The Amino-Terminal Oligomerization Domain of Angiopoietin-2 Affects Vascular Remodeling, Mammary Gland Tumor Growth, and Lung Metastasis in Mice

Angiopoietin-2 (ANGPT2) is a context-dependent TIE2 agonistic or antagonistic ligand that induces diverse responses in cancer. Blocking ANGPT2 provides a promising strategy for inhibiting tumor growth and metastasis, yet variable effects of targeting ANGPT2 have complicated drug development. ANGPT2...

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Veröffentlicht in:	Cancer research (Chicago, Ill.) Ill.), 2021-01, Vol.81 (1), p.129-143
Hauptverfasser:	Kapiainen, Emmi, Kihlström, Minna K, Pietilä, Riikka, Kaakinen, Mika, Ronkainen, Veli-Pekka, Tu, Hongmin, Heikkinen, Anne, Devarajan, Raman, Miinalainen, Ilkka, Laitakari, Anna, Ansarizadeh, Mohammadhassan, Zhang, Qin, Wei, Gong-Hong, Ruddock, Lloyd, Pihlajaniemi, Taina, Elamaa, Harri, Eklund, Lauri
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Schlagworte:	Angiopoietin-1 Angiopoietin-2 - genetics Angiopoietins Animals Lung Neoplasms - genetics Melanoma Mice Neovascularization, Pathologic - genetics Vascular Remodeling
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creator	Kapiainen, Emmi Kihlström, Minna K Pietilä, Riikka Kaakinen, Mika Ronkainen, Veli-Pekka Tu, Hongmin Heikkinen, Anne Devarajan, Raman Miinalainen, Ilkka Laitakari, Anna Ansarizadeh, Mohammadhassan Zhang, Qin Wei, Gong-Hong Ruddock, Lloyd Pihlajaniemi, Taina Elamaa, Harri Eklund, Lauri
description	Angiopoietin-2 (ANGPT2) is a context-dependent TIE2 agonistic or antagonistic ligand that induces diverse responses in cancer. Blocking ANGPT2 provides a promising strategy for inhibiting tumor growth and metastasis, yet variable effects of targeting ANGPT2 have complicated drug development. ANGPT2 is a naturally occurring, lower oligomeric protein isoform whose expression is increased in cancer. Here, we use a knock-in mouse line (mice expressing Angpt2 ), a genetic model for breast cancer and metastasis (MMTV- ), a syngeneic melanoma lung colonization model (B16F10), and orthotopic injection of E0771 breast cancer cells to show that alternative forms increase the diversity of Angpt2 function. In a mouse retina model of angiogenesis, expression of Angpt2 caused impaired venous development, suggesting enhanced function as a competitive antagonist for Tie2. In mammary gland tumor models, Angpt2 differentially affected primary tumor growth and vascularization; these varying effects were associated with Angpt2 protein localization in the endothelium or in the stromal extracellular matrix as well as the frequency of Tie2-positive tumor blood vessels. In the presence of metastatic cells, Angpt2 promoted destabilization of pulmonary vasculature and lung metastasis. , ANGPT2 was susceptible to proteolytical cleavage, resulting in a monomeric ligand (ANGPT2 ) that inhibited ANGPT1- or ANGPT4-induced TIE2 activation but did not bind to alternative ANGPT2 receptor α5β1 integrin. Collectively, these data reveal novel roles for the ANGPT2 N-terminal domain in blood vessel remodeling, tumor growth, metastasis, integrin binding, and proteolytic regulation. SIGNIFICANCE: This study identifies the role of the N-terminal oligomerization domain of angiopoietin-2 in vascular remodeling and lung metastasis and provides new insights into mechanisms underlying the versatile functions of angiopoietin-2 in cancer. .
doi_str_mv	10.1158/0008-5472.CAN-19-1904
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Blocking ANGPT2 provides a promising strategy for inhibiting tumor growth and metastasis, yet variable effects of targeting ANGPT2 have complicated drug development. ANGPT2 is a naturally occurring, lower oligomeric protein isoform whose expression is increased in cancer. Here, we use a knock-in mouse line (mice expressing Angpt2 ), a genetic model for breast cancer and metastasis (MMTV- ), a syngeneic melanoma lung colonization model (B16F10), and orthotopic injection of E0771 breast cancer cells to show that alternative forms increase the diversity of Angpt2 function. In a mouse retina model of angiogenesis, expression of Angpt2 caused impaired venous development, suggesting enhanced function as a competitive antagonist for Tie2. In mammary gland tumor models, Angpt2 differentially affected primary tumor growth and vascularization; these varying effects were associated with Angpt2 protein localization in the endothelium or in the stromal extracellular matrix as well as the frequency of Tie2-positive tumor blood vessels. In the presence of metastatic cells, Angpt2 promoted destabilization of pulmonary vasculature and lung metastasis. , ANGPT2 was susceptible to proteolytical cleavage, resulting in a monomeric ligand (ANGPT2 ) that inhibited ANGPT1- or ANGPT4-induced TIE2 activation but did not bind to alternative ANGPT2 receptor α5β1 integrin. Collectively, these data reveal novel roles for the ANGPT2 N-terminal domain in blood vessel remodeling, tumor growth, metastasis, integrin binding, and proteolytic regulation. 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In mammary gland tumor models, Angpt2 differentially affected primary tumor growth and vascularization; these varying effects were associated with Angpt2 protein localization in the endothelium or in the stromal extracellular matrix as well as the frequency of Tie2-positive tumor blood vessels. In the presence of metastatic cells, Angpt2 promoted destabilization of pulmonary vasculature and lung metastasis. , ANGPT2 was susceptible to proteolytical cleavage, resulting in a monomeric ligand (ANGPT2 ) that inhibited ANGPT1- or ANGPT4-induced TIE2 activation but did not bind to alternative ANGPT2 receptor α5β1 integrin. Collectively, these data reveal novel roles for the ANGPT2 N-terminal domain in blood vessel remodeling, tumor growth, metastasis, integrin binding, and proteolytic regulation. 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subjects	Angiopoietin-1 Angiopoietin-2 - genetics Angiopoietins Animals Lung Neoplasms - genetics Melanoma Mice Neovascularization, Pathologic - genetics Vascular Remodeling
title	The Amino-Terminal Oligomerization Domain of Angiopoietin-2 Affects Vascular Remodeling, Mammary Gland Tumor Growth, and Lung Metastasis in Mice
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