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Antitumor efficacy of a sequence-specific DNA-targeted γPNA-based c-Myc inhibitor

Shipra Malik, Sai Pallavi Pradeep, Vikas Kumar, Yong Xiao, Yanxiang Deng, Rong Fan, Juan C. Vasquez, Vijender Singh, Raman Bahal

2024Cell Reports Medicine16 citationsDOIOpen Access PDF

Abstract

Targeting oncogenes at the genomic DNA level can open new avenues for precision medicine. Significant efforts are ongoing to target oncogenes using RNA-targeted and protein-targeted platforms, but no progress has been made to target genomic DNA for cancer therapy. Here, we introduce a gamma peptide nucleic acid (γPNA)-based genomic DNA-targeted platform to silence oncogenes in vivo. γPNAs efficiently invade the mixed sequences of genomic DNA with high affinity and specificity. As a proof of concept, we establish that γPNA can inhibit c-Myc transcription in multiple cell lines. We evaluate the in vivo efficacy and safety of genomic DNA targeting in three pre-clinical models. We also establish that anti-transcription γPNA in combination with histone deacetylase inhibitors and chemotherapeutic drugs results in robust antitumor activity in cell-line- and patient-derived xenografts. Overall, this strategy offers a unique therapeutic platform to target genomic DNA to inhibit oncogenes for cancer therapy.

Topics & Concepts

Peptide nucleic acidDNAHistone deacetylaseTargeted therapygenomic DNABiologyCancer researchMolecular biologyHistoneComputational biologyCancerGeneticsAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliveryDNA and Nucleic Acid Chemistry
Antitumor efficacy of a sequence-specific DNA-targeted γPNA-based c-Myc inhibitor | Litcius