The current state and future directions of RNAi-based therapeutics
The RNA interference (RNAi) pathway regulates mRNA stability and translation in nearly all
human cells. Small double-stranded RNA molecules can efficiently trigger RNAi silencing of
specific genes, but their therapeutic use has faced numerous challenges involving safety
and potency. However, August 2018 marked a new era for the field, with the US Food and
Drug Administration approving patisiran, the first RNAi-based drug. In this Review, we
discuss key advances in the design and development of RNAi drugs leading up to this …
human cells. Small double-stranded RNA molecules can efficiently trigger RNAi silencing of
specific genes, but their therapeutic use has faced numerous challenges involving safety
and potency. However, August 2018 marked a new era for the field, with the US Food and
Drug Administration approving patisiran, the first RNAi-based drug. In this Review, we
discuss key advances in the design and development of RNAi drugs leading up to this …
Abstract
The RNA interference (RNAi) pathway regulates mRNA stability and translation in nearly all human cells. Small double-stranded RNA molecules can efficiently trigger RNAi silencing of specific genes, but their therapeutic use has faced numerous challenges involving safety and potency. However, August 2018 marked a new era for the field, with the US Food and Drug Administration approving patisiran, the first RNAi-based drug. In this Review, we discuss key advances in the design and development of RNAi drugs leading up to this landmark achievement, the state of the current clinical pipeline and prospects for future advances, including novel RNAi pathway agents utilizing mechanisms beyond post-translational RNAi silencing.
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