DNA methylation and mRNA expression correlations are often presented with inconsistent evidence supporting causal regulation. We hypothesized that causal regulatory methylation elements would exhibit heightened demethylation sensitivity. To investigate, we analyzed 20 whole genomic bisulfite sequenced samples before and after demethylation and identified narrow width (45 294 bp) elements within a short plateau, termed Methylation Mesa (MM). The Mesa signature was conserved across species and was independent of CpG islands. Mesa also demonstrate high concordance with primed and active histone marks. To assess causality, we developed CRISPR DiR, a highly precise targeted demethylation technology. Targeted demethylation of a Mesa triggers locus and distal chromatin rewiring events that initiate mRNA expression significantly greater than promoter CpG island targeting. Thus, Mesa are self-sustaining epigenetic regulatory elements that maintain long-term gene activation through focused demethylation only within the Mesa core, resulting in subsequent histone modifications and chromatin rewiring events that interact with distal elements also marked as Mesas.