A paracrine circuit of IL-1β/IL-1R1 between myeloid and tumor cells drives genotype-dependent glioblastoma progression
Zhihong Chen, … , Alexander M. Tsankov, Dolores Hambardzumyan
Zhihong Chen, … , Alexander M. Tsankov, Dolores Hambardzumyan
Published September 21, 2023
Citation Information: J Clin Invest. 2023;133(22):e163802. https://doi.org/10.1172/JCI163802.
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Research Article Immunology Oncology

A paracrine circuit of IL-1β/IL-1R1 between myeloid and tumor cells drives genotype-dependent glioblastoma progression

Abstract

Monocytes and monocyte-derived macrophages (MDMs) from blood circulation infiltrate glioblastoma (GBM) and promote growth. Here, we show that PDGFB-driven GBM cells induce the expression of the potent proinflammatory cytokine IL-1β in MDM, which engages IL-1R1 in tumor cells, activates the NF-κB pathway, and subsequently leads to induction of monocyte chemoattractant proteins (MCPs). Thus, a feedforward paracrine circuit of IL-1β/IL-1R1 between tumors and MDM creates an interdependence driving PDGFB-driven GBM progression. Genetic loss or locally antagonizing IL-1β/IL-1R1 leads to reduced MDM infiltration, diminished tumor growth, and reduced exhausted CD8+ T cells and thereby extends the survival of tumor-bearing mice. In contrast to IL-1β, IL-1α exhibits antitumor effects. Genetic deletion of Il1a/b is associated with decreased recruitment of lymphoid cells and loss-of-interferon signaling in various immune populations and subsets of malignant cells and is associated with decreased survival time of PDGFB-driven tumor-bearing mice. In contrast to PDGFB-driven GBM, Nf1-silenced tumors have a constitutively active NF-κB pathway, which drives the expression of MCPs to recruit monocytes into tumors. These results indicate local antagonism of IL-1β could be considered as an effective therapy specifically for proneural GBM.

Authors

Zhihong Chen, Bruno Giotti, Milota Kaluzova, Montse Puigdelloses Vallcorba, Kavita Rawat, Gabrielle Price, Cameron J. Herting, Gonzalo Pinero, Simona Cristea, James L. Ross, James Ackley, Victor Maximov, Frank Szulzewsky, Wes Thomason, Mar Marquez-Ropero, Angelo Angione, Noah Nichols, Nadejda M. Tsankova, Franziska Michor, Dmitry M. Shayakhmetov, David H. Gutmann, Alexander M. Tsankov, Dolores Hambardzumyan

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Figure 2

IL1B expression is increased in human MES GBM and Nf1-silenced murine GBM.

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IL1B expression is increased in human MES GBM and Nf1-silenced murine G...
(A) IL1A and IL1B RNA expression in PN (n = 69) and MES (n = 106) human GBM patient samples from TCGA. Two-tailed Student’s t test. (B) qPCR for Il1a and Il1b RNA expression from murine PDGFB-driven (n = 10) and Nf1-silenced (n = 10) GBM samples. Two-tailed Student’s t test. (C) IL-1β in PDGFB-driven (n = 10) and Nf1-silenced (n = 10) murine GBM tissues by ELISA. Two-tailed Student’s t test. (D) qPCR of Il1b expression in FACS-sorted cells from naive brain (n = 5) and PDGFB-driven tumors (n = 3 to 6). One-way ANOVA with Tukey’s post hoc comparisons. (E) Diagram illustrating the coculturing system of primary murine BMDM and PDGFB-driven tumor slices. (F) qPCR of Il1a and Il1b expression in BMDMs cocultured with tumor slices (n = 3 and 4 respectively). Two-tailed Student’s t test. (G) IL-1β expression from BMDM cocultured with primary PN glioma stem-like cells (WGS, n = 3 each group). One-way ANOVA with Tukey’s post hoc comparisons. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001.