Superenhancer activation of KLHDC8A drives glioma ciliation and hedgehog signaling
Derrick Lee, … , David R. Raleigh, Jeremy N. Rich
Derrick Lee, … , David R. Raleigh, Jeremy N. Rich
Published November 17, 2022
Citation Information: J Clin Invest. 2023;133(2):e163592. https://doi.org/10.1172/JCI163592.
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Research Article Oncology

Superenhancer activation of KLHDC8A drives glioma ciliation and hedgehog signaling

Abstract

Glioblastoma ranks among the most aggressive and lethal of all human cancers. Self-renewing, highly tumorigenic glioblastoma stem cells (GSCs) contribute to therapeutic resistance and maintain cellular heterogeneity. Here, we interrogated superenhancer landscapes of primary glioblastoma specimens and patient-derived GSCs, revealing a kelch domain–containing gene, specifically Kelch domain containing 8A (KLHDC8A) with a previously unknown function as an epigenetically driven oncogene. Targeting KLHDC8A decreased GSC proliferation and self-renewal, induced apoptosis, and impaired in vivo tumor growth. Transcription factor control circuitry analyses revealed that the master transcriptional regulator SOX2 stimulated KLHDC8A expression. Mechanistically, KLHDC8A bound chaperonin-containing TCP1 (CCT) to promote the assembly of primary cilia to activate hedgehog signaling. KLHDC8A expression correlated with Aurora B/C Kinase inhibitor activity, which induced primary cilia and hedgehog signaling. Combinatorial targeting of Aurora B/C kinase and hedgehog displayed augmented benefit against GSC proliferation. Collectively, superenhancer-based discovery revealed KLHDC8A as what we believe to be a novel molecular target of cancer stem cells that promotes ciliogenesis to activate the hedgehog pathway, offering insights into therapeutic vulnerabilities for glioblastoma treatment.

Authors

Derrick Lee, Ryan C. Gimple, Xujia Wu, Briana C. Prager, Zhixin Qiu, Qiulian Wu, Vikas Daggubati, Aruljothi Mariappan, Jay Gopalakrishnan, Matthew R. Sarkisian, David R. Raleigh, Jeremy N. Rich

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Figure 1

Superenhancer screen identified a potential GSC vulnerability.

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Superenhancer screen identified a potential GSC vulnerability. (A) Diagr...
(A) Diagram depicting the superenhancer screen and target prioritization approach. (B) Venn diagram showing the intersection between all superenhancer-associated genes in 11 glioblastoma tissues and common (>70%) superenhancer-associated in 37 GSCs. (C) GSEA of Hallmark, curated, and GO pathways enriched for gene sets correlated with the H3K27ac signal intensity of GSC superenhancer-associated genes. (D) De novo HOMER motif analysis of 252 selected GSC superenhancers, as described in B. (E) Volcano plot showing the mRNA expression of selected superenhancer-associated genes in TCGA HG-U133A data set. Red dots indicate upregulated genes, while blue dots indicate downregulated genes in glioblastoma tissues compared with normal brain tissues. (F) Box plot showing the proportional hazards survival of 32 upregulated superenhancer-associated genes, as described in E. Red bars indicate the genes correlated with high proportional hazards survival at a log2 value greater than 4. (G) Heatmap and box plot showing the mRNA expression of 13 selected superenhancer-associated genes, as described in F, in 3 paired GSC and DGC models analyzed by R package Limma.