Your search keyword '"Emily L. Henault"' showing total 2 results

1. Transcription factor induction of vascular blood stem cell niches in vivo

Author

Elliott J. Hagedorn, Julie R. Perlin, Rebecca J. Freeman, Samuel J. Wattrus, Tianxiao Han, Clara Mao, Ji Wook Kim, Inés Fernández-Maestre, Madeleine L. Daily, Christopher D’Amato, Michael J. Fairchild, Raquel Riquelme, Brian Li, Dana A.V.E. Ragoonanan, Khaliun Enkhbayar, Emily L. Henault, Helen G. Wang, Shelby E. Redfield, Samantha H. Collins, Asher Lichtig, Song Yang, Yi Zhou, Balvir Kunar, Jesus Maria Gomez-Salinero, Thanh T. Dinh, Junliang Pan, Karoline Holler, Henry A. Feldman, Eugene C. Butcher, Alexander van Oudenaarden, Shahin Rafii, J. Philipp Junker, and Leonard I. Zon

Subjects

Cancer Research, Cell Biology, Molecular Biology, General Biochemistry, Genetics and Molecular Biology, Developmental Biology

Abstract

The hematopoietic niche is a supportive microenvironment composed of distinct cell types, including specialized vascular endothelial cells that directly interact with hematopoietic stem and progenitor cells (HSPCs). The molecular factors that specify niche endothelial cells and orchestrate HSPC homeostasis remain largely unknown. Using multi-dimensional gene expression and chromatin accessibility analyses in zebrafish, we define a conserved gene expression signature and cis-regulatory landscape that are unique to sinusoidal endothelial cells in the HSPC niche. Using enhancer mutagenesis and transcription factor overexpression, we elucidate a transcriptional code that involves members of the Ets, Sox, and nuclear hormone receptor families and is sufficient to induce ectopic niche endothelial cells that associate with mesenchymal stromal cells and support the recruitment, maintenance, and division of HSPCs in vivo. These studies set forth an approach for generating synthetic HSPC niches, in vitro or in vivo, and for effective therapies to modulate the endogenous niche.

Published

2023

2. Transcription factor induction of vascular blood stem cell niches in vivo

Author

Michael J. Fairchild, Rebecca J. Freeman, Khaliun Enkhbayar, Samantha H. Collins, Samuel J. Wattrus, Eugene C. Butcher, Helen G. Wang, Jesus M. Gomez-Salinero, Elliott J. Hagedorn, Julie R. Perlin, Yi Zhou, Inés Fernández-Maestre, Brian Li, Christopher D’Amato, Emily L. Henault, Henry A. Feldman, Thanh Theresa Dinh, Alexander van Oudenaarden, Leonard I. Zon, Shelby E. Redfield, Raquel Riquelme, Shahin Rafii, Asher Lichtig, Song Yang, Karoline Holler, Junliang Pan, Clara Mao, Balvir Kunar, Tianxiao Han, Dana A.V.E. Ragoonanan, Ji Wook Kim, J. Philipp Junker, and Madeleine L. Daily

Subjects

Haematopoiesis, Cell type, Nuclear receptor, Mesenchymal stem cell, Progenitor cell, Biology, Enhancer, Transcription factor, Cell biology, Chromatin

Abstract

The hematopoietic niche is a supportive microenvironment comprised of distinct cell types, including specialized vascular endothelial cells that directly interact with hematopoietic stem and progenitor cells (HSPCs). The molecular factors that specify niche endothelial cells and orchestrate HSPC homeostasis remain largely unknown. Using multi-dimensional gene expression and chromatin accessibility analyses, we define a conserved gene expression signature and cis-regulatory landscape unique to sinusoidal endothelial cells in the HSPC niche. Using enhancer mutagenesis and transcription factor overexpression, we elucidate a transcriptional code involving members of the Ets, Sox and Nuclear Hormone Receptor families that is sufficient to induce ectopic niche endothelial cells that associate with mesenchymal stromal cells and support the recruitment, maintenance and division of HSPCs in vivo. These studies set forth an approach for generating synthetic HSPC niches, in vitro or in vivo, and for effective therapies to modulate the endogenous niche.

Published

2021