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. 2024 Dec 20;386(6728):1427-1434.
doi: 10.1126/science.adp9388. Epub 2024 Dec 19.

Noncanonical role of ALAS1 as a heme-independent inhibitor of small RNA-mediated silencing

Seungjae Lee  1 Sangmi Lee  2 Robert Desnick  2 Makiko Yasuda  2 Eric C Lai  1
Affiliations

Noncanonical role of ALAS1 as a heme-independent inhibitor of small RNA-mediated silencing

Seungjae Lee et al. Science. .

Abstract

microRNAs (miRNAs) and small interfering RNAs (siRNAs) are 21- to 22-nucleotide RNAs that guide Argonaute-class effectors to targets for repression. In this work, we uncover 5-aminolevulinic acid synthase 1 (ALAS1), the initiating enzyme for heme biosynthesis, as a general repressor of miRNA accumulation. Although heme is known to be a positive cofactor for the nuclear miRNA processing machinery, ALAS1-but not other heme biosynthesis enzymes-limits the assembly and activity of Argonaute complexes under heme-replete conditions. This involves a cytoplasmic role for ALAS1, previously considered inactive outside of mitochondria. Moreover, conditional depletion of ALAS activity from mouse hepatocytes increases miRNAs and enhances siRNA-mediated knockdown. Notably, because ALAS1 is the target of a Food and Drug Administration-approved siRNA drug, agents that suppress ALAS may serve as adjuvants for siRNA therapies.

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Conflict of interest statement

Competing interests: R.D. and M.Y. are coinventors of a patent licensed to Alnylam Pharmaceuticals for RNAi therapy of the AHPs. R.D. consulted for Alnylam Pharmaceuticals and CRISPR Therapeutics. M.Y. consulted for Alnylam Japan and served on the scientific advisory board for CRISPR Therapeutics. E.C.L., R.D., M.Y., and Se.L. are inventors on a PCT application related to this work that has been filed and can be accessed publicly (Methods for enhancing the efficacy of rnai therapy by targeting alas1/alas2; WO2024148236A1). The authors declare no other competing interests.

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