Litcius/Paper detail

Targeting B7-H3 inhibition-induced activation of fatty acid synthesis boosts anti-B7-H3 immunotherapy in triple-negative breast cancer

Ying Jiang, Zhiwen Qian, Cenzhu Wang, Danping Wu, Lu Liu, Xin Ning, Yilan You, Jie Mei, Xiaoqian Zhao, Yan Zhang

2025Journal for ImmunoTherapy of Cancer13 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Triple-negative breast cancer (TNBC) is the most malignant breast cancer, highlighting the need for effective immunotherapeutic targets. The immune checkpoint molecule B7-H3 has recently gained attention as a promising therapeutic target due to its pivotal role in promoting tumorigenesis and cancer progression. However, the therapeutic impact of B7-H3 inhibitors (B7-H3i) remains unclear. METHODS: Transcriptomic and metabolomic analyses were conducted to explore the underlying mechanisms of B7-H3 inhibition in TNBC. The therapeutic efficacy of the combined treatment strategy was substantiated through comprehensive phenotypic assays conducted in vitro and validated in vivo using animal models. RESULTS: B7-H3 blockade induces a "primed for death" stress state in cancer cells, leading to distinct alterations in metabolic pathways. Specifically, B7-H3 knockdown activated the AKT signaling pathway and upregulated sterol regulatory element-binding protein 1 (SREBP1), which in turn elevated FASN expression. The simultaneous inhibition of both B7-H3 and FASN more effectively attenuated the malignant progression of TNBC. CONCLUSIONS: Our findings propose an "immune attack-metabolic compensation" dynamic model and suggest the feasibility of a dual-targeting strategy that concurrently inhibits both B7-H3 and FASN to enhance therapeutic efficacy in TNBC patients.

Topics & Concepts

Triple-negative breast cancerImmunotherapyBreast cancerCancer researchCancer immunotherapyMedicineCancerTriple negativeInternal medicineCancer Immunotherapy and BiomarkersCancer, Lipids, and MetabolismFerroptosis and cancer prognosis