Efferocytosis produces a prometastatic landscape during postpartum mammary gland involution
Jamie C. Stanford, … , H. Shelton Earp III, Rebecca S. Cook
Jamie C. Stanford, … , H. Shelton Earp III, Rebecca S. Cook
Published September 24, 2014
Citation Information: J Clin Invest. 2014;124(11):4737-4752. https://doi.org/10.1172/JCI76375.
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Research Article Oncology

Efferocytosis produces a prometastatic landscape during postpartum mammary gland involution

Abstract

Breast cancers that occur in women 2–5 years postpartum are more frequently diagnosed at metastatic stages and correlate with poorer outcomes compared with breast cancers diagnosed in young, premenopausal women. The molecular mechanisms underlying the malignant severity associated with postpartum breast cancers (ppBCs) are unclear but relate to stromal wound-healing events during postpartum involution, a dynamic process characterized by widespread cell death in milk-producing mammary epithelial cells (MECs). Using both spontaneous and allografted mammary tumors in fully immune–competent mice, we discovered that postpartum involution increases mammary tumor metastasis. Cell death was widespread, not only occurring in MECs but also in tumor epithelium. Dying tumor cells were cleared through receptor tyrosine kinase MerTK–dependent efferocytosis, which robustly induced the transcription of genes encoding wound-healing cytokines, including IL-4, IL-10, IL-13, and TGF-β. Animals lacking MerTK and animals treated with a MerTK inhibitor exhibited impaired efferocytosis in postpartum tumors, a reduction of M2-like macrophages but no change in total macrophage levels, decreased TGF-β expression, and a reduction of postpartum tumor metastasis that was similar to the metastasis frequencies observed in nulliparous mice. Moreover, TGF-β blockade reduced postpartum tumor metastasis. These data suggest that widespread cell death during postpartum involution triggers efferocytosis-induced wound-healing cytokines in the tumor microenvironment that promote metastatic tumor progression.

Authors

Jamie C. Stanford, Christian Young, Donna Hicks, Philip Owens, Andrew Williams, David B. Vaught, Meghan M. Morrison, Jiyeon Lim, Michelle Williams, Dana M. Brantley-Sieders, Justin M. Balko, Debra Tonetti, H. Shelton Earp III, Rebecca S. Cook

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Figure 6

M2 polarization of postpartum tumor–associated macrophages requires MerTK.

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M2 polarization of postpartum tumor–associated macrophages requires MerT...
(AE) Tumor sections of MMTV PyVmT spontaneous mammary tumors from 71-day-old virgin and postpartum mice were used for analysis. (A) Representative immunofluorescent images showing CK8/18 (red) and F4/80 (green) staining; nuclei were counterstained with DAPI (blue). n = 4. Green arrows indicate peritumoral F4/80+ macrophages; white arrows indicate intratumoral macrophages. Original magnification, ×100. (B) Average (± SD) number of total (left panel) and intratumoral (right panel) macrophages per ×400 field. n = 4, 5 fields per sample. ****P < 0.0001 by Student’s t test. (C) Representative images of IHC ARG1 staining. n = 4. Original magnification, ×400. (D) Average number of ARG1+ cells per ×400 field. (n = 4). Values are the average ± SD. P < 0.001 by Student’s t test. (E) Whole-tumor RNA assessed by qRT-PCR to quantify relative Mrc1. Values shown are the average ± SD. n = 4. ** P < 0.01 by Student’s t test. (FJ) MerTK+/+ PyVmT and MerTK–/– PyVmT postpartum mammary tumors from 71-day-old mice. (F) Representative immunofluorescent images of CK8/18 (red) and F4/80 (green) staining; nuclei were counterstained with DAPI (blue). n = 4. White arrows indicate intratumoral macrophages. (G) Total (left panel) and intratumoral macrophages (right panel) per ×400 field. n = 4, 5 fields per sample. Values are the average ± SD. Student’s t test. (H) Representative IHC images of ARG1 staining. Original magnification, ×400. (I) Average number of ARG1+ cells per ×400 field. n = 4. Values are the average ± SD. ***P < 0.001 by Student’s t test. (J) Whole-tumor RNA assessed by qRT-PCR to quantify Mrc1. Values are the average ± SD. n = 4. *P < 0.05 by Student’s t test.