Lactate reprograms glioblastoma immunity through CBX3-regulated histone lactylation
Shuai Wang, Tengfei Huang, Qiulian Wu, Huairui Yuan, Xujia Wu, Fanen Yuan, Tingting Duan, Suchet Taori, Yingming Zhao, Nathaniel W. Snyder, Dimitris G. Placantonakis, Jeremy N. Rich
Shuai Wang, Tengfei Huang, Qiulian Wu, Huairui Yuan, Xujia Wu, Fanen Yuan, Tingting Duan, Suchet Taori, Yingming Zhao, Nathaniel W. Snyder, Dimitris G. Placantonakis, Jeremy N. Rich
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Research Article Metabolism Oncology

Lactate reprograms glioblastoma immunity through CBX3-regulated histone lactylation

Abstract

Glioblastoma (GBM), an aggressive brain malignancy with a cellular hierarchy dominated by GBM stem cells (GSCs), evades antitumor immunity through mechanisms that remain incompletely understood. Like most cancers, GBMs undergo metabolic reprogramming toward glycolysis to generate lactate. Here, we show that lactate production by patient-derived GSCs and microglia/macrophages induces tumor cell epigenetic reprogramming through histone lactylation, an activating modification that leads to immunosuppressive transcriptional programs and suppression of phagocytosis via transcriptional upregulation of CD47, a “don’t eat me” signal, in GBM cells. Leveraging these findings, pharmacologic targeting of lactate production augments efficacy of anti-CD47 therapy. Mechanistically, lactylated histone interacts with the heterochromatin component chromobox protein homolog 3 (CBX3). Although CBX3 does not possess direct lactyltransferase activity, CBX3 binds histone acetyltransferase (HAT) EP300 to induce increased EP300 substrate specificity toward lactyl-CoA and a transcriptional shift toward an immunosuppressive cytokine profile. Targeting CBX3 inhibits tumor growth by both tumor cell–intrinsic mechanisms and increased tumor cell phagocytosis. Collectively, these results suggest that lactate mediates metabolism-induced epigenetic reprogramming in GBM that contributes to CD47-dependent immune evasion, which can be leveraged to augment efficacy of immuno-oncology therapies.

Authors

Shuai Wang, Tengfei Huang, Qiulian Wu, Huairui Yuan, Xujia Wu, Fanen Yuan, Tingting Duan, Suchet Taori, Yingming Zhao, Nathaniel W. Snyder, Dimitris G. Placantonakis, Jeremy N. Rich

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Figure 3

Histone lactylation regulates phagocytosis of GSCs by microglia in vitro and in vivo.

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Histone lactylation regulates phagocytosis of GSCs by microglia in vitro...
(A and B) Representative flow cytometry plots of in vitro phagocytosis of GSCs (stained with eFluor670) by microglia (stained with carboxyfluorescein succinimidyl ester [CSFE]) after GSC pretreatment with NaLac (A) or DCA (B) for 24 hours. (C and D) Statistical analysis of phagocytosis assays of microglia against GSCs pretreated with NaLac (C) (n = 3/group; 1-way ANOVA; F[2, 6] = 29.39 for GSC23), (F[2, 6] = 84.10 for CW468) or DCA (D) (n = 3 /group; 1-way ANOVA; F[2, 6] = 31.63 for GSC23, F[2, 6] = 38.02 for CW468). (E) Representative flow cytometry plot of in vitro phagocytosis of GSC23 (stained with eFluor670) by macrophage (stained with CSFE). GSC23 were pretreated with 10 mM NaLac for 24 hours before the phagocytosis assay. (F) Graphic quantification of the assay in E (n = 3/group; t test). (G) Representative flow cytometry plot of macrophage (stained with CSFE) phagocytosis of eFluor670-stained GSC23 pretreated with 10 mM DCA for 24 hours. (H) Graphic quantification of the assay in G (n = 3/group; t test). (I) Representative flow cytometry plots of in vitro phagocytosis of GSC23 by microglia. Microglia were pretreated with vehicle (PBS) or 10 mM NaLac for 24 hours before coculture. GSCs and microglia were stained with eFluor670 and CFSE, respectively. (J) Graphic quantification of GSC23 phagocytosis by microglia in I (n = 3/group; t test). (K) Representative flow cytometry plots of microglial phagocytosis of GSCs. Microglia were pretreated with PBS or DCA for 24 hours before phagocytosis measurements. GSCs and microglia were stained with eFluor670 and CFSE, respectively. (L) Graphic quantification of GSC23 phagocytosis by microglia in K (n = 3/group; t test). **P < 0.01; ***P < 0.001; ****P < 0.0001.