Polyunsaturated fatty acids from astrocytes activate PPARγ signaling in cancer cells to promote brain metastasis

Yongkang Zou; Andrea Watters; Nan Cheng; Caroline E. Perry; Ke Xu; Gretchen M. Alicea; Joshua L.D. Parris; Ezra Baraban; Pulak Ray; Anupma Nayak; Xiaowei Xu; Meenhard Herlyn; Maureen E. Murphy; Ashani T. Weeraratna; Zachary T. Schug; Qing Chen

doi:10.1158/2159-8290.CD-19-0270

Polyunsaturated fatty acids from astrocytes activate PPARγ signaling in cancer cells to promote brain metastasis

Yongkang Zou, Andrea Watters, Nan Cheng, Caroline E. Perry, Ke Xu, Gretchen M. Alicea, Joshua L.D. Parris, Ezra Baraban, Pulak Ray, Anupma Nayak, Xiaowei Xu, Meenhard Herlyn, Maureen E. Murphy, Ashani T. Weeraratna, Zachary T. Schug, Qing Chen

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Brain metastasis, the most lethal form of melanoma and carcinoma, is the consequence of favorable interactions between the invading cancer cells and the brain cells. Peroxisome proliferator–activated receptor γ (PPARγ) has ambiguous functions in cancer development, and its relevance in advanced brain metastasis remains unclear. Here, we demonstrate that astrocytes, the unique brain glial cells, activate PPARγ in brain metastatic cancer cells. PPARγ activation enhances cell proliferation and metastatic outgrowth in the brain. Mechanistically, astrocytes have a high content of polyunsaturated fatty acids that act as “donors” of PPARγ activators to the invading cancer cells. In clinical samples, PPARγ signaling is significantly higher in brain metastatic lesions. Notably, systemic administration of PPARγ antagonists significantly reduces brain metastatic burden in vivo. Our study clarifies a prometastatic role for PPARγ signaling in cancer metastasis in the lipid-rich brain microenvironment and argues for the use of PPARγ blockade to treat brain metastasis. SIGNIFICANCE: Brain-tropic cancer cells take advantage of the lipid-rich brain microenvironment to facilitate their proliferation by activating PPARγ signaling. This protumor effect of PPARγ in advanced brain metastases is in contrast to its antitumor function in carcinogenesis and early metastatic steps, indicating that PPARγ has diverse functions at different stages of cancer development.

Original language	English (US)
Pages (from-to)	1720-1735
Number of pages	16
Journal	Cancer discovery
Volume	9
Issue number	12
DOIs	https://doi.org/10.1158/2159-8290.CD-19-0270
State	Published - Dec 2019
Externally published	Yes

ASJC Scopus subject areas

Oncology

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10.1158/2159-8290.CD-19-0270

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Zou, Y., Watters, A., Cheng, N., Perry, C. E., Xu, K., Alicea, G. M., Parris, J. L. D., Baraban, E., Ray, P., Nayak, A., Xu, X., Herlyn, M., Murphy, M. E., Weeraratna, A. T., Schug, Z. T., & Chen, Q. (2019). Polyunsaturated fatty acids from astrocytes activate PPARγ signaling in cancer cells to promote brain metastasis. Cancer discovery, 9(12), 1720-1735. https://doi.org/10.1158/2159-8290.CD-19-0270

Zou, Y, Watters, A, Cheng, N, Perry, CE, Xu, K, Alicea, GM, Parris, JLD, Baraban, E, Ray, P, Nayak, A, Xu, X, Herlyn, M, Murphy, ME, Weeraratna, AT, Schug, ZT & Chen, Q 2019, 'Polyunsaturated fatty acids from astrocytes activate PPARγ signaling in cancer cells to promote brain metastasis', Cancer discovery, vol. 9, no. 12, pp. 1720-1735. https://doi.org/10.1158/2159-8290.CD-19-0270

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title = "Polyunsaturated fatty acids from astrocytes activate PPARγ signaling in cancer cells to promote brain metastasis",

abstract = "Brain metastasis, the most lethal form of melanoma and carcinoma, is the consequence of favorable interactions between the invading cancer cells and the brain cells. Peroxisome proliferator–activated receptor γ (PPARγ) has ambiguous functions in cancer development, and its relevance in advanced brain metastasis remains unclear. Here, we demonstrate that astrocytes, the unique brain glial cells, activate PPARγ in brain metastatic cancer cells. PPARγ activation enhances cell proliferation and metastatic outgrowth in the brain. Mechanistically, astrocytes have a high content of polyunsaturated fatty acids that act as “donors” of PPARγ activators to the invading cancer cells. In clinical samples, PPARγ signaling is significantly higher in brain metastatic lesions. Notably, systemic administration of PPARγ antagonists significantly reduces brain metastatic burden in vivo. Our study clarifies a prometastatic role for PPARγ signaling in cancer metastasis in the lipid-rich brain microenvironment and argues for the use of PPARγ blockade to treat brain metastasis. SIGNIFICANCE: Brain-tropic cancer cells take advantage of the lipid-rich brain microenvironment to facilitate their proliferation by activating PPARγ signaling. This protumor effect of PPARγ in advanced brain metastases is in contrast to its antitumor function in carcinogenesis and early metastatic steps, indicating that PPARγ has diverse functions at different stages of cancer development.",

author = "Yongkang Zou and Andrea Watters and Nan Cheng and Perry, {Caroline E.} and Ke Xu and Alicea, {Gretchen M.} and Parris, {Joshua L.D.} and Ezra Baraban and Pulak Ray and Anupma Nayak and Xiaowei Xu and Meenhard Herlyn and Murphy, {Maureen E.} and Weeraratna, {Ashani T.} and Schug, {Zachary T.} and Qing Chen",

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doi = "10.1158/2159-8290.CD-19-0270",

language = "English (US)",

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AU - Zou, Yongkang

AU - Watters, Andrea

AU - Cheng, Nan

AU - Perry, Caroline E.

AU - Xu, Ke

AU - Alicea, Gretchen M.

AU - Parris, Joshua L.D.

AU - Baraban, Ezra

AU - Ray, Pulak

AU - Nayak, Anupma

AU - Xu, Xiaowei

AU - Herlyn, Meenhard

AU - Murphy, Maureen E.

AU - Weeraratna, Ashani T.

AU - Schug, Zachary T.

AU - Chen, Qing

PY - 2019/12

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N2 - Brain metastasis, the most lethal form of melanoma and carcinoma, is the consequence of favorable interactions between the invading cancer cells and the brain cells. Peroxisome proliferator–activated receptor γ (PPARγ) has ambiguous functions in cancer development, and its relevance in advanced brain metastasis remains unclear. Here, we demonstrate that astrocytes, the unique brain glial cells, activate PPARγ in brain metastatic cancer cells. PPARγ activation enhances cell proliferation and metastatic outgrowth in the brain. Mechanistically, astrocytes have a high content of polyunsaturated fatty acids that act as “donors” of PPARγ activators to the invading cancer cells. In clinical samples, PPARγ signaling is significantly higher in brain metastatic lesions. Notably, systemic administration of PPARγ antagonists significantly reduces brain metastatic burden in vivo. Our study clarifies a prometastatic role for PPARγ signaling in cancer metastasis in the lipid-rich brain microenvironment and argues for the use of PPARγ blockade to treat brain metastasis. SIGNIFICANCE: Brain-tropic cancer cells take advantage of the lipid-rich brain microenvironment to facilitate their proliferation by activating PPARγ signaling. This protumor effect of PPARγ in advanced brain metastases is in contrast to its antitumor function in carcinogenesis and early metastatic steps, indicating that PPARγ has diverse functions at different stages of cancer development.

AB - Brain metastasis, the most lethal form of melanoma and carcinoma, is the consequence of favorable interactions between the invading cancer cells and the brain cells. Peroxisome proliferator–activated receptor γ (PPARγ) has ambiguous functions in cancer development, and its relevance in advanced brain metastasis remains unclear. Here, we demonstrate that astrocytes, the unique brain glial cells, activate PPARγ in brain metastatic cancer cells. PPARγ activation enhances cell proliferation and metastatic outgrowth in the brain. Mechanistically, astrocytes have a high content of polyunsaturated fatty acids that act as “donors” of PPARγ activators to the invading cancer cells. In clinical samples, PPARγ signaling is significantly higher in brain metastatic lesions. Notably, systemic administration of PPARγ antagonists significantly reduces brain metastatic burden in vivo. Our study clarifies a prometastatic role for PPARγ signaling in cancer metastasis in the lipid-rich brain microenvironment and argues for the use of PPARγ blockade to treat brain metastasis. SIGNIFICANCE: Brain-tropic cancer cells take advantage of the lipid-rich brain microenvironment to facilitate their proliferation by activating PPARγ signaling. This protumor effect of PPARγ in advanced brain metastases is in contrast to its antitumor function in carcinogenesis and early metastatic steps, indicating that PPARγ has diverse functions at different stages of cancer development.

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Polyunsaturated fatty acids from astrocytes activate PPARγ signaling in cancer cells to promote brain metastasis

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