (GTT) e HOMA-IR foram realizados nas proles adultas. Expressão gênica por qRT-PCR e metilação do DNA na região promotora dos genes foram mapeadas utilizando tratamento com bissulfito de sódio e avaliadas por pirosequenciamento. O ganho de peso materno foi menor no HO e HO20 na terceira semana de gestação em comparação com NR e HO10. O peso ao nascimento da prole foi menor em machos e fêmeas dos grupos HO e HO20 em relação ao NR e HO10. O HOMA-IR foi maior nos machos com 12 semanas de idade do grupo HO em comparação com NR e com 20 semanas de idade do grupo HO10 em comparação com NR e HO20. Nas fêmeas com 12 semanas de idade o HOMA-IR foi maior no HO10 comparado com HO. Os níveis de insulina no soro foram maiores tanto nos machos com 20 semanas de idade do grupo HO10 comparado com NR quanto nas fêmeas com 12 semanas de idade do grupo HO10 comparado com HO. A área sob a curva do GTT indicou intolerância à glicose nos machos do grupo HO. A porcentagem de metilação das ilhas CpG no promotor dos genes de Igf1, Igf1r, Ins1, Ins2 e Insr no fígado de machos e fêmeas neonatais e no fígado, tecido adiposo branco e músculo em machos com 20 semanas de idade foi influenciada pela baixa ingestão de sal durante a gestação. Nenhuma destas alterações foi identificada nas fêmeas com 20 semanas de idade. Em conclusão, a baixa ingestão de sal na segunda metade da gestação é responsável pelo baixo peso ao nascimento em ambos os sexos. A intolerância à glicose observada na prole adulta ocorreu somente se a dieta hipossódica é dada durante a gestação inteira. Por outro lado, a resistência à insulina em resposta ao consumo de dieta hipossódica durante a gestação está relacionada com o momento em que ocorre este insulto e com o envelhecimento da prole. Também foi observado que alterações na metilação do promotor do gene Igf1 está correlacionado com o baixo peso ao nascimento em resposta a ingestão de dieta hipossódica durante a gestação / It is known that some maternal nutritional alterations during pregnancy are associated with metabolic disorders in adult offspring, such as insulin resistance, type 2 diabetes mellitus, obesity and arterial hypertension. The period of pregnancy in which these nutritional alterations influence adult offspring remains uncertain. Epigenetic changes are proposed to underlie these metabolic disorders. Twelve-week-old female Wistar rats were fed a low-salt (LS - 0.15% NaCl) or normal-salt (NS - 1.3% NaCl) diet since the first day of gestation until delivery or LS during the first (LS10) or second (LS20) half of gestation. Body weight, food and water intake were weekly evaluated during gestation. Blood glucose, insulin (ITT) and glucose (GTT) tolerance tests, HOMA-IR were performed in adult offspring. Gene expression and DNA methylation were mapped using bisulfite treatment evaluated by pyrosequencing in the male and female neonates and adult offspring. Weight gain was lower in LS and LS20 dams than in NS and LS10 dams in the third week of pregnancy. Birth weights were lower in male and female LS20 and LS rats compared with NS and LS10 neonates. HOMA-IR was higher in 12-week-old LS males compared with NS and in 20-week-old male LS10 rats compared with NS and LS20 rats. In 12-week-old LS10 females, HOMA-IR was higher than in LS. Serum insulin levels were higher in 20 week-old LS10 male compared with NS rats and in 12-week-old LS10 female compared to LS rats. The area under the curve of GTT indicated glucose intolerance in 12- and 20-week-old LS male. Methylation of CpG islands of the Insr, Igf1, Igf1r, Ins1 and Ins2 genes in liver in neonates male and female offspring and liver, white adipose tissue and muscle in 20-week-old male offspring were influenced by low-salt intake during pregnancy. None of these alterations was identified in 20-week-old females. In conclusion, low-salt diet consumption in the second half of pregnancy can result in low birth weights in the males and females offspring. Glucose intolerance observed in adult offspring occurred only if low salt intake was given throughout pregnancy. However, insulin resistance in response to low salt intake during pregnancy is related to the time at which this insult occurs and to the age of the offspring. Alterations in the DNA methylation of Igf1 were observed to be correlated with low birth weight in response to low salt feeding during pregnancy

Baixo peso ao nascer

Dieta hipossódica

Epigênese genética

Expressão gênica

Ilhas de CpG

Intolerância à glicose

Metilação do DNA

Programação fetal

Ratos Wistar

Resistência à insulina

CpG Islands

DNA methylation

Epigeneses genetic

Fetal programming

Gene expression

Glucose intolerance

Insulin resistance

Insulin-like growth factor 1

Low birth weight

Low sodium diet

Rats Wistar