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The C/EBPβ antagonist peptide lucicebtide (ST101) induces macrophage polarization toward a pro-inflammatory phenotype and enhances anti-tumor immune responses

Claudio Scuoppo, Rick Ramirez, Siok Leong, Mark Koester, Zachary Mattes, Karen Mendelson, Julia Diehl, Franco Abbate, Erin Gallagher, Lila Ghamsari, Abi Vainstein‐Haras, Gene Merutka, Barry J. Kappel, Jimmy A. Rotolo

2025Frontiers in Immunology8 citationsDOIOpen Access PDF

Abstract

Immune-checkpoint inhibitors (ICIs) have shown unprecedented success in a subset of immunogenic tumors, however a host of patients with advanced solid tumors fail to respond well or at all to immunotherapy. Refractory tumors commonly display a tumor microenvironment (TME) rich in immunosuppressive macrophages (M2-like) that suppress adaptive immunity and promote tumor progression. The ability to reprogram macrophages in the TME into an immune-active state holds great promise for enhancing responses to ICIs. Lucicebtide (previously referred to as ST101) is a peptide antagonist of the transcription factor C/EBPβ, a key activator of the transcriptional program in immunosuppressive macrophages. Here we show that lucicebtide exposure reprograms human immunosuppressive M2-like macrophages to a pro-inflammatory M1-like phenotype, restores cytotoxic T cell activation in immunosuppressed co-culture assays in vitro , and further increases T-cell activity in M1-like/T cell co-cultures. In immunocompetent, macrophage-rich triple-negative breast and colorectal cancer models, lucicebtide induces repolarization of tumor-associated macrophages (TAMs) to a pro-inflammatory M1-like phenotype and suppresses tumor growth. Lucicebtide synergizes with anti-PD-1 therapy and overcomes resistance to checkpoint inhibition in anti-PD-1-refractory tumors, but in vivo responses are impaired by systemic macrophage depletion, indicating that macrophage reprogramming is integral to lucicebtide activity. These results identify lucicebtide as a novel immunomodulator that reprograms immunosuppressive macrophage populations to enhance anti-tumor activity and suggests its utility for combination strategies in cancers with poor response to ICIs.

Topics & Concepts

Tumor microenvironmentCancer researchMacrophage polarizationImmunotherapyImmune systemMacrophageImmunologyM2 MacrophageBiologyCytotoxic T cellT cellIn vitroBiochemistryImmune cells in cancerCancer Immunotherapy and BiomarkersEpigenetics and DNA Methylation
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