Yes-associated protein (YAP), the downstream transducer of the Hippo pathway is a key regulator of organ size, differentiation and tumourigenesis. Yet, the activity of YAP can also be modulated by Hippo-independent functions. To disclose these Hippo-independent regulators, we performed a genome-wide CRISPR screening approach that identified the transcriptional repressor protein Trichorhinophalangeal Syndrome 1 (TRPS1) as a potent repressor of YAP-dependent transactivation. Using RNA-Sequencing and ChIP-Sequencing approaches we show that TRPS1 globally regulates YAP-dependent transcription by binding to a large set of joint genomic sites, mainly enhancers. Mechanistically, TRPS1 represses YAP-dependent enhancers function by recruiting a spectrum of corepressor complexes to joint sites. Consequently, loss of TRPS1 leads to activation of enhancers due to increased H3K27 acetylation and an altered promoter-enhancer interaction landscape. TRPS1 is commonly amplified in breast cancer which is associated decreased YAP activity and leads to a decreased frequency of intratumoural immune cells. Consistently, depletion of TRPS1 in the syngeneic 4T1 tumour model leads to a strongly decreased tumour growth in vivo. Our study uncovers TRPS1 as a new epigenetic regulator of YAP activity and it connects repression of YAP-dependent enhancer function to breast cancer. For project-related queries, please contact bjoern.voneyss@leibniz-fli.de <mailto:bjoern.voneyss@leibniz-fli.de>.