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Literature DB >> 26582900

AZD9150, a next-generation antisense oligonucleotide inhibitor of STAT3 with early evidence of clinical activity in lymphoma and lung cancer.

David Hong¹, Razelle Kurzrock², Youngsoo Kim³, Richard Woessner⁴, Anas Younes⁵, John Nemunaitis⁶, Nathan Fowler¹, Tianyuan Zhou³, Joanna Schmidt³, Minji Jo³, Samantha J Lee³, Mason Yamashita³, Steven G Hughes³, Luis Fayad¹, Sarina Piha-Paul¹, Murali V P Nadella⁷, Morvarid Mohseni⁴, Deborah Lawson⁴, Corinne Reimer⁴, David C Blakey⁸, Xiaokun Xiao³, Jeff Hsu³, Alexey Revenko³, Brett P Monia³, A Robert MacLeod⁹.

Abstract

Next-generation sequencing technologies have greatly expanded our understanding of cancer genetics. Antisense technology is an attractive platform with the potential to translate these advances into improved cancer therapeutics, because antisense oligonucleotide (ASO) inhibitors can be designed on the basis of gene sequence information alone. Recent human clinical data have demonstrated the potent activity of systemically administered ASOs targeted to genes expressed in the liver. We describe the preclinical activity and initial clinical evaluation of a class of ASOs containing constrained ethyl modifications for targeting the gene encoding the transcription factor STAT3, a notoriously difficult protein to inhibit therapeutically. Systemic delivery of the unformulated ASO, AZD9150, decreased STAT3 expression in a broad range of preclinical cancer models and showed antitumor activity in lymphoma and lung cancer models. AZD9150 preclinical activity translated into single-agent antitumor activity in patients with highly treatment-refractory lymphoma and non-small cell lung cancer in a phase 1 dose-escalation study.

Entities: CellLine Chemical Disease Gene Mutation Species

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Year: 2015 PMID： 26582900 PMCID： PMC5279222 DOI： 10.1126/scitranslmed.aac5272

Source DB: PubMed Journal: Sci Transl Med ISSN： 1946-6234 Impact factor: 17.956

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