ABSTRACT: Little is known about how miRNAs are turned over, in particular in mammalian cells. A target-dependent miRNA degradation mechanism (TDMD) has been recently suggested, in which RNA targets may induce miRNA degradation. However, endogenous RNA targets involved in TDMD have not been yet identified. During serum stimulation of quiescent fibroblasts, a deep change of miRNA expression occurs in few hours. We scanned the mammalian genome for targets eligible for TDMD and found a dominant miRNA:target pair, consisting of a target (SerpinE1) extraordinarily induced upon serum stimulation and two matched miRNAs (miR-30b/c) quickly downregulated. We verified directly the occurrence of TDMD by interfering specifically with the miR-:target interaction, keeping target and miRNA expression at endogenous levels, using CRISPR/cas9 mediated deletion of the miR-30 responsive element (MRE) of SerpinE1. In MRE-KO cells, we observed the stabilization of the predicted miRNAs, with no evidence of alterations in precursors or unrelated miRNAs, suggesting that TDMD is occurring and has been disrupted by a single MRE deletion. At molecular level miRNA degradation occurs within physiological ranges of target expression (upon 1000 copies per cells) and is accompanied by modification on 3’ends (tailing, mostly through adenylation). TDMD suppression was sufficient to shift the activity of miR-30b/c towards other shared targets, modulate significantly gene expression and, thus, influence cellular functions, including cell proliferation, apoptosis, and adhesion. In conclusion, these data strongly support the existence of a novel and sophisticated regulatory layer of miRNA and gene expression mediated by specific endogenous targets in mammalian cells.