Abstract
RNA interference is triggered by double-stranded RNA that is processed into small interfering RNAs (siRNAs) by Dicer enzyme. Endogenously, RNA interference triggers are created from small noncoding RNAs called microRNAs (miRNAs). RNA-induced silencing complexes (RISC) in human cells can be programmed by exogenously introduced siRNA or endogenously expressed miRNA. siRNA-programmed RISC (siRISC) silences expression by cleaving a perfectly complementary target mRNA, whereas miRNA-induced silencing complexes (miRISC) inhibits translation by binding imperfectly matched sequences in the 3′ UTR of target mRNA. Both RISCs contain Argonaute2 (Ago2), which catalyzes target mRNA cleavage by siRISC and localizes to cytoplasmic mRNA processing bodies (P-bodies). Here, we show that RCK/p54, a DEAD box helicase, interacts with argonaute proteins, Ago1 and Ago2, in affinity-purified active siRISC or miRISC from human cells; directly interacts with Ago1 and Ago2 in vivo, facilitates formation of P-bodies, and is a general repressor of translation. Disrupting P-bodies by depleting Lsm1 did not affect RCK/p54 interactions with argonaute proteins and its function in miRNA-mediated translation repression. Depletion of RCK/p54 disrupted P-bodies and dispersed Ago2 throughout the cytoplasm but did not significantly affect siRNA-mediated RNA functions of RISC. Depleting RCK/p54 released general, miRNA-induced, and let-7-mediated translational repression. Therefore, we propose that translation repression is mediated by miRISC via RCK/p54 and its specificity is dictated by the miRNA sequence binding multiple copies of miRISC to complementary 3′ UTR sites in the target mRNA. These studies also suggest that translation suppression by miRISC does not require P-body structures, and location of miRISC to P-bodies is the consequence of translation repression.
Highlights
Small non-coding RNAs play important roles in the posttranscriptional regulation of genes that code for diverse biological functions, e.g., in most metazoan organisms from nematodes to mammals [1,2,3]
Our results suggest that RCK/p54 is the effector molecule in miRNA-induced silencing complexes (miRISC) that represses translation and that the specificity of this repression is dictated by the sequence of miRNA binding to complementary sites in the 39 UTR of the target mRNA
Since we identified that RCK/ p54 associates with miRISC, we hypothesized that RCK/p54 might function in miRNA-mediated suppression of translation
Summary
Small non-coding RNAs play important roles in the posttranscriptional regulation of genes that code for diverse biological functions, e.g., in most metazoan organisms from nematodes to mammals [1,2,3]. Two classes of such small (; 21 nucleotide [nt]) RNAs that have been extensively studied in gene silencing are short interfering RNAs (siRNAs) and microRNAs (miRNAs) (reviewed in [4]). The RNAi machinery can be programmed in cells by introducing duplexes of siRNAs that are assembled into RNA-induced silencing complexes (siRISC) containing Dicer, argonautes, and other proteins [6]. Relatively low levels of let-7 miRNA up-regulate RAS protein in lung cancer cells, demonstrating a possible role of miRNA in tumorigenesis [13]
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