Enhancing anticancer activity of macrophages through rational drug combinations
Gordon B. Mills, Marilyne Labrie
Gordon B. Mills, Marilyne Labrie
Published May 1, 2024
Citation Information: J Clin Invest. 2024;134(9):e180512. https://doi.org/10.1172/JCI180512.
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Commentary

Enhancing anticancer activity of macrophages through rational drug combinations

Abstract

Targeting tumor-associated macrophages (TAMs) is an emerging approach being tested in multiple clinical trials. TAMs, depending on their differentiation state, can exhibit pro- or antitumorigenic functions. For example, the M2-like phenotype represents a protumoral state that can stimulate tumor growth, angiogenesis, metastasis, therapy resistance, and immune evasion by expressing immune checkpoint proteins. In this issue of the JCI, Vaccaro and colleagues utilized an innovative drug screen approach to demonstrate that targeting driver oncogenic signaling pathways concurrently with anti-CD47 sensitizes tumor cells, causing them to undergo macrophage-induced phagocytosis. The combination treatment altered expression of molecules on the tumor cells that typically limit phagocytosis. It also reprogrammed macrophages to an M1-like antitumor state. Moreover, the approach was generalizable to tumor cells with different oncogenic pathways, opening the door to precision oncology–based rationale combination therapies that have the potential to improve outcomes for patients with oncogene-driven lung cancers and likely other cancer types.

Authors

Gordon B. Mills, Marilyne Labrie

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Figure 1

TAM polarization and function affect anticancer activity.

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TAM polarization and function affect anticancer activity. (A) Cancer cel...
(A) Cancer cells can modulate macrophage function by expressing macrophage checkpoint proteins and through the remodeling of the tumor microenvironment. The presence of antiinflammatory cytokines polarizes TAMs, causing them to adopt an M2-like phenotype. These macrophages secrete proangiogenic and antiinflammatory factors, stimulating tumor progression. Conversely, in the presence of proinflammatory cytokines, TAMs harbor an M1-like phenotype and secrete proinflammatory factors that exert an antitumoral function. (B) EGFR-driven NSCLC cells express high levels of CD47 and MHC I. Targeting the cancer cells with EGFR inhibitors and anti-CD47 primes them for macrophage-mediated destruction and reverts the M2-like phenotype of macrophages to a M1-like phenotype. As a result, cancer cells are subject to phagocytosis, which eliminates persister cells.