Anti-VEGF agents confer survival advantages to tumor-bearing mice by improving cancer-associated systemic syndrome

Yuan Xue; Piotr Religa; Renhai Cao; Anker Jon Hansen; Franco Lucchini; Bernt Jones; Yan Wu; Zhenping Zhu; Bronislaw Pytowski; Yuxiang Liang; Weide Zhong; Paolo Vezzoni; Björn Rozell; Yihai Cao

doi:10.1073/pnas.0807967105

Anti-VEGF agents confer survival advantages to tumor-bearing mice by improving cancer-associated systemic syndrome

Yuan Xue
, Piotr Religa
, Renhai Cao^*
, Anker Jon Hansen
, Franco Lucchini
, Bernt Jones
, Yan Wu
, Zhenping Zhu
, Bronislaw Pytowski
, Yuxiang Liang
, Weide Zhong
, Paolo Vezzoni
, Björn Rozell
, Yihai Cao

^*Corresponding author

Karolinska Institutet
Novo Nordisk Foundation
Swedish University of Agricultural Sciences
Eli Lilly
First Hospital of Guangzhou
National Research Council of Italy

Research output: Contribution to journal › Article

Abstract

The underlying mechanism by which anti-VEGF agents prolong cancer patient survival is poorly understood. We show that in a mouse tumor model, VEGF systemically impairs functions of multiple organs including those in the hematopoietic and endocrine systems, leading to early death. Anti-VEGF antibody, bevacizumab, and anti-VEGF receptor 2 (VEGFR-2), but not anti-VEGFR-1, reversed VEGF-induced cancer-associated systemic syndrome (CASS) and prevented death in tumor-bearing mice. Surprisingly, VEGFR2 blockage improved survival by rescuing mice from CASS without significantly compromising tumor growth, suggesting that “off-tumor” VEGF targets are more sensitive than the tumor vasculature to anti-VEGF drugs. Similarly, VEGF-induced CASS occurred in a spontaneous breast cancer mouse model overexpressing neu. Clinically, VEGF expression and CASS severity positively correlated in various human cancers. These findings define novel therapeutic targets of anti-VEGF agents and provide mechanistic insights into the action of this new class of clinically available anti-VEGF cancer drugs.

Original language	English
Pages (from-to)	18513-18518
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	105
DOIs	https://doi.org/10.1073/pnas.0807967105
Publication status	Published - 2008

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

angiogenesis, antiangiogenic therapy, cancer syndrome, tumor growth, VEGF

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10.1073/pnas.0807967105

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Xue, Y., Religa, P., Cao, R., Hansen, A. J., Lucchini, F., Jones, B., Wu, Y., Zhu, Z., Pytowski, B., Liang, Y., Zhong, W., Vezzoni, P., Rozell, B., & Cao, Y. (2008). Anti-VEGF agents confer survival advantages to tumor-bearing mice by improving cancer-associated systemic syndrome. Proceedings of the National Academy of Sciences of the United States of America, 105, 18513-18518. https://doi.org/10.1073/pnas.0807967105

@article{d5e42821efda4c38be102bec8d89c562,

title = "Anti-VEGF agents confer survival advantages to tumor-bearing mice by improving cancer-associated systemic syndrome",

abstract = "The underlying mechanism by which anti-VEGF agents prolong cancer patient survival is poorly understood. We show that in a mouse tumor model, VEGF systemically impairs functions of multiple organs including those in the hematopoietic and endocrine systems, leading to early death. Anti-VEGF antibody, bevacizumab, and anti-VEGF receptor 2 (VEGFR-2), but not anti-VEGFR-1, reversed VEGF-induced cancer-associated systemic syndrome (CASS) and prevented death in tumor-bearing mice. Surprisingly, VEGFR2 blockage improved survival by rescuing mice from CASS without significantly compromising tumor growth, suggesting that “off-tumor” VEGF targets are more sensitive than the tumor vasculature to anti-VEGF drugs. Similarly, VEGF-induced CASS occurred in a spontaneous breast cancer mouse model overexpressing neu. Clinically, VEGF expression and CASS severity positively correlated in various human cancers. These findings define novel therapeutic targets of anti-VEGF agents and provide mechanistic insights into the action of this new class of clinically available anti-VEGF cancer drugs.",

keywords = "angiogenesis, antiangiogenic therapy, cancer syndrome, tumor growth, VEGF, angiogenesis, antiangiogenic therapy, cancer syndrome, tumor growth, VEGF",

author = "Yuan Xue and Piotr Religa and Renhai Cao and Hansen, \{Anker Jon\} and Franco Lucchini and Bernt Jones and Yan Wu and Zhenping Zhu and Bronislaw Pytowski and Yuxiang Liang and Weide Zhong and Paolo Vezzoni and Bj{\"o}rn Rozell and Yihai Cao",

year = "2008",

doi = "10.1073/pnas.0807967105",

language = "English",

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Xue, Y, Religa, P, Cao, R, Hansen, AJ, Lucchini, F, Jones, B, Wu, Y, Zhu, Z, Pytowski, B, Liang, Y, Zhong, W, Vezzoni, P, Rozell, B & Cao, Y 2008, 'Anti-VEGF agents confer survival advantages to tumor-bearing mice by improving cancer-associated systemic syndrome', Proceedings of the National Academy of Sciences of the United States of America, vol. 105, pp. 18513-18518. https://doi.org/10.1073/pnas.0807967105

TY - JOUR

T1 - Anti-VEGF agents confer survival advantages to tumor-bearing mice by improving cancer-associated systemic syndrome

AU - Xue, Yuan

AU - Religa, Piotr

AU - Cao, Renhai

AU - Hansen, Anker Jon

AU - Lucchini, Franco

AU - Jones, Bernt

AU - Wu, Yan

AU - Zhu, Zhenping

AU - Pytowski, Bronislaw

AU - Liang, Yuxiang

AU - Zhong, Weide

AU - Vezzoni, Paolo

AU - Rozell, Björn

AU - Cao, Yihai

PY - 2008

Y1 - 2008

N2 - The underlying mechanism by which anti-VEGF agents prolong cancer patient survival is poorly understood. We show that in a mouse tumor model, VEGF systemically impairs functions of multiple organs including those in the hematopoietic and endocrine systems, leading to early death. Anti-VEGF antibody, bevacizumab, and anti-VEGF receptor 2 (VEGFR-2), but not anti-VEGFR-1, reversed VEGF-induced cancer-associated systemic syndrome (CASS) and prevented death in tumor-bearing mice. Surprisingly, VEGFR2 blockage improved survival by rescuing mice from CASS without significantly compromising tumor growth, suggesting that “off-tumor” VEGF targets are more sensitive than the tumor vasculature to anti-VEGF drugs. Similarly, VEGF-induced CASS occurred in a spontaneous breast cancer mouse model overexpressing neu. Clinically, VEGF expression and CASS severity positively correlated in various human cancers. These findings define novel therapeutic targets of anti-VEGF agents and provide mechanistic insights into the action of this new class of clinically available anti-VEGF cancer drugs.

AB - The underlying mechanism by which anti-VEGF agents prolong cancer patient survival is poorly understood. We show that in a mouse tumor model, VEGF systemically impairs functions of multiple organs including those in the hematopoietic and endocrine systems, leading to early death. Anti-VEGF antibody, bevacizumab, and anti-VEGF receptor 2 (VEGFR-2), but not anti-VEGFR-1, reversed VEGF-induced cancer-associated systemic syndrome (CASS) and prevented death in tumor-bearing mice. Surprisingly, VEGFR2 blockage improved survival by rescuing mice from CASS without significantly compromising tumor growth, suggesting that “off-tumor” VEGF targets are more sensitive than the tumor vasculature to anti-VEGF drugs. Similarly, VEGF-induced CASS occurred in a spontaneous breast cancer mouse model overexpressing neu. Clinically, VEGF expression and CASS severity positively correlated in various human cancers. These findings define novel therapeutic targets of anti-VEGF agents and provide mechanistic insights into the action of this new class of clinically available anti-VEGF cancer drugs.

KW - angiogenesis, antiangiogenic therapy, cancer syndrome, tumor growth, VEGF

UR - http://hdl.handle.net/10807/218407

U2 - 10.1073/pnas.0807967105

DO - 10.1073/pnas.0807967105

M3 - Article

SN - 0027-8424

VL - 105

SP - 18513

EP - 18518

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

ER -

Anti-VEGF agents confer survival advantages to tumor-bearing mice by improving cancer-associated systemic syndrome

Abstract

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Keywords

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