Multiple chromatin-associated modules regulate expression of an intracellular immune receptor gene in Arabidopsis

The expression of an intracellular immune receptor gene SNC1 (SUPPRESSOR OF npr1, CONSTITUTIVE 1) is regulated by multiple chromatin-associated proteins for tuning immunity and growth in Arabidopsis. Whether and how these regulators coordinate to regulate SNC1 expression under varying environmental conditions is not clear. Here, we identified two activation and one repression regulatory modules based on genetic and molecular characterizations of five chromatin-associated regulators of SNC1. Modifier of snc1 (MOS1) constitutes the first module and is required for the interdependent functions of ARABIDOPSIS TRITHORAX-RELATED 7 (ATXR7) and HISTONE MONOUBIQUITINATION 1 (HUB1) to deposit H3K4me3 and H2Bub1 at the SNC1 locus. CHROMATIN REMODELING 5 (CHR5) constitutes a second module and works independently of ATXR7 and HUB1 in the MOS1 module. HIGH EXPRESSION OF OSMOTICALLY RESPONSIVE GENES 15 (HOS15) constitutes a third module responsible for removing H3K9ac to repress SNC1 expression under nonpathogenic conditions. The upregulation of SNC1 resulting from removing the HOS15 repression module is partially dependent on the function of the CHR5 module and the MOS1 module. Together, this study reveals both the distinct and interdependent regulatory mechanisms at the chromatin level for SNC1 expression regulation and highlights the intricacy of regulatory mechanisms of NLR expression under different environment.

The Arabidopsis Chromatin-Remodeling Factor CHR5 Regulates Plant Immune Responses and Nucleosome Occupancy

ATP-dependent chromatin-remodeling factors use the energy of ATP hydrolysis to alter the structure of chromatin and are important regulators of eukaryotic gene expression. One such factor encoded by CHR5 (Chromatin-Remodeling Factor 5) in Arabidopsis (Arabidopsis thaliana) was previously found to be involved in regulation of growth and development. Here we show that CHR5 is required for the up-regulation of the intracellular immune receptor gene SNC1 (SUPPRESSOR OF npr1-1, CONSTITUTIVE1) and consequently the autoimmunity induced by SNC1 up-regulation. CHR5 functions antagonistically with another chromatin-remodeling gene DDM1 (DECREASED DNA METHYLATION 1) and independently with a histone mono-ubiquitinase HUB1 (HISTONE MONOUBIQUITINATION 1) in SNC1 regulation. In addition, CHR5 is a positive regulator of SNC1-independent plant immunity against the bacterial pathogen Pseudomonas syringae. Furthermore, the chr5 mutant has increased nucleosome occupancy in the promoter region relative to the gene body region at the whole-genome level, suggesting a global role for CHR5 in remodeling nucleosome occupancy. Our study thus establishes CHR5 as a positive regulator of plant immune responses including the expression of SNC1 and reveals a role for CHR5 in nucleosome occupancy which probably impacts gene expression genome wide.