Epigenetic modulator inhibition overcomes temozolomide chemoresistance and antagonizes tumor recurrence of glioblastoma
Byoung-San Moon, … , Min Yu, Wange Lu
Byoung-San Moon, … , Min Yu, Wange Lu
Published October 5, 2020
Citation Information: J Clin Invest. 2020;130(11):5782-5799. https://doi.org/10.1172/JCI127916.
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Research Article Oncology

Epigenetic modulator inhibition overcomes temozolomide chemoresistance and antagonizes tumor recurrence of glioblastoma

Abstract

Glioblastoma multiforme (GBM) heterogeneity causes a greater number of deaths than any other brain tumor, despite the availability of alkylating chemotherapy. GBM stem-like cells (GSCs) contribute to GBM complexity and chemoresistance, but it remains challenging to identify and target GSCs or factors that control their activity. Here, we identified a specific GSC subset and show that activity of these cells is positively regulated by stabilization of methyl CpG binding domain 3 (MBD3) protein. MBD3 binds to CK1A and to BTRCP E3 ubiquitin ligase, triggering MBD3 degradation, suggesting that modulating this circuit could antagonize GBM recurrence. Accordingly, xenograft mice treated with the CK1A activator pyrvinium pamoate (Pyr-Pam) showed enhanced MBD3 degradation in cells expressing high levels of O6-methylguanine-DNA methyltransferase (MGMT) and in GSCs, overcoming temozolomide chemoresistance. Pyr-Pam blocked recruitment of MBD3 and the repressive nucleosome remodeling and deacetylase (NuRD) complex to neurogenesis-associated gene loci and increased acetyl–histone H3 activity and GSC differentiation. We conclude that CK1A/BTRCP/MBD3/NuRD signaling modulates GSC activation and malignancy, and that targeting this signaling could suppress GSC proliferation and GBM recurrence.

Authors

Byoung-San Moon, Mingyang Cai, Grace Lee, Tong Zhao, Xiaofeng Song, Steven L. Giannotta, Frank J. Attenello, Min Yu, Wange Lu

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Figure 3

BTRCP is an E3 ubiquitin ligase promoting MBD3 polyubiquitination and subsequent proteasomal degradation.

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BTRCP is an E3 ubiquitin ligase promoting MBD3 polyubiquitination and su...
(A) Anti-Flag IPs from T98G-Flag-MBD3 cells were resolved by SDS-PAGE and visualized by silver staining. Specific bands were excised and analyzed using mass spectrometry. H, IgG heavy chain; L, IgG light chain. (B) Diagram of conserved domains of MBD3 protein (upper) and the 2 degron (DSGX(n)S) motifs of MBD3 orthologs (lower). MBD, methyl CpG binding domain. (C and D) IP with anti-Myc or Flag-M2 beads of respective lysates made from cells transfected with either HA-MBD3 with or without Myc-BTRCP or Myc-BTRCP plus control vector or Flag-MBD3. (E) IP using Myc-conjugated beads in lysates from cells transfected with BTRCP-Flag plus control vector or WT or SA double (S39A/S45A or S85A/S106A) or quadruple (SallA) mutant MBD3-Myc. Whole-cell lysates (WCLs) were immunoblotted using the indicated antibodies. (F) Diagram of BTRCP deletion mutants (left) and IP using Flag-M2 beads of lysates from cells transfected with MBD3-Myc plus control vector, WT BTRCP-Flag, or indicated BTRCP deletion mutants (right). WCLs were immunoblotted with the indicated antibodies. (G) T98G cells were transfected with empty vector or increasing levels of Flag-tagged BTRCP expression vector. WCLs were collected 48 hours later and immunoblotted (IB) with the indicated antibodies. (H and I) Effect of BTRCP overexpression or knockdown on MBD3 polyubiquitination. Sorted T98G GSCs were transfected with the indicated vectors and treated with MG132. Left: WCLs were immunoprecipitated with the indicated beads recognizing Myc. Right: Quantification of polyubiquitinated MBD3 normalized to α-tubulin (n = 3). (J) Ubiquitination of overexpressed MBD3 in lysates of T98G GSCs transfected with WT or SallA mutant Myc-MBD3 plus HA-Ub expression vectors and treated 1 day later with MG132 for 6 hours before harvest. After lysis, IP was performed with Flag-M2 beads. WCLs were analyzed by IB with indicated antibodies. Data are representative of at least 3 independent experiments. BTRCP, β-transducin repeats–containing protein. Data are presented as the mean ± SD. *P < 0.05; ***P < 0.0005 by 1-way ANOVA with Tukey’s multiple-comparison test.