Macrophage depletion through colony stimulating factor 1 receptor pathway blockade overcomes adaptive resistance to anti-VEGF therapy

Yasmin A. Lyons; Sunila Pradeep; Sherry Y. Wu; Monika Haemmerle; Jean M. Hansen; Michael J. Wagner; Alejandro Villar-Prados; Archana S. Nagaraja; Robert L. Dood; Rebecca A. Previs; Wei Hu; Yang Zhao; Duncan H. Mak; Zhilan Xiao; Brenda D. Melendez; Gregory A. Lizee; Imelda Mercado-Uribe; Keith A. Baggerly; Patrick Hwu; Jinsong Liu; Willem W. Overwijk; Robert L. Coleman; Anil K. Sood

doi:10.18632/oncotarget.20410

Macrophage depletion through colony stimulating factor 1 receptor pathway blockade overcomes adaptive resistance to anti-VEGF therapy

Yasmin A. Lyons, Sunila Pradeep, Sherry Y. Wu, Monika Haemmerle, Jean M. Hansen, Michael J. Wagner, Alejandro Villar-Prados, Archana S. Nagaraja, Robert L. Dood, Rebecca A. Previs, Wei Hu, Yang Zhao, Duncan H. Mak, Zhilan Xiao, Brenda D. Melendez, Gregory A. Lizee, Imelda Mercado-Uribe, Keith A. Baggerly, Patrick Hwu, Jinsong LiuWillem W. Overwijk, Robert L. Coleman, Anil K. Sood

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49 Scopus citations

Abstract

Anti-angiogenesis therapy has shown clinical benefit in patients with highgrade serous ovarian cancer (HGSC), but adaptive resistance rapidly emerges. Thus, approaches to overcome such resistance are needed. We developed the setting of adaptive resistance to anti-VEGF therapy, and performed a series of in vivo experiments in both immune competent and nude mouse models. Given the proangiogenic properties of tumor-associated macrophages (TAMs) and the dominant role of CSF1R in macrophage function, we added CSF1R inhibitors following emergence of adaptive resistance to anti-VEGF antibody. Mice treated with a CSF1R inhibitor (AC708) after anti-VEGF antibody resistance had little to no measurable tumor burden upon completion of the experiment while those that did not receive a CSF1R inhibitor still had abundant tumor. To mimic clinically used regimens, mice were also treated with anti-VEGF antibody and paclitaxel until resistance emerged, and then a CSF1R inhibitor was added. The addition of a CSF1R inhibitor restored response to antiangiogenesis therapy, resulting in 83% lower tumor burden compared to treatment with anti-VEGF antibody and paclitaxel alone. Collectively, our data demonstrate that the addition of a CSF1R inhibitor to anti-VEGF therapy and taxane chemotherapy results in robust anti-tumor effects.

Original language	English (US)
Pages (from-to)	96496-96505
Number of pages	10
Journal	Oncotarget
Volume	8
Issue number	57
DOIs	https://doi.org/10.18632/oncotarget.20410
State	Published - 2017

Keywords

Adaptive resistance
Anti-VEGF therapy
CSF1R inhibition
Tumor associated macrophages
Tumor microenvironment

ASJC Scopus subject areas

Oncology

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Lyons, Y. A., Pradeep, S., Wu, S. Y., Haemmerle, M., Hansen, J. M., Wagner, M. J., Villar-Prados, A., Nagaraja, A. S., Dood, R. L., Previs, R. A., Hu, W., Zhao, Y., Mak, D. H., Xiao, Z., Melendez, B. D., Lizee, G. A., Mercado-Uribe, I., Baggerly, K. A., Hwu, P., ... Sood, A. K. (2017). Macrophage depletion through colony stimulating factor 1 receptor pathway blockade overcomes adaptive resistance to anti-VEGF therapy. Oncotarget, 8(57), 96496-96505. https://doi.org/10.18632/oncotarget.20410

Lyons, YA, Pradeep, S, Wu, SY, Haemmerle, M, Hansen, JM, Wagner, MJ, Villar-Prados, A, Nagaraja, AS, Dood, RL, Previs, RA, Hu, W, Zhao, Y, Mak, DH, Xiao, Z, Melendez, BD , Lizee, GA, Mercado-Uribe, I, Baggerly, KA, Hwu, P, Liu, J, Overwijk, WW, Coleman, RL & Sood, AK 2017, 'Macrophage depletion through colony stimulating factor 1 receptor pathway blockade overcomes adaptive resistance to anti-VEGF therapy', Oncotarget, vol. 8, no. 57, pp. 96496-96505. https://doi.org/10.18632/oncotarget.20410

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title = "Macrophage depletion through colony stimulating factor 1 receptor pathway blockade overcomes adaptive resistance to anti-VEGF therapy",

abstract = "Anti-angiogenesis therapy has shown clinical benefit in patients with highgrade serous ovarian cancer (HGSC), but adaptive resistance rapidly emerges. Thus, approaches to overcome such resistance are needed. We developed the setting of adaptive resistance to anti-VEGF therapy, and performed a series of in vivo experiments in both immune competent and nude mouse models. Given the proangiogenic properties of tumor-associated macrophages (TAMs) and the dominant role of CSF1R in macrophage function, we added CSF1R inhibitors following emergence of adaptive resistance to anti-VEGF antibody. Mice treated with a CSF1R inhibitor (AC708) after anti-VEGF antibody resistance had little to no measurable tumor burden upon completion of the experiment while those that did not receive a CSF1R inhibitor still had abundant tumor. To mimic clinically used regimens, mice were also treated with anti-VEGF antibody and paclitaxel until resistance emerged, and then a CSF1R inhibitor was added. The addition of a CSF1R inhibitor restored response to antiangiogenesis therapy, resulting in 83% lower tumor burden compared to treatment with anti-VEGF antibody and paclitaxel alone. Collectively, our data demonstrate that the addition of a CSF1R inhibitor to anti-VEGF therapy and taxane chemotherapy results in robust anti-tumor effects.",

keywords = "Adaptive resistance, Anti-VEGF therapy, CSF1R inhibition, Tumor associated macrophages, Tumor microenvironment",

author = "Lyons, {Yasmin A.} and Sunila Pradeep and Wu, {Sherry Y.} and Monika Haemmerle and Hansen, {Jean M.} and Wagner, {Michael J.} and Alejandro Villar-Prados and Nagaraja, {Archana S.} and Dood, {Robert L.} and Previs, {Rebecca A.} and Wei Hu and Yang Zhao and Mak, {Duncan H.} and Zhilan Xiao and Melendez, {Brenda D.} and Lizee, {Gregory A.} and Imelda Mercado-Uribe and Baggerly, {Keith A.} and Patrick Hwu and Jinsong Liu and Overwijk, {Willem W.} and Coleman, {Robert L.} and Sood, {Anil K.}",

note = "Publisher Copyright: {\textcopyright} Lyons et al.",

year = "2017",

doi = "10.18632/oncotarget.20410",

language = "English (US)",

volume = "8",

pages = "96496--96505",

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T1 - Macrophage depletion through colony stimulating factor 1 receptor pathway blockade overcomes adaptive resistance to anti-VEGF therapy

AU - Lyons, Yasmin A.

AU - Pradeep, Sunila

AU - Wu, Sherry Y.

AU - Haemmerle, Monika

AU - Hansen, Jean M.

AU - Wagner, Michael J.

AU - Villar-Prados, Alejandro

AU - Nagaraja, Archana S.

AU - Dood, Robert L.

AU - Previs, Rebecca A.

AU - Hu, Wei

AU - Zhao, Yang

AU - Mak, Duncan H.

AU - Xiao, Zhilan

AU - Melendez, Brenda D.

AU - Lizee, Gregory A.

AU - Mercado-Uribe, Imelda

AU - Baggerly, Keith A.

AU - Hwu, Patrick

AU - Liu, Jinsong

AU - Overwijk, Willem W.

AU - Coleman, Robert L.

AU - Sood, Anil K.

PY - 2017

Y1 - 2017

N2 - Anti-angiogenesis therapy has shown clinical benefit in patients with highgrade serous ovarian cancer (HGSC), but adaptive resistance rapidly emerges. Thus, approaches to overcome such resistance are needed. We developed the setting of adaptive resistance to anti-VEGF therapy, and performed a series of in vivo experiments in both immune competent and nude mouse models. Given the proangiogenic properties of tumor-associated macrophages (TAMs) and the dominant role of CSF1R in macrophage function, we added CSF1R inhibitors following emergence of adaptive resistance to anti-VEGF antibody. Mice treated with a CSF1R inhibitor (AC708) after anti-VEGF antibody resistance had little to no measurable tumor burden upon completion of the experiment while those that did not receive a CSF1R inhibitor still had abundant tumor. To mimic clinically used regimens, mice were also treated with anti-VEGF antibody and paclitaxel until resistance emerged, and then a CSF1R inhibitor was added. The addition of a CSF1R inhibitor restored response to antiangiogenesis therapy, resulting in 83% lower tumor burden compared to treatment with anti-VEGF antibody and paclitaxel alone. Collectively, our data demonstrate that the addition of a CSF1R inhibitor to anti-VEGF therapy and taxane chemotherapy results in robust anti-tumor effects.

AB - Anti-angiogenesis therapy has shown clinical benefit in patients with highgrade serous ovarian cancer (HGSC), but adaptive resistance rapidly emerges. Thus, approaches to overcome such resistance are needed. We developed the setting of adaptive resistance to anti-VEGF therapy, and performed a series of in vivo experiments in both immune competent and nude mouse models. Given the proangiogenic properties of tumor-associated macrophages (TAMs) and the dominant role of CSF1R in macrophage function, we added CSF1R inhibitors following emergence of adaptive resistance to anti-VEGF antibody. Mice treated with a CSF1R inhibitor (AC708) after anti-VEGF antibody resistance had little to no measurable tumor burden upon completion of the experiment while those that did not receive a CSF1R inhibitor still had abundant tumor. To mimic clinically used regimens, mice were also treated with anti-VEGF antibody and paclitaxel until resistance emerged, and then a CSF1R inhibitor was added. The addition of a CSF1R inhibitor restored response to antiangiogenesis therapy, resulting in 83% lower tumor burden compared to treatment with anti-VEGF antibody and paclitaxel alone. Collectively, our data demonstrate that the addition of a CSF1R inhibitor to anti-VEGF therapy and taxane chemotherapy results in robust anti-tumor effects.

KW - Adaptive resistance

KW - Anti-VEGF therapy

KW - CSF1R inhibition

KW - Tumor associated macrophages

KW - Tumor microenvironment

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SN - 1949-2553

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EP - 96505

JO - Oncotarget

JF - Oncotarget

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ER -

Macrophage depletion through colony stimulating factor 1 receptor pathway blockade overcomes adaptive resistance to anti-VEGF therapy

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