Sanny Moussette
McGill University Health Centre
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Publication
Featured researches published by Sanny Moussette.
American Journal of Human Genetics | 2009
Dominique J. Verlaan; Soizik Berlivet; Gary M. Hunninghake; Anne-Marie Madore; Mathieu Larivière; Sanny Moussette; Elin Grundberg; Tony Kwan; Manon Ouimet; Bing Ge; Rose Hoberman; Marcin Swiatek; Joana Dias; Kevin C. L. Lam; Vonda Koka; Eef Harmsen; Manuel Soto-Quiros; Lydiana Avila; Juan C. Celedón; Scott T. Weiss; Ken Dewar; Daniel Sinnett; Catherine Laprise; Benjamin A. Raby; Tomi Pastinen; Anna K. Naumova
Common SNPs in the chromosome 17q12-q21 region alter the risk for asthma, type 1 diabetes, primary biliary cirrhosis, and Crohn disease. Previous reports by us and others have linked the disease-associated genetic variants with changes in expression of GSDMB and ORMDL3 transcripts in human lymphoblastoid cell lines (LCLs). The variants also alter regulation of other transcripts, and this domain-wide cis-regulatory effect suggests a mechanism involving long-range chromatin interactions. Here, we further dissect the disease-linked haplotype and identify putative causal DNA variants via a combination of genetic and functional analyses. First, high-throughput resequencing of the region and genotyping of potential candidate variants were performed. Next, additional mapping of allelic expression differences in Yoruba HapMap LCLs allowed us to fine-map the basis of the cis-regulatory differences to a handful of candidate functional variants. Functional assays identified allele-specific differences in nucleosome distribution, an allele-specific association with the insulator protein CTCF, as well as a weak promoter activity for rs12936231. Overall, this study shows a common disease allele linked to changes in CTCF binding and nucleosome occupancy leading to altered domain-wide cis-regulation. Finally, a strong association between asthma and cis-regulatory haplotypes was observed in three independent family-based cohorts (p = 1.78 x 10(-8)). This study demonstrates the requirement of multiple parallel allele-specific tools for the investigation of noncoding disease variants and functional fine-mapping of human disease-associated haplotypes.
Human Genetics | 2012
Soizik Berlivet; Sanny Moussette; Manon Ouimet; Dominique J. Verlaan; Vonda Koka; Abeer Al Tuwaijri; Tony Kwan; Daniel Sinnett; Tomi Pastinen; Anna K. Naumova
Phenotypic variation results from variation in gene expression, which is modulated by genetic and/or epigenetic factors. To understand the molecular basis of human disease, interaction between genetic and epigenetic factors needs to be taken into account. The asthma-associated region 17q12-q21 harbors three genes, the zona pellucida binding protein 2 (ZPBP2), gasdermin B (GSDMB) and ORM1-like 3 (ORMDL3), that show allele-specific differences in expression levels in lymphoblastoid cell lines (LCLs) and CD4+ T cells. Here, we report a molecular dissection of allele-specific transcriptional regulation of the genes within the chromosomal region 17q12-q21 combining in vitro transfection, formaldehyde-assisted isolation of regulatory elements, chromatin immunoprecipitation and DNA methylation assays in LCLs. We found that a single nucleotide polymorphism rs4795397 influences the activity of ZPBP2 promoter in vitro in an allele-dependent fashion, and also leads to nucleosome repositioning on the asthma-associated allele. However, variable methylation of exon 1 of ZPBP2 masks the strong genetic effect on ZPBP2 promoter activity in LCLs. In contrast, the ORMDL3 promoter is fully unmethylated, which allows detection of genetic effects on its transcription. We conclude that the cis-regulatory effects on 17q12-q21 gene expression result from interaction between several regulatory polymorphisms and epigenetic factors within the cis-regulatory haplotype region.
Epigenetics | 2008
Stéphane Labialle; Sylvie Croteau; Erin N. McMurray; Xuan Ruan; Sanny Moussette; Maud Jonnaert; Jennifer V. Schmidt; Nicolas Cermakian; Anna K. Naumova
Most of the known imprinted genes are assembled into clusters that share common imprinting control regions (ICRs). Non-coding transcripts are often associated with ICRs and implicated in imprinting regulation. We undertook a systematic search for transcripts originating from the Dlk1-Gtl2 intergenic region that contains the ICR for the chromosome 12 imprinted cluster and identified two overlapping transcripts expressed from opposite strands exclusively from the maternal chromosome. These novel imprinted transcripts most likely represent non-coding RNAs and are located telomeric to the IG DMR, extending the proximal boundary of the region of maternal-specific transcription. Their expression is tissue-specific and shows diurnal and circadian oscillations. Therefore, we named these novel transcripts maternal intergenic circadian oscillating 1 (Mico1) and Mico1, opposite strand (Mico1os).
Genetics | 2008
Lanjian Yang; Moises Freitas Andrade; Stéphane Labialle; Sanny Moussette; Geneviève Geneau; Donna Sinnett; Alexandre Belisle; Celia M. T. Greenwood; Anna K. Naumova
Transmission ratio distortion (TRD) is a deviation from the expected Mendelian 1:1 ratio of alleles transmitted from parents to offspring and may arise by different mechanisms. Earlier we described a grandparental-origin-dependent sex-of-offspring-specific TRD of maternal chromosome 12 alleles closely linked to an imprinted region and hypothesized that it resulted from imprint resetting errors in the maternal germline. Here, we report that the genotype of the parents for loss-of-function mutations in the Dnmt1 gene influences the transmission of grandparental chromosome 12 alleles. More specifically, maternal Dnmt1 mutations restore Mendelian transmission ratios of chromosome 12 alleles. Transmission of maternal alleles depends upon the presence of the Dnmt1 mutation in the mother rather than upon the Dnmt1 genotype of the offspring. Paternal transmission mirrors the maternal one: live-born offspring of wild-type fathers display 1:1 transmission ratios, whereas offspring of heterozygous Dnmt1 mutant fathers tend to inherit grandpaternal alleles. Analysis of allelic transmission in the homologous region of human chromosome 14q32 detected preferential transmission of alleles from the paternal grandfather to grandsons. Thus, parental Dnmt1 is a modifier of transmission of alleles at an unlinked chromosomal region and perhaps has a role in the genesis of TRD.
Genome | 2012
Aabida Saferali; Sanny Moussette; Donovan Chan; Jacquetta M. Trasler; Taiping Chen; Rima Rozen; Anna K. Naumova
DNA methylation and DNA methyltransferases are essential for spermatogenesis. Mutations in the DNA methyltransferase Dnmt1 gene exert a paternal effect on epigenetic states and phenotypes of offspring, suggesting that DNMT1 is important for the epigenetic remodeling of the genome that takes place during spermatogenesis. However, the specific role of DNMT1 in spermatogenesis and the establishment of genomic imprints in the male germ line remains elusive. To further characterize the effect of DNMT1 deficiency on the resetting of methylation imprints during spermatogenesis, we analyzed the methylation profiles of imprinted regions in the spermatozoa of mice that were heterozygous for a Dnmt1 loss-of-function mutation. The mutation did not affect the H19 or IG differentially methylated regions (DMRs) that are usually highly methylated but led to a partial hypermethylation of the Snrpn DMR, a region that should normally be unmethylated in mature spermatozoa. This defect does not appear in mouse models with mutations in Dnmt3a and Mthfr genes and, therefore, it is specific for the Dnmt1 gene and is suggestive of a role of DNMT1 in imprint resetting or maintenance in the male germ line.
PLOS ONE | 2017
Sanny Moussette; Abeer Al Tuwaijri; Hamid Reza Kohan-Ghadr; Samar Elzein; Raquel Farias; Julie Bérubé; Bianca Ho; Catherine Laprise; Cynthia G. Goodyer; Simon Rousseau; Anna K. Naumova
Chromosomal region 17q12-q21 is associated with asthma and harbors regulatory polymorphisms that influence expression levels of all five protein-coding genes in the region: IKAROS family zinc finger 3 (Aiolos) (IKZF3), zona pellucida binding protein 2 (ZPBP2), ORMDL sphingolipid biosynthesis regulator 3 (ORMDL3), and gasdermins A and B (GSDMA, GSDMB). Furthermore, DNA methylation in this region has been implicated as a potential modifier of the genetic risk of asthma development. To further characterize the effect of DNA methylation, we examined the impact of treatment with DNA methyltransferase inhibitor 5-aza-2’-deoxycytidine (5-aza-dC) that causes DNA demethylation, on expression and promoter methylation of the five 17q12-q21 genes in the human airway epithelium cell line NuLi-1, embryonic kidney epithelium cell line 293T and human adenocarcinoma cell line MCF-7. 5-aza-dC treatment led to upregulation of expression of GSDMA in all three cell lines. ZPBP2 was upregulated in NuLi-1, but remained repressed in 293T and MCF-7 cells, whereas ORMDL3 was upregulated in 293T and MCF-7 cells, but not NuLi-1. Upregulation of ZPBP2 and GSDMA was accompanied by a decrease in promoter methylation. Moreover, 5-aza-dC treatment modified allelic expression of ZPBP2 and ORMDL3 suggesting that different alleles may respond differently to treatment. We also identified a polymorphic CTCF-binding site in intron 1 of ORMDL3 carrying a CG SNP rs4065275 and determined its methylation level. The site’s methylation was unaffected by 5-aza-dC treatment in NuLi-1 cells. We conclude that modest changes (8–13%) in promoter methylation levels of ZPBP2 and GSDMA may cause substantial changes in RNA levels and that allelic expression of ZPBP2 and ORMDL3 is mediated by DNA methylation.
Biology of Sex Differences | 2018
Bianca Ho; Keelin M Greenlaw; Abeer Al Tuwaijri; Sanny Moussette; Francisco Venegas Martínez; Elisa Giorgio; Giovanni Battista Ferrero; Natália D. Linhares; Eugênia Ribeiro Valadares; Marta Svartman; Vera M. Kalscheuer; Germán Rodríguez Criado; Catherine Laprise; Celia M. T. Greenwood; Anna K. Naumova
BackgroundSexual dimorphism in DNA methylation levels is a recurrent epigenetic feature in different human cell types and has been implicated in predisposition to disease, such as psychiatric and autoimmune disorders. To elucidate the genetic origins of sex-specific DNA methylation, we examined DNA methylation levels in fibroblast cell lines and blood cells from individuals with different combinations of sex chromosome complements and sex phenotypes focusing on a single autosomal region––the differentially methylated region (DMR) in the promoter of the zona pellucida binding protein 2 (ZPBP2) as a reporter.ResultsOur data show that the presence of the sex determining region Y (SRY) was associated with lower methylation levels, whereas higher X chromosome dosage in the absence of SRY led to an increase in DNA methylation levels at the ZPBP2 DMR. We mapped the X-linked modifier of DNA methylation to the long arm of chromosome X (Xq13-q21) and tested the impact of mutations in the ATRX and RLIM genes, located in this region, on methylation levels. Neither ATRX nor RLIM mutations influenced ZPBP2 methylation in female carriers.ConclusionsWe conclude that sex-specific methylation differences at the autosomal locus result from interaction between a Y-linked factor SRY and at least one X-linked factor that acts in a dose-dependent manner.
Mammalian Genome | 2018
Cynthia Kanagaratham; Victoria Chiwara; Bianca Ho; Sanny Moussette; Mina Youssef; David Venuto; Lucie Jeannotte; Guillaume Bourque; Juan B. De Sanctis; Danuta Radzioch; Anna K. Naumova
The human chromosomal region 17q12–q21 is one of the best replicated genome-wide association study loci for childhood asthma. The associated SNPs span a large genomic interval that includes several protein-coding genes. Here, we tested the hypothesis that the zona pellucida-binding protein 2 (ZPBP2) gene residing in this region contributes to asthma pathogenesis using a mouse model. We tested the lung phenotypes of knock-out (KO) mice that carry a deletion of the Zpbp2 gene. The deletion attenuated airway hypersensitivity (AHR) in female, but not male, mice in the absence of allergic sensitization. Analysis of the lipid profiles of their lungs showed that female, but not male, KO mice had significantly lower levels of sphingosine-1-phosphate (S1P), very long-chain ceramides (VLCCs), and higher levels of long-chain ceramides compared to wild-type controls. Furthermore, in females, lung resistance following methacholine challenge correlated with lung S1P levels (Pearson correlation coefficient 0.57) suggesting a link between reduced AHR in KO females, Zpbp2 deletion, and S1P level regulation. In livers, spleens and blood plasma, however, VLCC, S1P, and sphingosine levels were reduced in both KO females and males. We also find that the Zpbp2 deletion was associated with gain of methylation in the adjacent DNA regions. Thus, we demonstrate that the mouse ortholog of ZPBP2 has a role in controlling AHR in female mice. Our data also suggest that Zpbp2 may act through regulation of ceramide metabolism. These findings highlight the importance of phospholipid metabolism for sexual dimorphism in AHR.
Human Genetics | 2013
Anna K. Naumova; Abeer Al Tuwaijri; Andréanne Morin; Vanessa T. Vaillancout; Anne-Marie Madore; Soizik Berlivet; Hamid Reza Kohan-Ghadr; Sanny Moussette; Catherine Laprise
Mammalian Genome | 2016
Shawn Fayer; Qi Yu; Joongbaek Kim; Sanny Moussette; R. Daniel Camerini-Otero; Anna K. Naumova