TY - JOUR
T1 - Ovarian cancer stem cells and macrophages reciprocally interact through the WNT pathway to promote pro-tumoral and malignant phenotypes in 3D engineered microenvironments
AU - Raghavan, Shreya
AU - Mehta, Pooja
AU - Xie, Yuying
AU - Lei, Yu L.
AU - Mehta, Geeta
N1 - Funding Information:
The authors also acknowledge the efforts of Dr. Joel Whitfield from the Immunological Monitoring Core at the Rogel Cancer Center, for performing ELISA measurements. The authors acknowledge the efforts of Mr. Mark Savary at the Flow Cytometry Core for technical assistance in performing fluorescent activated cell sorting. The authors also acknowledge Mr. Nam Hoon Kim, supported by the Michigan LS&A Undergraduate Research Opportunity Program, for experimental support. Lastly, the authors acknowledge the services of the University of Michigan Cancer Center Tissue Core, for performing routine histology and immunohistochemistry to support this manuscript. This work was supported by the DOD OCRP W81XWH-13-1-0134 (GM), Michigan Ovarian Cancer Alliance (MIOCA, GM), Rivkin Center for Ovarian Cancer (GM), NIH/NIDCR DE026728 (YLL) and the Tissue Engineering and Regeneration Training Grant under award number NIH/NIDCR T32DE00007057 (SR). Flow cytometry facilities used to perform experiments on this manuscript were partially funded by NIH/NCI P30CA046592.
Funding Information:
The authors also acknowledge the efforts of Dr. Joel Whitfield from the Immunological Monitoring Core at the Rogel Cancer Center, for performing ELISA measurements. The authors acknowledge the efforts of Mr. Mark Savary at the Flow Cytometry Core for technical assistance in performing fluorescent activated cell sorting. The authors also acknowledge Mr. Nam Hoon Kim, supported by the Michigan LS&A Undergraduate Research Opportunity Program, for experimental support. Lastly, the authors acknowledge the services of the University of Michigan Cancer Center Tissue Core, for performing routine histology and immunohistochemistry to support this manuscript.
Publisher Copyright:
© 2019 The Author(s).
PY - 2019/7/19
Y1 - 2019/7/19
N2 - Background: Innate immune cells such as macrophages are abundantly present within malignant ascites, where they share the microenvironment with ovarian cancer stem cells (CSC). Methods: To mimic this malignant ascites microenvironment, we created a hanging-drop hetero-spheroid model to bring CSCs and macrophages in close association. Within these hetero-spheroids, CD68+ macrophages (derived from U937 or peripheral blood monocytes) make up ~ 20% of the population, while the rest are ovarian cancer cells and ovarian cancer stem cells (derived from the high grade serous ovarian cancer cell line, OVCAR3). Results: Our results indicate that CSCs drive the upregulation of M2 macrophage marker CD206 within hetero-spheroids, compared to bulk ovarian cancer cells, implying an inherently more immuno-suppressive program. Moreover, an increased maintenance of elevated aldehyde dehydrogenase (ALDH) activity is noted within hetero-spheroids that include pre-polarized CD206+ M2 macrophages, implying a reciprocal interaction that drives pro-tumoral activation as well as CSC self-renewal. Consistent with enriched CSCs, we also observe increased levels of pro-tumoral IL-10 and IL-6 cytokines in the CSC/M2-macrophage hetero-spheroids. CSC/M2-macrophage hetero-spheroids are also less sensitive to the chemotherapeutic agent carboplatin and are subsequently more invasive in transwell assays. Using inhibitors of WNT secretion in both CSCs and macrophages, we found that CSC-derived WNT ligands drove CD206+ M2 macrophage activation, and that, conversely, macrophage-derived WNT ligands enriched ALDH+ cells within the CSC compartment of hetero-spheroids. Upon examination of specific WNT ligand expression within the monocyte-derived macrophage system, we observed a significant elevation in gene expression for WNT5B. In CSCs co-cultured with macrophages within hetero-spheroids, increases in several WNT ligands were observed, and this increase was significantly inhibited when WNT5B was knocked down in macrophages. Conclusions: Our data implies that macrophage- initiated WNT signaling could play a significant role in the maintenance of stemness, and the resulting phenotypes of chemoresistance and invasiveness. Our results indicate paracrine WNT activation during CSC/M2 macrophages interaction constitutes a positive feedback loop that likely contributes to the more aggressive phenotype, which makes the WNT pathway a potential target to reduce the CSC and M2 macrophage compartments in the tumor microenvironment.
AB - Background: Innate immune cells such as macrophages are abundantly present within malignant ascites, where they share the microenvironment with ovarian cancer stem cells (CSC). Methods: To mimic this malignant ascites microenvironment, we created a hanging-drop hetero-spheroid model to bring CSCs and macrophages in close association. Within these hetero-spheroids, CD68+ macrophages (derived from U937 or peripheral blood monocytes) make up ~ 20% of the population, while the rest are ovarian cancer cells and ovarian cancer stem cells (derived from the high grade serous ovarian cancer cell line, OVCAR3). Results: Our results indicate that CSCs drive the upregulation of M2 macrophage marker CD206 within hetero-spheroids, compared to bulk ovarian cancer cells, implying an inherently more immuno-suppressive program. Moreover, an increased maintenance of elevated aldehyde dehydrogenase (ALDH) activity is noted within hetero-spheroids that include pre-polarized CD206+ M2 macrophages, implying a reciprocal interaction that drives pro-tumoral activation as well as CSC self-renewal. Consistent with enriched CSCs, we also observe increased levels of pro-tumoral IL-10 and IL-6 cytokines in the CSC/M2-macrophage hetero-spheroids. CSC/M2-macrophage hetero-spheroids are also less sensitive to the chemotherapeutic agent carboplatin and are subsequently more invasive in transwell assays. Using inhibitors of WNT secretion in both CSCs and macrophages, we found that CSC-derived WNT ligands drove CD206+ M2 macrophage activation, and that, conversely, macrophage-derived WNT ligands enriched ALDH+ cells within the CSC compartment of hetero-spheroids. Upon examination of specific WNT ligand expression within the monocyte-derived macrophage system, we observed a significant elevation in gene expression for WNT5B. In CSCs co-cultured with macrophages within hetero-spheroids, increases in several WNT ligands were observed, and this increase was significantly inhibited when WNT5B was knocked down in macrophages. Conclusions: Our data implies that macrophage- initiated WNT signaling could play a significant role in the maintenance of stemness, and the resulting phenotypes of chemoresistance and invasiveness. Our results indicate paracrine WNT activation during CSC/M2 macrophages interaction constitutes a positive feedback loop that likely contributes to the more aggressive phenotype, which makes the WNT pathway a potential target to reduce the CSC and M2 macrophage compartments in the tumor microenvironment.
UR - http://www.scopus.com/inward/record.url?scp=85069444789&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85069444789&partnerID=8YFLogxK
U2 - 10.1186/s40425-019-0666-1
DO - 10.1186/s40425-019-0666-1
M3 - Article
C2 - 31324218
AN - SCOPUS:85069444789
SN - 2051-1426
VL - 7
JO - Journal for immunotherapy of cancer
JF - Journal for immunotherapy of cancer
IS - 1
M1 - 190
ER -