Your search keyword '"Marcelo A. Nobréga"' showing total 10 results

1. The Past, the Present, and the Future of Genomic Therapies in Cardiovascular Disease

Author

Elizabeth M. McNally, Megan J. Puckelwartz, and Marcelo A. Nóbrega

Subjects

CRISPR, gene therapy, genetic correction, noncoding regions, upregulation, Diseases of the circulatory (Cardiovascular) system, RC666-701

Published

2024

2. Dietary macronutrient composition impacts gene regulation in adipose tissue

Author

Kathryn M. Farris, Alistair M. Senior, Débora R. Sobreira, Robert M. Mitchell, Zachary T. Weber, Lars R. Ingerslev, Romain Barrès, Stephen J. Simpson, Angela J. Crean, and Marcelo A. Nobrega

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Diet is a key lifestyle component that influences metabolic health through several factors, including total energy intake and macronutrient composition. While the impact of caloric intake on gene expression and physiological phenomena in various tissues is well described, the influence of dietary macronutrient composition on these parameters is less well studied. Here, we use the Nutritional Geometry framework to investigate the role of macronutrient composition on metabolic function and gene regulation in adipose tissue. Using ten isocaloric diets that vary systematically in their proportion of energy from fat, protein, and carbohydrates, we find that gene expression and splicing are highly responsive to macronutrient composition, with distinct sets of genes regulated by different macronutrient interactions. Specifically, the expression of many genes associated with Bardet-Biedl syndrome is responsive to dietary fat content. Splicing and expression changes occur in largely separate gene sets, highlighting distinct mechanisms by which dietary composition influences the transcriptome and emphasizing the importance of considering splicing changes to more fully capture the gene regulation response to environmental changes such as diet. Our study provides insight into the gene regulation plasticity of adipose tissue in response to macronutrient composition, beyond the already well-characterized response to caloric intake.

Published

2024

3. Single cell profiling at the maternal–fetal interface reveals a deficiency of PD-L1+ non-immune cells in human spontaneous preterm labor

Author

Xiao Liu, Ivy Aneas, Noboru Sakabe, Rebecca L. Anderson, Christine Billstrand, Cristina Paz, Harjot Kaur, Brian Furner, Seong Choi, Adriana Y. Prichina, Elizabeth Ann L. Enninga, Haidong Dong, Amy Murtha, Gregory E. Crawford, John A. Kessler, William Grobman, Marcelo A. Nobrega, Sarosh Rana, and Carole Ober

Subjects

Medicine, Science

Abstract

Abstract The mechanisms that underlie the timing of labor in humans are largely unknown. In most pregnancies, labor is initiated at term (≥ 37 weeks gestation), but in a signifiicant number of women spontaneous labor occurs preterm and is associated with increased perinatal mortality and morbidity. The objective of this study was to characterize the cells at the maternal–fetal interface (MFI) in term and preterm pregnancies in both the laboring and non-laboring state in Black women, who have among the highest preterm birth rates in the U.S. Using mass cytometry to obtain high-dimensional single-cell resolution, we identified 31 cell populations at the MFI, including 25 immune cell types and six non-immune cell types. Among the immune cells, maternal PD1+ CD8 T cell subsets were less abundant in term laboring compared to term non-laboring women. Among the non-immune cells, PD-L1+ maternal (stromal) and fetal (extravillous trophoblast) cells were less abundant in preterm laboring compared to term laboring women. Consistent with these observations, the expression of CD274, the gene encoding PD-L1, was significantly depressed and less responsive to fetal signaling molecules in cultured mesenchymal stromal cells from the decidua of preterm compared to term women. Overall, these results suggest that the PD1/PD-L1 pathway at the MFI may perturb the delicate balance between immune tolerance and rejection and contribute to the onset of spontaneous preterm labor.

Published

2023

4. African-specific alleles modify risk for asthma at the 17q12-q21 locus in African Americans

Author

Charles Washington, Matthew Dapas, Arjun Biddanda, Kevin M. Magnaye, Ivy Aneas, Britney A. Helling, Brooke Szczesny, Meher Preethi Boorgula, Margaret A. Taub, Eimear Kenny, Rasika A. Mathias, Kathleen C. Barnes, CAAPA, Gurjit K. Khurana Hershey, Carolyn M. Kercsmar, Jessica D. Gereige, Melanie Makhija, Rebecca S. Gruchalla, Michelle A. Gill, Andrew H. Liu, Deepa Rastogi, William Busse, Peter J. Gergen, Cynthia M. Visness, Diane R. Gold, Tina Hartert, Christine C. Johnson, Robert F. Lemanske, Fernando D. Martinez, Rachel L. Miller, Dennis Ownby, Christine M. Seroogy, Anne L. Wright, Edward M. Zoratti, Leonard B. Bacharier, Meyer Kattan, George T. O’Connor, Robert A. Wood, Marcelo A. Nobrega, Matthew C. Altman, Daniel J. Jackson, James E. Gern, Christopher G. McKennan, and Carole Ober

Subjects

Asthma, Fine mapping, Integrated omics, Whole-genome sequencing, Health disparities, Medicine, Genetics, QH426-470

Abstract

Abstract Background Asthma is the most common chronic disease in children, occurring at higher frequencies and with more severe disease in children with African ancestry. Methods We tested for association with haplotypes at the most replicated and significant childhood-onset asthma locus at 17q12-q21 and asthma in European American and African American children. Following this, we used whole-genome sequencing data from 1060 African American and 100 European American individuals to identify novel variants on a high-risk African American–specific haplotype. We characterized these variants in silico using gene expression and ATAC-seq data from airway epithelial cells, functional annotations from ENCODE, and promoter capture (pc)Hi-C maps in airway epithelial cells. Candidate causal variants were then assessed for correlation with asthma-associated phenotypes in African American children and adults. Results Our studies revealed nine novel African-specific common variants, enriched on a high-risk asthma haplotype, which regulated the expression of GSDMA in airway epithelial cells and were associated with features of severe asthma. Using ENCODE annotations, ATAC-seq, and pcHi-C, we narrowed the associations to two candidate causal variants that are associated with features of T2 low severe asthma. Conclusions Previously unknown genetic variation at the 17q12-21 childhood-onset asthma locus contributes to asthma severity in individuals with African ancestries. We suggest that many other population-specific variants that have not been discovered in GWAS contribute to the genetic risk for asthma and other common diseases.

Published

2022

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

Author

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

Subjects

Science

Abstract

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.

Published

2021

6. A functional genomics pipeline identifies pleiotropy and cross-tissue effects within obesity-associated GWAS loci

Author

Amelia C. Joslin, Débora R. Sobreira, Grace T. Hansen, Noboru J. Sakabe, Ivy Aneas, Lindsey E. Montefiori, Kathryn M. Farris, Jing Gu, Donna M. Lehman, Carole Ober, Xin He, and Marcelo A. Nóbrega

Subjects

Science

Abstract

Many genetic loci have been linked to obesity, but knowledge of their functional mechanisms is limited. Here, the authors perform reporter assays and temporal functional genomics data generation to characterize obesity genetic loci and find that loci often harbor multiple functional variants.

Published

2021

7. Identification of atrial fibrillation associated genes and functional non-coding variants

Author

Antoinette F. van Ouwerkerk, Fernanda M. Bosada, Karel van Duijvenboden, Matthew C. Hill, Lindsey E. Montefiori, Koen T. Scholman, Jia Liu, Antoine A. F. de Vries, Bastiaan J. Boukens, Patrick T. Ellinor, Marie José T. H. Goumans, Igor R. Efimov, Marcelo A. Nobrega, Phil Barnett, James F. Martin, and Vincent M. Christoffels

Subjects

Science

Abstract

The majority of disease-associated genetic variants lie in non-coding regions. Here the authors generated and compiled human transcriptomic, epigenomic and chromatin conformation datasets, to identify genes associated with atrial fibrillation and functional non-coding variants.

Published

2019

8. Pluripotent stem cell-derived endometrial stromal fibroblasts in a cyclic, hormone-responsive, coculture model of human decidua

Author

Virginia Chu Cheung, Chian-Yu Peng, Mirna Marinić, Noboru J. Sakabe, Ivy Aneas, Vincent J. Lynch, Carole Ober, Marcelo A. Nobrega, and John A. Kessler

Subjects

human pluripotent stem cells, endometrial stromal cells, decidua, epithelial-stromal signaling, cyclic hormone response, cell-cell signaling, Biology (General), QH301-705.5

Abstract

Summary: Various human diseases and pregnancy-related disorders reflect endometrial dysfunction. However, rodent models do not share fundamental biological processes with the human endometrium, such as spontaneous decidualization, and no existing human cell cultures recapitulate the cyclic interactions between endometrial stromal and epithelial compartments necessary for decidualization and implantation. Here we report a protocol differentiating human pluripotent stem cells into endometrial stromal fibroblasts (PSC-ESFs) that are highly pure and able to decidualize. Coculture of PSC-ESFs with placenta-derived endometrial epithelial cells generated organoids used to examine stromal-epithelial interactions. Cocultures exhibited specific endometrial markers in the appropriate compartments, organization with cell polarity, and hormone responsiveness of both cell types. Furthermore, cocultures recapitulate a central feature of the human decidua by cyclically responding to hormone withdrawal followed by hormone retreatment. This advance enables mechanistic studies of the cyclic responses that characterize the human endometrium.

Published

2021

9. Targeted Germline Modifications in Rats Using CRISPR/Cas9 and Spermatogonial Stem Cells

Author

Karen M. Chapman, Gerardo A. Medrano, Priscilla Jaichander, Jaideep Chaudhary, Alexandra E. Waits, Marcelo A. Nobrega, James M. Hotaling, Carole Ober, and F. Kent Hamra

Subjects

Biology (General), QH301-705.5

Abstract

Organisms with targeted genomic modifications are efficiently produced by gene editing in embryos using CRISPR/Cas9 RNA-guided DNA endonuclease. Here, to facilitate germline editing in rats, we used CRISPR/Cas9 to catalyze targeted genomic mutations in rat spermatogonial stem cell cultures. CRISPR/Cas9-modified spermatogonia regenerated spermatogenesis and displayed long-term sperm-forming potential following transplantation into rat testes. Targeted germline mutations in Epsti1 and Erbb3 were vertically transmitted from recipients to exclusively generate “pure,” non-mosaic mutant progeny. Epsti1 mutant rats were produced with or without genetic selection of donor spermatogonia. Monoclonal enrichment of Erbb3 null germlines unmasked recessive spermatogenesis defects in culture that were buffered in recipients, yielding mutant progeny isogenic at targeted alleles. Thus, spermatogonial gene editing with CRISPR/Cas9 provided a platform for generating targeted germline mutations in rats and for studying spermatogenesis.

Published

2015

10. A pleiotropic hypoxia-sensitive EPAS1 enhancer is disrupted by adaptive alleles in Tibetans

Author

Olivia A. Gray, Jennifer Yoo, Débora R. Sobreira, Jordan Jousma, David Witonsky, Noboru J. Sakabe, Ying-Jie Peng, Nanduri R. Prabhakar, Yun Fang, Marcelo A. Nobréga, and Anna Di Rienzo

Subjects

Multidisciplinary

Abstract

In Tibetans, noncoding alleles in EPAS1 —whose protein product hypoxia-inducible factor 2α (HIF-2α) drives the response to hypoxia—carry strong signatures of positive selection; however, their functional mechanism has not been systematically examined. Here, we report that high-altitude alleles disrupt the activity of four EPAS1 enhancers in one or more cell types. We further characterize one enhancer (ENH5) whose activity is both allele specific and hypoxia dependent. Deletion of ENH5 results in down-regulation of EPAS1 and HIF-2α targets in acute hypoxia and in a blunting of the transcriptional response to sustained hypoxia. Deletion of ENH5 in mice results in dysregulation of gene expression across multiple tissues. We propose that pleiotropic adaptive effects of the Tibetan alleles in EPAS1 underlie the strong selective signal at this gene.

Published

2022