📄 Quick Overview
Title:
Interleukin-16 enhances anti-tumour immune responses by establishing a Th1 cell–macrophage crosstalk through reprogramming glutamine metabolism in mice
Journal: Nature Communications (IF 17.7)
Published: February 2025
Corresponding Authors: Qingqing Wang, Qian Cao, Kai Wang, Peng Xiao (Zhejiang University)
Antibody Used: Bio X Cell BE0101 (anti-PD-L1)
🔬 Background
Immune checkpoint blockade (ICB) has revolutionised cancer therapy, yet many patients fail to respond due to an immunosuppressive tumor microenvironment (TME). While Th1 cells and anti-tumour macrophages (M1-type TAMS) are essential for effective immune responses, strategies to jointly activate both populations remain unclear.
Interleukin-16 (IL-16), a less-explored cytokine, has unclear roles in cancer immunology. This study systematically investigates IL-16 and uncovers its ability to reprogram glutamine metabolism, enhance Th1-TAM interactions, and synergize with anti-PD-L1 therapy to improve outcomes.
🧪 Key Findings
1️L-16 Suppresses Tumor Growth and Correlates with Better Prognosis
- IL-16 levels are reduced in cancer patients and correlate with poor survival.
- IL-16 administration in E0771 breast cancer, LLC lung cancer, and MMTV-Pymt models significantly inhibited tumor progression.
IL-16 Drives Th1-Dominant Immunity
- Promotes Th1 polarisation in CD4+ T cells, increasing IFN-γ and T-bet expression.
- Enhances CD8+ T cell cytotoxicity (GZMB, Perforin).
- Suppresses glutaminase (GLS), reducing glutaminolysis and shifting metabolism to support Th1 differentiation.
L-16 Reprograms Macrophages via IFN-γ
- Enhances Th1 immunity to indirectly shift TAMs toward an M1 phenotype.
- Upregulates CXCL9/CXCL10, promoting CXCR3+ T cell infiltration and anti-tumor function.
L-16 and BE0101 (anti-PD-L1) Work Synergistically
- BE0101 alone had limited efficacy; IL-16 plus BE0101 markedly slowed tumor growth.
- IL-16 enhanced IFN-γ, Prf1, and Gzmb expression post-ICB.
- Blocking CXCR3 or depleting macrophages abolished the synergy.
Clinical Correlation: IL-16 as a Predictive Biomarker
- Higher serum IL-16 levels predicted better responses to PD-1 therapy in lung cancer patients.
- ROC analysis yielded AUC of 0.895, suggesting high predictive accuracy.
- High IL-16 levels also correlated with longer progression-free survival.
Histamine–Mast Cell Axis Regulates IL-16
- Mast cell–derived histamine maintains IL-16 expression in TME.
- Histamine supplementation increased IL-16 levels and Th1 immunity.
- Disrupting histamine release (e.g., using DSCG) lowered IL-16 and impaired anti-tumor response.
🧭 Experimental Strategy and Summary
This multi-tiered study used mouse models, immunophenotyping, metabolomics, and patient data to build a mechanistic model of the IL-16–Th1–TAM axis:
- IL-16 inhibits GLS to reprogram glutamine metabolism in CD4+ T cells.
- Promotes Th1 cell differentiation and IFN-γ production.
- IFN-γ reprograms TAMs toward M1-like phenotype.
- M1 macrophages upregulate CXCL9/10, enhancing CD8+ T cell activity.
- IL-16 synergizes with anti-PD-L1 (BE0101) to improve ICB efficacy.
- Histamine sustains IL-16 expression—mast cells are upstream regulators.
🧪 Methods At a Glance
- In Vivo Models: E0771, LLC, MMTV-PyMT spontaneous tumor mice
- Treatments: IL-16 (1μg/mouse), BE0101 (150μg), histamine, CXCR3 inhibitor, IFN-γ/IL-16 neutralization
- Techniques: Flow cytometry, QPCR, ELISA, metabolomics, single-cell RNA-seq
- Clinical Data: Lung cancer patient serum IL-16 levels pre–anti-PD-1 therapy (AUC = 0.895)
🧬 Bio X Cell BE0101: A Key Enabler
The study successfully used Bio X Cell BE0101, an anti-PD-L1 monoclonal antibody, in combination therapy experiments to demonstrate IL-16’s synergy with ICB. This validated BE0101’s role in driving functional immune checkpoint blockade in vivo.
Key Features of BE0101:
- Ultra-pure and endotoxin-free
- Animal-free formulation
- Optimised for in vivo functional blockade studies
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