An ATF6-tPA pathway in hepatocytes contributes to systemic fibrinolysis and is repressed by DACH1

Tissue-type plasminogen activator (tPA) is a major mediator of fibrinolysis and, thereby, prevents excessive coagulation without compromising hemostasis. Studies on tPA regulation have focused on its acute local release by vascular cells in response to injury or other stimuli. However, very little i...

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Main Authors: Pestell, Richard George, Zheng, Ze, Nayak, Lalitha, Wang, Wei, Wang, Xiaobo, Cai, Bishuang, Lapping, Stephanie, Ozcan, Lale, Ramakrishnan, Rajasekhar, Jain, Mukesh K., Tabas, Ira, Yurdagul Jr, Arif
Other Authors: Lee Kong Chian School of Medicine (LKCMedicine)
Format: Article
Language:English
Published: 2019
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Online Access:https://hdl.handle.net/10356/105253
http://hdl.handle.net/10220/48665
http://dx.doi.org/10.1182/blood-2018-07-864843
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1052532019-12-06T21:48:03Z An ATF6-tPA pathway in hepatocytes contributes to systemic fibrinolysis and is repressed by DACH1 Pestell, Richard George Zheng, Ze Nayak, Lalitha Wang, Wei Wang, Xiaobo Cai, Bishuang Lapping, Stephanie Ozcan, Lale Ramakrishnan, Rajasekhar Jain, Mukesh K. Tabas, Ira Yurdagul Jr, Arif Lee Kong Chian School of Medicine (LKCMedicine) Fibrinolysis Hepatocyte-Derived tPA DRNTU::Science::Medicine Tissue-type plasminogen activator (tPA) is a major mediator of fibrinolysis and, thereby, prevents excessive coagulation without compromising hemostasis. Studies on tPA regulation have focused on its acute local release by vascular cells in response to injury or other stimuli. However, very little is known about sources, regulation, and fibrinolytic function of noninjury-induced systemic plasma tPA. We explore the role and regulation of hepatocyte-derived tPA as a source of basal plasma tPA activity and as a contributor to fibrinolysis after vascular injury. We show that hepatocyte tPA is downregulated by a pathway in which the corepressor DACH1 represses ATF6, which is an inducer of the tPA gene Plat. Hepatocyte-DACH1–knockout mice show increases in liver Plat, circulating tPA, fibrinolytic activity, bleeding time, and time to thrombosis, which are reversed by silencing hepatocyte Plat. Conversely, hepatocyte-ATF6–knockout mice show decreases in these parameters. The inverse correlation between DACH1 and ATF6/PLAT is conserved in human liver. These findings reveal a regulated pathway in hepatocytes that contributes to basal circulating levels of tPA and to fibrinolysis after vascular injury. 2019-06-12T03:59:32Z 2019-12-06T21:48:03Z 2019-06-12T03:59:32Z 2019-12-06T21:48:03Z 2019 Journal Article Zheng, Z., Nayak, L., Wang, W., Yurdagul Jr, A., Wang, X., Cai, B., . . . Tabas, I. (2019). An ATF6-tPA pathway in hepatocytes contributes to systemic fibrinolysis and is repressed by DACH1. Blood, 133(7), 743-753. doi:10.1182/blood-2018-07-864843 0006-4971 https://hdl.handle.net/10356/105253 http://hdl.handle.net/10220/48665 http://dx.doi.org/10.1182/blood-2018-07-864843 en Blood © 2019 The American Society of Hematology. All rights reserved.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Fibrinolysis
Hepatocyte-Derived tPA
DRNTU::Science::Medicine
spellingShingle Fibrinolysis
Hepatocyte-Derived tPA
DRNTU::Science::Medicine
Pestell, Richard George
Zheng, Ze
Nayak, Lalitha
Wang, Wei
Wang, Xiaobo
Cai, Bishuang
Lapping, Stephanie
Ozcan, Lale
Ramakrishnan, Rajasekhar
Jain, Mukesh K.
Tabas, Ira
Yurdagul Jr, Arif
An ATF6-tPA pathway in hepatocytes contributes to systemic fibrinolysis and is repressed by DACH1
description Tissue-type plasminogen activator (tPA) is a major mediator of fibrinolysis and, thereby, prevents excessive coagulation without compromising hemostasis. Studies on tPA regulation have focused on its acute local release by vascular cells in response to injury or other stimuli. However, very little is known about sources, regulation, and fibrinolytic function of noninjury-induced systemic plasma tPA. We explore the role and regulation of hepatocyte-derived tPA as a source of basal plasma tPA activity and as a contributor to fibrinolysis after vascular injury. We show that hepatocyte tPA is downregulated by a pathway in which the corepressor DACH1 represses ATF6, which is an inducer of the tPA gene Plat. Hepatocyte-DACH1–knockout mice show increases in liver Plat, circulating tPA, fibrinolytic activity, bleeding time, and time to thrombosis, which are reversed by silencing hepatocyte Plat. Conversely, hepatocyte-ATF6–knockout mice show decreases in these parameters. The inverse correlation between DACH1 and ATF6/PLAT is conserved in human liver. These findings reveal a regulated pathway in hepatocytes that contributes to basal circulating levels of tPA and to fibrinolysis after vascular injury.
author2 Lee Kong Chian School of Medicine (LKCMedicine)
author_facet Lee Kong Chian School of Medicine (LKCMedicine)
Pestell, Richard George
Zheng, Ze
Nayak, Lalitha
Wang, Wei
Wang, Xiaobo
Cai, Bishuang
Lapping, Stephanie
Ozcan, Lale
Ramakrishnan, Rajasekhar
Jain, Mukesh K.
Tabas, Ira
Yurdagul Jr, Arif
format Article
author Pestell, Richard George
Zheng, Ze
Nayak, Lalitha
Wang, Wei
Wang, Xiaobo
Cai, Bishuang
Lapping, Stephanie
Ozcan, Lale
Ramakrishnan, Rajasekhar
Jain, Mukesh K.
Tabas, Ira
Yurdagul Jr, Arif
author_sort Pestell, Richard George
title An ATF6-tPA pathway in hepatocytes contributes to systemic fibrinolysis and is repressed by DACH1
title_short An ATF6-tPA pathway in hepatocytes contributes to systemic fibrinolysis and is repressed by DACH1
title_full An ATF6-tPA pathway in hepatocytes contributes to systemic fibrinolysis and is repressed by DACH1
title_fullStr An ATF6-tPA pathway in hepatocytes contributes to systemic fibrinolysis and is repressed by DACH1
title_full_unstemmed An ATF6-tPA pathway in hepatocytes contributes to systemic fibrinolysis and is repressed by DACH1
title_sort atf6-tpa pathway in hepatocytes contributes to systemic fibrinolysis and is repressed by dach1
publishDate 2019
url https://hdl.handle.net/10356/105253
http://hdl.handle.net/10220/48665
http://dx.doi.org/10.1182/blood-2018-07-864843
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