Trisomy 21 alters DNA methylation in parent-of-origin-dependent and independent manners

The supernumerary chromosome 21 in Down syndrome differentially affects the methylation statuses at CpG dinucleotide sites and creates genome-wide transcriptional dysregulation of parental alleles, ultimately causing diverse pathologies. At present, it is unknown whether those effects are dependent or independent of the parental origin of the nondis-joined chromosome 21. Linkage analysis is a standard method for the determination of the parental origin of this aneuploidy, although it is inadequate in cases with deficiency of samples from the progenitors. Here, we assessed the reliability of the epigenetic 5(m)CpG imprints resulting in the maternally (oocyte)-derived allele methylation at a differentially methylated region (DMR) of the candidate imprinted WRB gene for asserting the parental origin of chromosome 21. We developed a methylation-sensitive restriction enzyme-specific PCR assay, based on the WRB DMR, across single nucleotide polymorphisms (SNPs) to examine the methylation statuses in the parental alleles. In genomic DNA from blood cells of either disomic or trisomic subjects, the maternal alleles were consistently methylated, while the paternal alleles were unmethylated. However, the supernumerary chromosome 21 did alter the methylation patterns at the RUNX1 (chromosome 21) and TMEM131 (chromosome 2) CpG sites in a parent-of-origin-independent manner. To evaluate the 5(m)CpG imprints, we conducted a computational comparative epigenomic analysis of transcriptome RNA sequencing (RNA-Seq) and histone modification expression patterns. We found allele fractions consistent with the transcriptional biallelic expression of WRB and ten neighboring genes, despite the similarities in the confluence of both a 17-histone modification activation backbone module and a 5-histone modification repressive module between the WRB DMR and the DMRs of six imprinted genes. We concluded that the maternally inherited 5(m)CpG imprints at the WRB DMR are uncoupled from the parental allele expression of WRB and ten neighboring genes in several tissues and that trisomy 21 alters DNA methylation in parent-of-origin-dependent and -independent manners

SARS-CoV-2 introductions and early dynamics of the epidemic in Portugal

Genomic surveillance of SARS-CoV-2 in Portugal was rapidly implemented by the National Institute of Health in the early stages of the COVID-19 epidemic, in collaboration with more than 50 laboratories distributed nationwide. Methods By applying recent phylodynamic models that allow integration of individual-based travel history, we reconstructed and characterized the spatio-temporal dynamics of SARSCoV-2 introductions and early dissemination in Portugal. Results We detected at least 277 independent SARS-CoV-2 introductions, mostly from European countries (namely the United Kingdom, Spain, France, Italy, and Switzerland), which were consistent with the countries with the highest connectivity with Portugal. Although most introductions were estimated to have occurred during early March 2020, it is likely that SARS-CoV-2 was silently circulating in Portugal throughout February, before the first cases were confirmed. Conclusions Here we conclude that the earlier implementation of measures could have minimized the number of introductions and subsequent virus expansion in Portugal. This study lays the foundation for genomic epidemiology of SARS-CoV-2 in Portugal, and highlights the need for systematic and geographically-representative genomic surveillance.We gratefully acknowledge to Sara Hill and Nuno Faria (University of Oxford) and Joshua Quick and Nick Loman (University of Birmingham) for kindly providing us with the initial sets of Artic Network primers for NGS; Rafael Mamede (MRamirez team, IMM, Lisbon) for developing and sharing a bioinformatics script for sequence curation (https://github.com/rfm-targa/BioinfUtils); Philippe Lemey (KU Leuven) for providing guidance on the implementation of the phylodynamic models; Joshua L. Cherry (National Center for Biotechnology Information, National Library of Medicine, National Institutes of Health) for providing guidance with the subsampling strategies; and all authors, originating and submitting laboratories who have contributed genome data on GISAID (https://www.gisaid.org/) on which part of this research is based. The opinions expressed in this article are those of the authors and do not reflect the view of the National Institutes of Health, the Department of Health and Human Services, or the United States government. This study is co-funded by Fundação para a Ciência e Tecnologia and Agência de Investigação Clínica e Inovação Biomédica (234_596874175) on behalf of the Research 4 COVID-19 call. Some infrastructural resources used in this study come from the GenomePT project (POCI-01-0145-FEDER-022184), supported by COMPETE 2020 - Operational Programme for Competitiveness and Internationalisation (POCI), Lisboa Portugal Regional Operational Programme (Lisboa2020), Algarve Portugal Regional Operational Programme (CRESC Algarve2020), under the PORTUGAL 2020 Partnership Agreement, through the European Regional Development Fund (ERDF), and by Fundação para a Ciência e a Tecnologia (FCT).info:eu-repo/semantics/publishedVersio

Uniparental disomy and somatic mosaicism: mechanisms for epigenetic deregulation of genomic imprinting

O imprinting genômico é um processo regulado epigeneticamente que faz com que os alelos sejam expressos de acordo com a sua origem parental. No cromossomo 11 (11p15.5), existem duas regiões controladoras de imprinting (ICR1 e ICR2), que controlam a expressão de genes marcados (imprinted). Os padrões de metilação dessas regiões podem ser alterados pela dissomia uniparental (DUP), que ocorre quando parte de ou um cromossomo inteiro do mesmo par de homólogos é herdado de somente um genitor. Erros mitóticos podem gerar mosaicismo com uma linhagem de células com DUP e a outra biparental. As síndromes de Silver-Russell (SSR) e Beckwith-Wiedemann (SBW) são doenças de alterações do imprinting genômico, envolvendo os cromossomos 7 (SSR) e 11 (SSR e SBW). A Hemihiperplasia Isolada (HHI) parece corresponder a uma forma mais leve da SBW.. No presente trabalho, foi realizada uma varredura in silico para busca de novos microssatélites nos cromossomos 7 e 11, e selecionados seis do tipo tetra ou pentanucleotídeos, no cromossomo 7, e 12, no cromossomo 11. O perfil de metilação nas ICRs foi verificado por três técnicas distintas: MS-MLPA, DESM-RT e por uma nova estratégia desenvolvida neste trabalho denominada DESM-QFPCR. Foram avaliados 32 pacientes com SBW, 16 HHI, 20 com SSR e seus pais, quando disponíveis, além de um paciente com fenótipo aparentemente normal com cariótipo 46,XX/46,XY e cuja placenta apresentou displasia mesenquimal placentária (DMP) a qual está associada à SBW. Os novos marcadores apresentaram alta taxa de heterozigose (média de 70%), e ausência das características indesejáveis dos dinucleotídeos predominantemente utilizados para detecção de DUP. Seis marcadores estão entre genes controlados pelas ICRs 1 e 2. A DUP paterna do cromossomo 11 (DUPpat Cr11), sempre restrita a 11p15.5, foi responsável por 13% dos casos de HHI e 19% dos de SBW. As alterações estruturais foram confirmadas por minissequenciamento quantitativo de SNPs e por MS-MLPA. Um paciente apresentou duplicação paterna abrangendo ambas as ICRs. Uma deleção não descrita anteriormente no gene CDKN1C foi observada em uma paciente e sua mãe. Para os pacientes com DUPpat Cr11, foram investigados microssatélites em 13 autossomos e nos cromossomos sexuais para detecção de mosaicismo global. Apenas o paciente com DMP apresentou mosaicismo [células androgenéticas (25-30%) e biparentais], sugerindo evento de dupla fertilização. Nos pacientes com SSR, foi observada hipometilação na ICR1 em 25% dos casos. Para a SBW, foi observada hipermetilação na ICR1 e hipometilação na ICR2 em 6% e 42% dos casos, respectivamente. Os casos com DUPpat Cr11 apresentaram alteração de metilação em ambas as ICRs. As frequências de alterações (epi) genéticas encontradas foram semelhantes às previamente descritas na literatura para as SBW, SSR e HHI. Neste trabalho, foi desenvolvida uma nova técnica para estudo de metilação do DNA de ICRs e testados marcadores microssatélites inéditos na região 11p15, que quando comparados com metodologias mais tradicionais de avaliação, como DESM-RT e MS-MLPA, mostraram elevada correlação dos resultados. Os achados mostram a complexidade da etiologia das doenças estudadas no presente trabalho e os dados moleculares serão imprescindíveis para o aconselhamento genético adequado para cada caso em particular e suas famílias.Genomic imprinting is a epigenetically regulated process where the alleles are expressed in terms of their parental origin. On chromosome 11 (11p15.5) there are two regions controlling imprinting (ICR1 and ICR2), which control imprinted gene expression. The methylation patterns in these regions may be altered by uniparental disomy (UPD), which occurs when part or whole chromose is inherited from only one parent. Mitotic errors can lead to mosaicism with a cell line with DUP and other, biparental. The Silver-Russell syndrome (SRS) and Beckwith-Wiedemann syndrome (BWS) are diseases of abnormal genomic imprinting, involving chromosomes 7 (SSR) and 11 (SRS and BWS). The Isolated Hemihiperplasia (IHH) seems to correspond to a milder form of the SBW. In the present study, we performed an in silico scan to search for new microsatellites on chromosomes 7 and 11, and selected six tetra- and/or pentanucleotides on chromosome 7, and 12 on chromosome 11. The pattern of methylation in ICRs was verified by three different techniques: MS-MLPA, DESM-RT and a new strategy developed in this work called DESM-QFPCR. We evaluated 32 patients with BWS, HHI 16, with 20 SSR and their parents, when available, and one patient with apparently normal phenotype with karyotype 46, XX/46, XY and whose placenta showed placental mesenchymal dysplasia (PMD) which is associated with SBW. The new markers showed a high heterozygosity rate (average 70%), and absence of undesirable characteristics of dinucleotides, predominantly used for detection of DUP. Six markers spans genes controlled by the ICRs 1 and 2. The paternal UPD for chromosome 11 (UPDpat Cr11), all restricted to 11p15.5, was responsible for 13% of cases of HHI and 19% of the SBW. Structural changes were confirmed by quantitative SNaPshot sequencing of SNPs and MS-MLPA. One patient had paternal duplication encompassing both ICRs. A not previously described deletion in the gene CDKN1C was observed in one patient and her mother. For patients with DUPpat Cr11, microsatellites were investigated in 13 autosomes and sex chromosomes to detect wide mosaicism. Only patients with DMP showed mosaicism [androgenetic cells (25-30%) and biparental], suggesting double fertilization. In patients with SRS, ICR1 hypomethylation was observed in 25% of cases. For BWS, ICR1 hypermethylation and in ICR2 hypomethylation were observed 6% and 42% of cases, respectively. All cases with UPDpat Cr11 presented abnormal methylation in both ICRs. The (epi) genetic change frequencies were similar to those previously described in the literature for BWS, SRR andIHH. In the present work, we developed a new technique to study DNA methylation of ICRs and tested novel microsatellite markers in the 11p15 region, which showed high correlation of results, when compared with more traditional methods such as RT-DESM and MS-MLPA. The results show the complex etiology of these diseases and the molecular data are essential for appropriate patient and families genetic counseling

Uniparental disomy and somatic mosaicism: mechanisms for epigenetic deregulation of genomic imprinting

O imprinting genômico é um processo regulado epigeneticamente que faz com que os alelos sejam expressos de acordo com a sua origem parental. No cromossomo 11 (11p15.5), existem duas regiões controladoras de imprinting (ICR1 e ICR2), que controlam a expressão de genes marcados (imprinted). Os padrões de metilação dessas regiões podem ser alterados pela dissomia uniparental (DUP), que ocorre quando parte de ou um cromossomo inteiro do mesmo par de homólogos é herdado de somente um genitor. Erros mitóticos podem gerar mosaicismo com uma linhagem de células com DUP e a outra biparental. As síndromes de Silver-Russell (SSR) e Beckwith-Wiedemann (SBW) são doenças de alterações do imprinting genômico, envolvendo os cromossomos 7 (SSR) e 11 (SSR e SBW). A Hemihiperplasia Isolada (HHI) parece corresponder a uma forma mais leve da SBW.. No presente trabalho, foi realizada uma varredura in silico para busca de novos microssatélites nos cromossomos 7 e 11, e selecionados seis do tipo tetra ou pentanucleotídeos, no cromossomo 7, e 12, no cromossomo 11. O perfil de metilação nas ICRs foi verificado por três técnicas distintas: MS-MLPA, DESM-RT e por uma nova estratégia desenvolvida neste trabalho denominada DESM-QFPCR. Foram avaliados 32 pacientes com SBW, 16 HHI, 20 com SSR e seus pais, quando disponíveis, além de um paciente com fenótipo aparentemente normal com cariótipo 46,XX/46,XY e cuja placenta apresentou displasia mesenquimal placentária (DMP) a qual está associada à SBW. Os novos marcadores apresentaram alta taxa de heterozigose (média de 70%), e ausência das características indesejáveis dos dinucleotídeos predominantemente utilizados para detecção de DUP. Seis marcadores estão entre genes controlados pelas ICRs 1 e 2. A DUP paterna do cromossomo 11 (DUPpat Cr11), sempre restrita a 11p15.5, foi responsável por 13% dos casos de HHI e 19% dos de SBW. As alterações estruturais foram confirmadas por minissequenciamento quantitativo de SNPs e por MS-MLPA. Um paciente apresentou duplicação paterna abrangendo ambas as ICRs. Uma deleção não descrita anteriormente no gene CDKN1C foi observada em uma paciente e sua mãe. Para os pacientes com DUPpat Cr11, foram investigados microssatélites em 13 autossomos e nos cromossomos sexuais para detecção de mosaicismo global. Apenas o paciente com DMP apresentou mosaicismo [células androgenéticas (25-30%) e biparentais], sugerindo evento de dupla fertilização. Nos pacientes com SSR, foi observada hipometilação na ICR1 em 25% dos casos. Para a SBW, foi observada hipermetilação na ICR1 e hipometilação na ICR2 em 6% e 42% dos casos, respectivamente. Os casos com DUPpat Cr11 apresentaram alteração de metilação em ambas as ICRs. As frequências de alterações (epi) genéticas encontradas foram semelhantes às previamente descritas na literatura para as SBW, SSR e HHI. Neste trabalho, foi desenvolvida uma nova técnica para estudo de metilação do DNA de ICRs e testados marcadores microssatélites inéditos na região 11p15, que quando comparados com metodologias mais tradicionais de avaliação, como DESM-RT e MS-MLPA, mostraram elevada correlação dos resultados. Os achados mostram a complexidade da etiologia das doenças estudadas no presente trabalho e os dados moleculares serão imprescindíveis para o aconselhamento genético adequado para cada caso em particular e suas famílias.Genomic imprinting is a epigenetically regulated process where the alleles are expressed in terms of their parental origin. On chromosome 11 (11p15.5) there are two regions controlling imprinting (ICR1 and ICR2), which control imprinted gene expression. The methylation patterns in these regions may be altered by uniparental disomy (UPD), which occurs when part or whole chromose is inherited from only one parent. Mitotic errors can lead to mosaicism with a cell line with DUP and other, biparental. The Silver-Russell syndrome (SRS) and Beckwith-Wiedemann syndrome (BWS) are diseases of abnormal genomic imprinting, involving chromosomes 7 (SSR) and 11 (SRS and BWS). The Isolated Hemihiperplasia (IHH) seems to correspond to a milder form of the SBW. In the present study, we performed an in silico scan to search for new microsatellites on chromosomes 7 and 11, and selected six tetra- and/or pentanucleotides on chromosome 7, and 12 on chromosome 11. The pattern of methylation in ICRs was verified by three different techniques: MS-MLPA, DESM-RT and a new strategy developed in this work called DESM-QFPCR. We evaluated 32 patients with BWS, HHI 16, with 20 SSR and their parents, when available, and one patient with apparently normal phenotype with karyotype 46, XX/46, XY and whose placenta showed placental mesenchymal dysplasia (PMD) which is associated with SBW. The new markers showed a high heterozygosity rate (average 70%), and absence of undesirable characteristics of dinucleotides, predominantly used for detection of DUP. Six markers spans genes controlled by the ICRs 1 and 2. The paternal UPD for chromosome 11 (UPDpat Cr11), all restricted to 11p15.5, was responsible for 13% of cases of HHI and 19% of the SBW. Structural changes were confirmed by quantitative SNaPshot sequencing of SNPs and MS-MLPA. One patient had paternal duplication encompassing both ICRs. A not previously described deletion in the gene CDKN1C was observed in one patient and her mother. For patients with DUPpat Cr11, microsatellites were investigated in 13 autosomes and sex chromosomes to detect wide mosaicism. Only patients with DMP showed mosaicism [androgenetic cells (25-30%) and biparental], suggesting double fertilization. In patients with SRS, ICR1 hypomethylation was observed in 25% of cases. For BWS, ICR1 hypermethylation and in ICR2 hypomethylation were observed 6% and 42% of cases, respectively. All cases with UPDpat Cr11 presented abnormal methylation in both ICRs. The (epi) genetic change frequencies were similar to those previously described in the literature for BWS, SRR andIHH. In the present work, we developed a new technique to study DNA methylation of ICRs and tested novel microsatellite markers in the 11p15 region, which showed high correlation of results, when compared with more traditional methods such as RT-DESM and MS-MLPA. The results show the complex etiology of these diseases and the molecular data are essential for appropriate patient and families genetic counseling

Gametic phase disequilibrium between the syntenic multiallelic HTG4 and HMS3 markers widely used for parentage testing in Thoroughbred horses

Validation of parentage and horse breed registries through DNA typing relies on estimates of random match probabilities with DNA profiles generated from multiple polymorphic loci. Of the twenty-seven microsatellite loci recommended by the International Society for Animal Genetics for parentage testing in Thoroughbred horses, eleven are located on five chromosomes. An important aspect in determining combined exclusion probabilities is the ascertainment of the genetic linkage status of syntenic markers, which may affect reliable use of the product rule in estimating random match probabilities. In principle, linked markers can be in gametic phase disequilibrium (GD). We aimed at determining the extent, by frequency and strength, of GD between the HTG4 and HMS3 multiallelic loci, syntenic on chromosome 9. We typed the qualified offspring (n (1) = 27; n (2) = 14) of two Quarter Bred stallions (registered by the Brazilian Association of Quarter Horse Breeders) and 121 unrelated horses from the same breed. In the 41 informative meioses analyzed, the frequency of recombination between the HTG4 and HMS3 loci was 0.27. Consistent with genetic map distances, this recombination rate does not fit to the theoretical distribution for independently segregated markers. We estimated sign-based D' coefficients as a measure of GD, and showed that the HTG4 and HMS3 loci are in significant, yet partial and weak, disequilibrium, with two allele pairs involved (HTG4*M/HMS3*P, D'(+) = 0.6274; and HTG4*K/HMS3*P, D'(-) = -0.6096). These results warn against the inadequate inclusion of genetically linked markers in the calculation of combined power of discrimination for Thoroughbred parentage validation.CNPqCNPqFAPERJFAPERJFAPESPFAPESPNucleo de Diagnostico e Investigacao Molecular of the Universidade Estadual do Norte Fluminense Darcy RibeiroNucleo de Diagnostico e Investigacao Molecular of the Universidade Estadual do Norte Fluminense Darcy Ribeir

5meCpG epigenetic marks neighboring a primate-conserved core promoter short tandem repeat indicate X-chromosome inactivation.

X-chromosome inactivation (XCI) is the epigenetic transcriptional silencing of an X-chromosome during the early stages of embryonic development in female eutherian mammals. XCI assures monoallelic expression in each cell and compensation for dosage-sensitive X-linked genes between females (XX) and males (XY). DNA methylation at the carbon-5 position of the cytosine pyrimidine ring in the context of a CpG dinucleotide sequence (5meCpG) in promoter regions is a key epigenetic marker for transcriptional gene silencing. Using computational analysis, we revealed an extragenic tandem GAAA repeat 230-bp from the landmark CpG island of the human X-linked retinitis pigmentosa 2 RP2 promoter whose 5meCpG status correlates with XCI. We used this RP2 onshore tandem GAAA repeat to develop an allele-specific 5meCpG-based PCR assay that is highly concordant with the human androgen receptor (AR) exonic tandem CAG repeat-based standard HUMARA assay in discriminating active (Xa) from inactive (Xi) X-chromosomes. The RP2 onshore tandem GAAA repeat contains neutral features that are lacking in the AR disease-linked tandem CAG repeat, is highly polymorphic (heterozygosity rates approximately 0.8) and shows minimal variation in the Xa/Xi ratio. The combined informativeness of RP2/AR is approximately 0.97, and this assay excels at determining the 5meCpG status of alleles at the Xp (RP2) and Xq (AR) chromosome arms in a single reaction. These findings are relevant and directly translatable to nonhuman primate models of XCI in which the AR CAG-repeat is monomorphic. We conducted the RP2 onshore tandem GAAA repeat assay in the naturally occurring chimeric New World monkey marmoset (Callitrichidae) and found it to be informative. The RP2 onshore tandem GAAA repeat will facilitate studies on the variable phenotypic expression of dominant and recessive X-linked diseases, epigenetic changes in twins, the physiology of aging hematopoiesis, the pathogenesis of age-related hematopoietic malignancies and the clonality of cancers in human and nonhuman primates

Collection localities of <i>Sotalia guianensis</i> along the coast of the State of Espírito Santo, Brazil.

<p>(A) State map of Brazil. The black rectangle indicates the State of Espírito Santo, highlighted in dark green. (B) Zoom in on image map area. (C) Range distribution of the sample localities (red dots). The dashed line represents the South and North State midline with the geographic coordinates set at 20°03'18.8"S 40°11'26.8"W.</p