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

Cell reports. Medicine (2024-01-07)
Shipra Malik, Sai Pallavi Pradeep, Vikas Kumar, Yong Xiao, Yanxiang Deng, Rong Fan, Juan C Vasquez, Vijender Singh, Raman Bahal
RESUMEN

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.

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Vincristine sulfate, European Pharmacopoeia (EP) Reference Standard