Your search keyword '"Magnaye, Kevin M."' showing total 4 results

1. Asthma-associated genetic variants induce IL33 differential expression through an enhancer-blocking regulatory region.

Author

Aneas, Ivy, Decker, Donna C., Howard, Chanie L., Sobreira, Débora R., Sakabe, Noboru J., Blaine, Kelly M., Stein, Michelle M., Hrusch, Cara L., Montefiori, Lindsey E., Tena, Juan, Magnaye, Kevin M., Clay, Selene M., Gern, James E., Jackson, Daniel J., Altman, Matthew C., Naureckas, Edward T., Hogarth, Douglas K., White, Steven R., Gomez-Skarmeta, Jose Luis, and Schoetler, Nathan

Subjects

GENETIC variation, GENOME-wide association studies, GENETIC regulation, SINGLE nucleotide polymorphisms, GENE expression

Abstract

Genome-wide association studies (GWAS) have implicated the IL33 locus in asthma, but the underlying mechanisms remain unclear. Here, we identify a 5 kb region within the GWAS-defined segment that acts as an enhancer-blocking element in vivo and in vitro. Chromatin conformation capture showed that this 5 kb region loops to the IL33 promoter, potentially regulating its expression. We show that the asthma-associated single nucleotide polymorphism (SNP) rs1888909, located within the 5 kb region, is associated with IL33 gene expression in human airway epithelial cells and IL-33 protein expression in human plasma, potentially through differential binding of OCT-1 (POU2F1) to the asthma-risk allele. Our data demonstrate that asthma-associated variants at the IL33 locus mediate allele-specific regulatory activity and IL33 expression, providing a mechanism through which a regulatory SNP contributes to genetic risk of asthma. Susceptibility to asthma and severity of symptoms are regulated by a number of different genomic regions. Here the authors characterise a 5kb regulatory region and demonstrate genetic and topological regulation of IL33 and association with disease in different human cohorts. [ABSTRACT FROM AUTHOR]

Published

2021

2. Sex-specific differences in peripheral blood leukocyte transcriptional response to LPS are enriched for HLA region and X chromosome genes.

Author

Stein, Michelle M., Conery, Mitch, Magnaye, Kevin M., Clay, Selene M., Billstrand, Christine, Nicolae, Raluca, Naughton, Katherine, Ober, Carole, and Thompson, Emma E.

Subjects

LEUCOCYTES, GENE regulatory networks, LIPOPOLYSACCHARIDES, GENE expression, HLA histocompatibility antigens

Abstract

Sex-specific differences in prevalence are well documented for many common, complex diseases, especially for immune-mediated diseases, yet the precise mechanisms through which factors associated with biological sex exert their effects throughout life are not well understood. We interrogated sex-specific transcriptional responses of peripheral blood leukocytes (PBLs) to innate immune stimulation by lipopolysaccharide (LPS) in 46 male and 66 female members of the Hutterite community, who practice a communal lifestyle. We identified 1217 autosomal and 54 X-linked genes with sex-specific responses to LPS, as well as 71 autosomal and one X-linked sex-specific expression quantitative trait loci (eQTLs). Despite a similar proportion of the 15 HLA genes responding to LPS compared to all expressed autosomal genes, there was a significant over-representation of genes with sex by treatment interactions among HLA genes. We also observed an enrichment of sex-specific differentially expressed genes in response to LPS for X-linked genes compared to autosomal genes, suggesting that HLA and X-linked genes may disproportionately contribute to sex disparities in risk for immune-mediated diseases. [ABSTRACT FROM AUTHOR]

Published

2021

3. Parent of origin gene expression in a founder population identifies two new candidate imprinted genes at known imprinted regions.

Author

Mozaffari, Sahar V., Stein, Michelle M., Magnaye, Kevin M., Nicolae, Dan L., and Ober, Carole

Subjects

LEUCOCYTES, GENE expression, GROUP identity, LYMPHOBLASTOID cell lines, RNA sequencing

Abstract

Genomic imprinting is the phenomena that leads to silencing of one copy of a gene inherited from a specific parent. Mutations in imprinted regions have been involved in diseases showing parent of origin effects. Identifying genes with evidence of parent of origin expression patterns in family studies allows the detection of more subtle imprinting. Here, we use allele specific expression in lymphoblastoid cell lines from 306 Hutterites related in a single pedigree to provide formal evidence for parent of origin effects. We take advantage of phased genotype data to assign parent of origin to RNA-seq reads in individuals with gene expression data. Our approach identified known imprinted genes, two putative novel imprinted genes, PXDC1 and PWAR6, and 14 genes with asymmetrical parent of origin gene expression. We used gene expression in peripheral blood leukocytes (PBL) to validate our findings, and then confirmed imprinting control regions (ICRs) using DNA methylation levels in the PBLs. [ABSTRACT FROM AUTHOR]

Published

2018

4. A decade of research on the 17q12-21 asthma locus: Piecing together the puzzle.

Author

Stein, Michelle M., Thompson, Emma E., Schoettler, Nathan, Helling, Britney A., Magnaye, Kevin M., Stanhope, Catherine, Igartua, Catherine, Morin, Andréanne, IIIWashington, Charles, Nicolae, Dan, Bønnelykke, Klaus, and Ober, Carole

Abstract

Chromosome 17q12-21 remains the most highly replicated and significant asthma locus. Genotypes in the core region defined by the first genome-wide association study correlate with expression of 2 genes, ORM1-like 3 (ORMDL3) and gasdermin B (GSDMB) , making these prime candidate asthma genes, although recent studies have implicated gasdermin A (GSDMA) distal to and post-GPI attachment to proteins 3 (PGAP3) proximal to the core region as independent loci. We review 10 years of studies on the 17q12-21 locus and suggest that genotype-specific risks for asthma at the proximal and distal loci are not specific to early-onset asthma and mediated by PGAP3 , ORMDL3 , and/or GSDMA expression. We propose that the weak and inconsistent associations of 17q single nucleotide polymorphisms with asthma in African Americans is due to the high frequency of some 17q alleles, the breakdown of linkage disequilibrium on African-derived chromosomes, and possibly different early-life asthma endotypes in these children. Finally, the inconsistent association between asthma and gene expression levels in blood or lung cells from older children and adults suggests that genotype effects may mediate asthma risk or protection during critical developmental windows and/or in response to relevant exposures in early life. Thus studies of young children and ethnically diverse populations are required to fully understand the relationship between genotype and asthma phenotype and the gene regulatory architecture at this locus. [ABSTRACT FROM AUTHOR]

Published

2018