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Targeted epigenetic repression of oncogenic transcription factors via CRISPR/dCas9 locus-specific silencing

Created on 29 Jun 2026

Authors

Taifour, S., Wallis, C., Wang, E., Woodward, E., Waryah, C., Dymond, L., Woo, A., Houghton, P., Iyer, K. S., Norret, M., Evans, C. W., Winteringham, L., Gaudieri, S., Blancafort, P.

Abstract

Despite the revolutionary impact of genome engineering tools in medicine, the safe and effective intracellular delivery of CRISPR remains a major obstacle for clinical applications. Here, we implement precision molecular medicine and delivery strategies based on CRISPR/dCas9 systems adapted for epigenetic repression (dCas9-KRAB) to silence oncogenic drivers with high genomic selectivity. As proof-of-principle, we target the EWSR1-FLI1 translocation, which encodes a chimeric and hard-to-drug oncogenic transcription factor driving approximately 85% of the cases of Ewing Sarcoma (EWS)-an aggressive malignancy affecting children and adolescents. We describe the development of a non-viral and programmable polymeric system for the delivery of dCas9-KRAB as ribonucleoprotein (RNP) payloads for selective EWSR1-FLI1 repression. We demonstrate highly efficient intracellular delivery of RNPs loaded in polyamide-amine (PAMAM) polymers functionalized by guanidino groups, resulting in robust silencing of EWSR1-FLI1 both in established cell line xenografts and in patient-derived xenografts (PDXs) of EWS. Moreover, silencing of EWSR1-FLI1 is accompanied by potent anti-tumor effects. To our knowledge, we describe the first non-viral platform for in vivo delivery of dCas9-KRAB/RNPs, which can be adapted for the repression of any oncogene. We further outline dCas9/RNP formulations for future therapeutic applications to treat poor-prognosis cancers driven by hard-to-drug oncogenes.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 29 Jun 2026.

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