Autophagic adaptation to oxidative stress alters peritoneal residential macrophage survival and ovarian cancer metastasis
Houjun Xia, … , Ilona Kryczek, Weiping Zou
Houjun Xia, … , Ilona Kryczek, Weiping Zou
Published August 11, 2020
Citation Information: JCI Insight. 2020;5(18):e141115. https://doi.org/10.1172/jci.insight.141115.
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Research Article Immunology

Autophagic adaptation to oxidative stress alters peritoneal residential macrophage survival and ovarian cancer metastasis

Abstract

Tumor-associated macrophages (TAMs) affect cancer progression and therapy. Ovarian carcinoma often metastasizes to the peritoneal cavity. Here, we found 2 peritoneal macrophage subsets in mice bearing ID8 ovarian cancer based on T cell immunoglobulin and mucin domain containing 4 (Tim-4) expression. Tim-4+ TAMs were embryonically originated and locally sustained while Tim-4– TAMs were replenished from circulating monocytes. Tim-4+ TAMs, but not Tim-4– TAMs, promoted tumor growth in vivo. Relative to Tim-4– TAMs, Tim-4+ TAMs manifested high oxidative phosphorylation and adapted mitophagy to alleviate oxidative stress. High levels of arginase-1 in Tim-4+ TAMs contributed to potent mitophagy activities via weakened mTORC1 activation due to low arginine resultant from arginase-1–mediated metabolism. Furthermore, genetic deficiency of autophagy element FAK family-interacting protein of 200 kDa resulted in Tim-4+ TAM loss via ROS-mediated apoptosis and elevated T cell immunity and ID8 tumor inhibition in vivo. Moreover, human ovarian cancer–associated macrophages positive for complement receptor of the immunoglobulin superfamily (CRIg) were transcriptionally, metabolically, and functionally similar to murine Tim-4+ TAMs. Thus, targeting CRIg+ (Tim-4+) TAMs may potentially treat patients with ovarian cancer with peritoneal metastasis.

Authors

Houjun Xia, Shasha Li, Xiong Li, Weichao Wang, Yingjie Bian, Shuang Wei, Sara Grove, Weimin Wang, Linda Vatan, J. Rebecca Liu, Karen McLean, Ramandeep Rattan, Adnan Munkarah, Jun-Lin Guan, Ilona Kryczek, Weiping Zou

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Figure 2

Tim-4 TAMs migrate from peripheral monocytes without affecting tumor growth.

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Tim-4– TAMs migrate from peripheral monocytes without affecting tumor gr...
(A and B) Dynamic changes of Tim-4+ (A) and Tim-4 (B) TAM numbers during peritoneal ovarian cancer progression (n = 5 to 14 mice/group, mean ± SEM). ***P < 0.001, ****P < 0.0001 (1-way ANOVA with Dunnett’s multiple-comparisons test) between tumor-free and tumor-bearing mice at different time points. (C) Tumor growth in mice treated with CCR2 antagonist or PBS (n = 8 to 10 mice/group, mean ± SEM). (D) Tim-4+ TAM numbers in mice treated with CCR2 antagonist or PBS (n = 4 to 5 mice/group, mean ± SEM). (E) ID8 tumor growth in Ccr2+/+ and Ccr2–/– mice (n = 5 mice/group, mean ± SEM). (F and G) Effect of CCR2 deficiency on Tim-4 TAMs. Percentage (F) and number (G) of Tim-4 TAMs were compared between Ccr2+/+ and Ccr2–/– mice bearing ID8 tumors. (n = 5 mice/group, mean ± SEM). *P < 0.05, **P < 0.01 (Mann-Whitney U test). (H) Source of Tim-4+ TAMs. CD45.1+ monocytes were transferred (I.P.) into ID8 tumor–bearing CD45.2 mice. Tim-4 was determined on CD45.1+ (shown in red) and CD45.2+ (shown in blue) TAMs. One representative of 4 is shown. p/s, photons/second.