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Featured researches published by Seungwoon Seo.


Journal of Biological Chemistry | 2008

The Foxc2 Transcription Factor Regulates Angiogenesis via Induction of Integrin β3 Expression

Hisaki Hayashi; Hideto Sano; Seungwoon Seo; Tsutomu Kume

Forkhead transcription factor Foxc2 is an essential regulator of the cardiovascular system in development and disease. However, the cellular and molecular functions of Foxc2 in vascular endothelial cells are still not fully understood. Here, through gene expression profiling in endothelial cells, we identified molecules associated with cell-extracellular matrix interactions, integrin β3 (Itgb3), integrin β5 (Itgb5), and fibronectin, as downstream targets of Foxc2. We found that Itgb3 expression is directly regulated by Foxc2 through multiple Forkhead-binding elements within two high homology regions in the Itgb3 promoter. Because Itgb3 is known to regulate angiogenesis, we further tested whether Foxc2 is directly involved in angiogenesis by regulating Itgb3 expression by in vitro experiments. Overexpression of Foxc2 significantly enhanced endothelial cell migration and adhesion, whereas this effect was strongly inhibited by Itgb3 neutralization antibody. In accordance with these results, pulmonary microvascular endothelial cells isolated from Foxc2 heterozygous mutant mice showed a marked reduction in Itgb3 expression and cell migration. Finally, ex vivo aortic ring assay to test the sprouting and microvessel formation revealed enhanced microvessel outgrowth by Foxc2 overexpression. Conversely, microvessel outgrowth from aortas of Foxc2 heterozygous mutant mice was reduced. Taken together, these results suggest that Foxc2 directly induces Itgb3 expression and regulates angiogenesis by Itgb3-mediated endothelial cell adhesion and migration.


Proceedings of the National Academy of Sciences of the United States of America | 2012

Forkhead box transcription factor FoxC1 preserves corneal transparency by regulating vascular growth

Seungwoon Seo; Hardeep P. Singh; Pedro M. Lacal; Amy Sasman; Anees Fatima; Ting Liu; Kathryn M. Schultz; Douglas W. Losordo; Ordan J. Lehmann; Tsutomu Kume

Normal vision requires the precise control of vascular growth to maintain corneal transparency. Here we provide evidence for a unique mechanism by which the Forkhead box transcription factor FoxC1 regulates corneal vascular development. Murine Foxc1 is essential for development of the ocular anterior segment, and in humans, mutations have been identified in Axenfeld–Rieger syndrome, a disorder characterized by anterior segment dysgenesis. We show that FOXC1 mutations also lead to corneal angiogenesis, and that mice homozygous for either a global (Foxc1−/−) or neural crest (NC)-specific (NC-Foxc1−/−) null mutation display excessive growth of corneal blood and lymphatic vessels. This is associated with disorganization of the extracellular matrix and increased expression of multiple matrix metalloproteinases. Heterozygous mutants (Foxc1+/− and NC-Foxc1+/−) exhibit milder phenotypes, such as disrupted limbal vasculature. Moreover, environmental exposure to corneal injury significantly increases growth of both blood and lymphatic vessels in both Foxc1+/− and NC-Foxc1+/− mice compared with controls. Notably, this amplification of the angiogenic response is abolished by inhibition of VEGF receptor 2. Collectively, these findings identify a role for FoxC1 in inhibiting corneal angiogenesis, thereby maintaining corneal transparency by regulating VEGF signaling.


Biochemical and Biophysical Research Communications | 2010

The Foxc2 transcription factor regulates tumor angiogenesis

Hideto Sano; Jared P. LeBoeuf; Sergey V. Novitskiy; Seungwoon Seo; Snjezana Zaja-Milatovic; Mikhail M. Dikov; Tsutomu Kume

The Forkhead/Fox transcription factor Foxc2 is a critical regulator of vascular development. However, the role of Foxc2 in pathological angiogenesis in cancer remains unknown. Here we show that FoxC2 is highly expressed in human breast and colonic tumors and in the tumor endothelium in human and mouse melanomas. Using the B16 melanoma tumor model, we investigated the function of Foxc2 in tumor angiogenesis. After subcutaneous injection of B16 melanoma cells, primary tumor growth as well as neovascularization was markedly reduced in mice lacking one copy of the Foxc2 gene (Foxc2+/-). Consistently, expression levels of several angiogenic factors, including vascular endothelial growth factor (Vegf), matrix metallopeptidase 2 (Mmp2), and platelet-derived growth factor-B (Pdgfb), were significantly decreased in B16 tumors grown in Foxc2+/- mice, and tumor blood vessels formed in Foxc2+/- mice showed reduced coverage of mural cells and endothelial cell apoptosis. In addition, the tumor tissue in Foxc2+/- mice had an accumulation of necrotic cells. Taken together, these findings demonstrate that haplodeficiency of Foxc2 results in impaired formation of tumor blood vessels as well as reduced tumor growth and thereby provide evidence that Foxc2 is critical for tumor development and angiogenesis.


Investigative Ophthalmology & Visual Science | 2017

Foxc1 and Foxc2 in the Neural Crest Are Required for Ocular Anterior Segment Development

Seungwoon Seo; Lisheng Chen; Wenzhong Liu; Demin Zhao; Kathryn M. Schultz; Amy Sasman; Ting Liu; Hao F. Zhang; Philip J. Gage; Tsutomu Kume

Purpose The large Forkhead (Fox) transcription factor family has essential roles in development, and mutations cause a wide range of ocular and nonocular disease. One member, Foxc2 is expressed in neural crest (NC)-derived periocular mesenchymal cells of the developing murine eye; however, its precise role in the development, establishment, and maintenance of the ocular surface has yet to be investigated. Methods To specifically delete Foxc2 from NC-derived cells, conditional knockout mice for Foxc2 (NC-Foxc2−/−) were generated by crossing Foxc2F mice with Wnt1-Cre mice. Similarly, we also generated compound NC-specific mutations of Foxc2 and a closely related gene, Foxc1 (NC-Foxc1−/−;NC-Foxc2−/−) in mice. Results Neural crest-Foxc2−/− mice show abnormal thickness in the peripheral-to-central corneal stroma and limbus and displaced pupils with irregular iris. The neural crest-specific mutation in Foxc2 also leads to ectopic neovascularization in the cornea, as well as impaired ocular epithelial cell identity and corneal conjunctivalization. Compound, NC-specific Foxc1; Foxc2 homozygous mutant mice have more severe defects in structures of the ocular surface, such as the cornea and eyelids, accompanied by significant declines in the expression of another key developmental factor, Pitx2, and its downstream effector Dkk2, which antagonizes canonical Wnt signaling. Conclusions The neural crest-Foxc2 mutation is associated with corneal conjunctivalization, ectopic corneal neovascularization, and disrupted ocular epithelial cell identity. Furthermore, Foxc2 and Foxc1 cooperatively function in NC-derived mesenchymal cells to ensure proper morphogenesis of the ocular surface via the regulation of Wnt signaling. Together, Foxc2 is required in the NC lineage for mesenchymal-epithelial interactions in corneal and ocular surface development.


Archive | 2015

Whole-Mount Immunostaining Methods to Study the Blood and Lymphatic Vasculature in the Embryonic Mouse Skin and Adult Mouse Cornea

Anees Fatima; Kathryn Marie-Schultz; Seungwoon Seo; Ford Culver; Austin Culver; Tsutomu Kume

In order to study the lymphatic/blood vascular system, in mouse adult/embryonic tissues we often make use of histological sections. Although immunostaining of histologic sections does give an idea of the underlying vasculature, one of the shortcomings of these methods includes lack of possibilities of studying the vessel branching patterns. The whole mount staining of various mouse tissues provides an opportunity to study the entire vasculature including whole vessel width, vascular morphogenesis, and valve formations. Additionally data quantification of lymphatic/blood vasculature is often most accurate with whole mount immunostaining. In this chapter we present simple techniques for staining whole mount mouse embryonic dorsal skins (DS) and adult mouse corneal tissues for visualization of lymphatic and blood vasculature for research purposes.


Proceedings of the National Academy of Sciences of the United States of America | 2012

Reply to Chakrabarti et al.: Corneal angiogenesis in patients with null FOXC1 variants

Seungwoon Seo; Hardeep P. Singh; Pedro M. Lacal; Amy Sasman; Anees Fatima; Ting Liu; Kathryn M. Schultz; Douglas W. Losordo; Ordan J. Lehmann; Tsutomu Kume

In the 15 years since transcription factor mutation, and subsequently dosage alterations, were shown to account for a proportion of Axenfeld–Rieger syndrome cases, novel phenotypes continue to be defined. As illustrated by the spectrum of FOXC1 -attributable CNS anomalies (1, 2), these are frequently present in a subset of cases and only identified by meticulous phenotyping. Our original article in PNAS (3) demonstrated that a proportion of patients with a mutation or altered FOXC1 gene dosage exhibited corneal angiogenesis, confirming our extensive data from multiple murine mutants regarding Foxc1’s role in maintaining corneal avascularity. … [↵][1]1To whom correspondence should be addressed. E-mail: t-kume{at}northwestern.edu. [1]: #xref-corresp-1-1


Developmental Biology | 2006

The forkhead transcription factors, Foxc1 and Foxc2, are required for arterial specification and lymphatic sprouting during vascular development

Seungwoon Seo; Hideo Fujita; Atsushi Nakano; Myengmo Kang; Antonio Duarte; Tsutomu Kume


Developmental Biology | 2006

Forkhead transcription factors, Foxc1 and Foxc2, are required for the morphogenesis of the cardiac outflow tract

Seungwoon Seo; Tsutomu Kume


Investigative Ophthalmology & Visual Science | 2013

Deletion of Foxc1 and/or Foxc2 from neural crest cells leads to corneal vascularization and anterior segment dysgenesis

Tsutomu Kume; Kathryn M. Schultz; Amy Sasman; Seungwoon Seo


Angiogenesis | 2013

Fox transcription factors in corneal angiogenesis

Kathryn M. Schultz; Amy Sasman; Seungwoon Seo; Hardeep P. Singh; Pedro M. Lacal; Anees Fatima; Liu Ting; Douglas W. Losordo; Ordan J. Lehmann; Tsutomu Kume

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Tsutomu Kume

Northwestern University

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Amy Sasman

Northwestern University

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Anees Fatima

Northwestern University

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Ting Liu

Northwestern University

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Hisaki Hayashi

Vanderbilt University Medical Center

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