As post-transcriptionally gene regulators demonstrated by numerous studies, microRNAs have been predicted to control more than 70% of human coding genes expression. However, studies regarding modulators for miRNA biogenesis and/or function remain relatively fewer. Here, we performed a candidate-based RNAi screen in C. elegans to identify DEAD/H-box proteins involved in miRNA biogenesis and/or function. In a let-7(mg279) sensitized genetic background, knockdown of a homolog of yeast splicing factor Prp28p, DDX-23, or a homolog of human helicases p68 and p72, DDX-17, enhanced let-7 loss-of-function phenotypes, suggesting that these helicases play a role in let-7 processing and/or function. In both ddx-23(RNAi) and ddx-17(RNAi), levels of mature let-7 were decreased while pri-let-7 was found accumulated, indicating that the helicases likely act at the level of pri-let-7 processing. DDX-23 and DDX-17 were also required for the biogenesis of other known heterochronic miRNAs, including lin-4 and the let-7 family members miR-48, miR-84 and miR-241. Their function was not confined to the heterochronic pathway, however, since they were both necessary for down-regulation of cog-1 by the spatial patterning miRNA, lsy-6. Therefore, we present a novel function for C. elegans DDX-23 in pri-miRNA processing, and also suggest a conserved role for DDX-17 in this process. On the other hand, we also show that RNAi knockdown of C. elegans HRP-2, the homolog of mammalian hnRNP Q, relieved the heterochronic phenotypes in let-7(n2853) mutant animals, indicating an involvement of HRP-2 in let-7-lin-41 regulation. In addition, we detected an RNA-dependent interaction between HRP-2 and the Argonaute ALG-1, the core effector protein of miRNA-mediated silencing complex (miRISC). Moreover, we identified an HRP-2 response element in the lin-41 3’UTR at a position, downstream of the two let-7 complementary sites (LCSs), close to the poly(A)-tail. Deletion of this response element caused further down regulation of a GFP reporter carrying the lin-41 3’UTR in a let-7-dependent manner. Thus, we propose that HRP-2 impedes let-7/miRISC activity when binding to the lin-41 3’UTR. Interestingly, we found that depletion of human hnRNP Q also enhanced let-7-mediated down-regulation of TRIM71. Similar to the case in C. elegans, hnRNP Q binds to a response element adjacent to the poly(A)-tail in the TRIM71 3’UTR. Deleting this element from the 3’UTR significantly enhanced let-7 repression. Taken together, our findings uncover a novel evolutionarily conserved function for HRP-2/hnRNP Q to inhibit let-7/miRISC activity when they bind to specific response elements in the lin-41/TRIM71 3’UTRs.