Stabilization of the MAPK-Epigenetic Signaling Axis Underlies the Protective Effect of Thyme Oil Against Cadmium Stress in Root Meristem Cells of Vicia faba.
Natalia Gocek-Szczurtek, Aneta Żabka, Mateusz Wróblewski, Justyna T Polit
Abstract
Open AccessCadmium (Cd) induces oxidative stress and disrupts nuclear organization and chromatin-associated metabolic processes in plant cells. Therefore, identifying natural, biodegradable, non-bioaccumulative compounds that enhance plant tolerance to heavy metals is crucial. We hypothesized that Cd exposure (175 µM CdCl2, 24 h) activates mitogen-activated protein kinases (MAPKs), triggering defined epigenetic modifications that lead to transcriptional repression, and that thyme oil (TO; 0.03% (v/v), emulsified) mitigates these effects by stabilizing chromatin organization. We analyzed nuclear MAPK (p44/42) activation, global DNA methylation (5-methylcytosine; 5-mC), and selected histone modifications as key components of early stress signaling and epigenetic regulation. We found that Cd exposure doubled global 5-mC levels and caused pronounced alterations in histone marks, including decreases in H3K4Me2 (~34%), H3T45Ph (~48%), and H4K5Ac, accompanied by strong increases in H3K9Ac (~57%) and H3K56Ac (~148%). These changes were associated with chromatin condensation and reduced transcriptional activity. In contrast, co-treatment with TO maintained MAPK activity and epigenetic parameters close to control levels, preventing chromatin compaction and transcriptional repression. Together, these findings indicate that TO stabilizes the nuclear signaling-epigenetic interface under Cd stress and represents a promising bioprotective strategy. This work provides the first demonstration that TO modulates both MAPK activation and Cd-induced histone modifications in plants.