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. 2025 Oct 30;188(22):6335-6354.e26.
doi: 10.1016/j.cell.2025.08.013. Epub 2025 Sep 3.

Tumors hijack macrophages for iron supply to promote bone metastasis and anemia

Yujiao Han  1 Hirak Sarkar  2 Zhan Xu  3 Sereno Lopez-Darwin  4 Yong Wei  1 Xiang Hang  1 Fengshuo Liu  5 Kimberley Tran  6 Wei Wang  4 Jennifer M Miller  4 Christina J DeCoste  6 Dylan S Blohm  6 Robert L Satcher  7 Xiang H-F Zhang  8 Yibin Kang  9
Affiliations

Tumors hijack macrophages for iron supply to promote bone metastasis and anemia

Yujiao Han et al. Cell. .

Abstract

Bone marrow is both a primary site for hematopoiesis and a fertile niche for metastasis. The mechanism of the common occurrence of anemia among patients with bone metastasis remains poorly understood. Here, we show that a specialized population of VCAM1+CD163+CCR3+ macrophages, normally essential for erythropoiesis by transporting iron to erythroblasts, are highly enriched in the bone metastatic niche in mouse models. Tumor cells hijack these macrophages for iron supply, reducing iron availability for erythroblasts, impairing erythropoiesis, and contributing to anemia. Increased iron supply enables tumor cells to produce hemoglobin in response to hypoxia, mimicking erythroblasts. We identify macrophages with similar iron-transporting features in human bone metastases and show that elevated HBB expression correlates with increased risk of bone metastasis. These findings establish iron-transporting macrophages as an essential component of the metastatic bone niche, revealing a critical interplay between immune cells, metal metabolism, and tumor cell plasticity in driving metastasis and anemia.

Keywords: anemia; bone metastasis; breast cancer; cellular plasticity; erythropoiesis; hypoxia; iron metabolism; macrophage; metastatic niche; tumor microenvironment.

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Conflict of interest statement

Declaration of interests Y.K. is a co-founder and chair of the Scientific Advisory Board of Firebrand Therapeutics, Inc. and Kayothera, Inc.

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