Enhancer-mediated gene activation involves the recruitment of chromatin modifiers and RNA polymerase to target promoters, but it is unknown if enhancers influence chromatin beyond their target genes. Euchromatin and heterochromatin associated histone modifications separate the genome into opposing nuclear compartments. Whereas heterochromatin marks are known to spread from one modified nucleosome to another, no such ability has been ascribed to euchromatin. Using mono-allelic enhancer deletions, native ChIP-seq, and an engineered interaction between an enhancer and transcriptionally inert DNA, we show that enhancers mediate the acquisition of euchromatin features at distal regions through chromatin looping. We term this phenomenon euchromatin hopping and found it occurring on average ~270kb bidirectionally from enhancers, redefining our understanding of enhancer-mediated chromatin architecture with implications on enhancer identification using chromatin features.