Oncotarget

Research Papers:

Bevacizumab specifically decreases elevated levels of circulating KIT+CD11b+ cells and IL-10 in metastatic breast cancer patients

Sarah Cattin, Benoît Fellay, Sylvain Pradervand, Andreas Trojan, Thomas Ruhstaller, Curzio Rüegg _ and Gregor Fürstenberger

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Oncotarget. 2016; 7:11137-11150. https://doi.org/10.18632/oncotarget.7097

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Abstract

Sarah Cattin1, Benoît Fellay2, Sylvain Pradervand3, Andreas Trojan4, Thomas Ruhstaller5, Curzio Rüegg1,*, Gregor Fürstenberger6,*

1Department of Medicine, Faculty of Science, University of Fribourg, CH-1700 Fribourg, Switzerland

2Central Laboratory, HFR Hôpital Cantonal, CH-1700 Fribourg, Switzerland

3Genomic Technologies Facility, Center of Integrative Genomic (CIG), University of Lausanne (UNIL), CH-1015 Lausanne, Switzerland

4OnkoZentrum Zürich, CH-8038 Zürich, Switzerland

5Breast Center, Kantonsspital St.Gallen, CH-9000 St.Gallen, Switzerland

6Tumor and Breast Center ZeTuP, CH-9006 St.Gallen, Switzerland

*These authors have contributed equally to this work

Correspondence to:

Curzio Rüegg, e-mail: [email protected]

Keywords: breast cancer, angiogenesis, monocytes, KIT, IL-10

Received: September 28, 2015     Accepted: January 18, 2016     Published: January 31, 2016

ABSTRACT

Background: Whether bevacizumab exerts its anti-tumor properties through systemic effects beyond local inhibition of angiogenesis and how these effects can be monitored in patients, remain largely elusive. To address these questions, we investigated bone marrow-derived cells and cytokines in the peripheral blood of metastatic breast cancer patients undergoing therapy with bevacizumab.

Methods: Circulating endothelial cells (CEC), circulating endothelial progenitor (CEP) and circulating CD11b+ cells in metastatic breast cancer patients before and during therapy with paclitaxel alone (n = 11) or in combination with bevacizumab (n = 10) were characterized using flow cytometry, real time PCR and RNASeq. Circulating factors were measured by ELISA. Aged-matched healthy donors were used as baseline controls (n = 12).

Results: Breast cancer patients had elevated frequencies of CEC, CEP, TIE2+CD11b+ and KIT+CD11b+ cell subsets. CEC decreased during therapy, irrespective of bevacizumab, while TIE2+CD11b+ remained unchanged. KIT+CD11b+ cells decreased in response to paclitaxel with bevacizumab, but not paclitaxel alone. Cancer patients expressed higher mRNA levels of the M2 polarization markers CD163, ARG1 and IL-10 in CD11b+ cells and increased levels of the M2 cytokines IL-10 and CCL20 in plasma. M1 activation markers and cytokines were low or equally expressed in cancer patients compared to healthy donors. Chemotherapy with paclitaxel and bevacizumab, but not with paclitaxel alone, significantly decreased IL-10 mRNA in CD11b+ cells and IL-10 protein in plasma.

Conclusions: This pilot study provides evidence of systemic immunomodulatory effects of bevacizumab and identified circulating KIT+CD11b+ cells and IL-10 as candidate biomarkers of bevacizumab activity in metastatic breast cancer patients.


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