Target mRNA inhibition by oligonucleotide drugs in man

HL Lightfoot, J Hall - Nucleic acids research, 2012 - academic.oup.com
HL Lightfoot, J Hall
Nucleic acids research, 2012academic.oup.com
Oligonucleotide delivery in vivo is commonly seen as the principal hurdle to the successful
development of oligonucleotide drugs. In an analysis of 26 oligonucleotide drugs recently
evaluated in late-stage clinical trials we found that to date at least half have demonstrated
suppression of the target mRNA and/or protein levels in the relevant cell types in man,
including those present in liver, muscle, bone marrow, lung, blood and solid tumors. Overall,
this strongly implies that the drugs are being delivered to the appropriate disease tissues …
Abstract
Oligonucleotide delivery in vivo is commonly seen as the principal hurdle to the successful development of oligonucleotide drugs. In an analysis of 26 oligonucleotide drugs recently evaluated in late-stage clinical trials we found that to date at least half have demonstrated suppression of the target mRNA and/or protein levels in the relevant cell types in man, including those present in liver, muscle, bone marrow, lung, blood and solid tumors. Overall, this strongly implies that the drugs are being delivered to the appropriate disease tissues. Strikingly we also found that the majority of the drug targets of the oligonucleotides lie outside of the drugable genome and represent new mechanisms of action not previously investigated in a clinical setting. Despite the high risk of failure of novel mechanisms of action in the clinic, a subset of the targets has been validated by the drugs. While not wishing to downplay the technical challenges of oligonucleotide delivery in vivo , here we demonstrate that target selection and validation are of equal importance for the success of this field.
Oxford University Press