dCas9/CRISPR-based methylation of O-6-methylguanine-DNA methyltransferase enhances chemosensitivity to temozolomide in malignant glioma

Author:

Zapanta Rinonos SerendipityORCID,Li Tie,Pianka Sean ThomasORCID,Prins Terry J.ORCID,Eldred Blaine S. C.ORCID,Kevan Bryan M.,Liau Linda M.ORCID,Nghiemphu Phioanh LeiaORCID,Cloughesy Timothy F.ORCID,Lai AlbertORCID

Abstract

Abstract Background Malignant glioma carries a poor prognosis despite current therapeutic modalities. Standard of care therapy consists of surgical resection, fractionated radiotherapy concurrently administered with temozolomide (TMZ), a DNA-alkylating chemotherapeutic agent, followed by adjuvant TMZ. O-6-methylguanine-DNA methyltransferase (MGMT), a DNA repair enzyme, removes alkylated lesions from tumor DNA, thereby promoting chemoresistance. MGMT promoter methylation status predicts responsiveness to TMZ; patients harboring unmethylated MGMT (~60% of glioblastoma) have a poorer prognosis with limited treatment benefits from TMZ. Methods Via lentiviral-mediated delivery into LN18 glioma cells, we employed deactivated Cas9-CRISPR technology to target the MGMT promoter and enhancer regions for methylation, as mediated by the catalytic domain of the methylation enzyme DNMT3A. Methylation patterns were examined at a clonal level in regions containing Differentially Methylation Regions (DMR1, DMR2) and the Methylation Specific PCR (MSP) region used for clinical assessment of MGMT methylation status. Correlative studies of genomic and transcriptomic effects of dCas9/CRISPR-based methylation were performed via Illumina 850K methylation array platform and bulk RNA-Seq analysis. Results We used the dCas9/DNMT3A catalytic domain to achieve targeted MGMT methylation at specific CpG clusters in the vicinity of promoter, enhancer, DMRs and MSP regions. Consequently, we observed MGMT downregulation and enhanced glioma chemosensitivity in survival assays in vitro, with minimal off-target effects. Conclusion dCas9/CRISPR is a viable method of epigenetic editing, using the DNMT3A catalytic domain. This study provides initial proof-of-principle for CRISPR technology applications in malignant glioma, laying groundwork for subsequent translational studies, with implications for future epigenetic editing-based clinical applications.

Funder

UCLA Jonsson Comprehensive Cancer Center Postdoctoral Research Award

UCLA Tumor Biology Postdoctoral Training Program

UCLA Tumor Cell Biology Predoctoral Training Program

National Cancer Institute Ruth L. Kirschstein Research Service Award

UCLA-Caltech Medical Scientist Training Program

U.S. Department of Defense

BCured Foundation

UCLA SPORE in Brain Cancer

Publisher

Springer Science and Business Media LLC

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