Dissection of Regulatory Networks Mediating Resistance and Susceptibility of Arabidopsis thaliana to the Downy Mildew Pathogen Hyaloperonospora parasitica

Hoff, Troy Colston

22 January 2009

Plants and pathogenic microorganisms are in constant conflict with each other. Understanding the molecular networks that trigger resistance, along with the molecular networks that pathogens might co-opt to infect susceptible plants, is important for developing the integrated, holistic perspective that is necessary for innovative development of engineered resistance to current and emerging pathogens. The first objective of the dissertation was to increase the understanding of mechanisms by which plants recognize pathogen attack and mount an appropriate defense response. These experiments focused on resistance triggered by the Arabidopsis thaliana R gene, RPP7, which encodes a coiled-coil nucleotide binding-leucine-rich repeat (CC-NB-LRR) protein that activates race-specific resistance to the downy mildew pathogen, Hyaloperonospora parasitica (Hpa). Previously-published genetic epistasis tests have established that RPP7 activates defense responses through a signaling mechanism that does not require accumulation of salicylic acid (SA), or components of the ethylene and jasmonate response pathways. Furthermore, RPP7 is not strongly compromised by mutations in genes associated with defense signal transduction (PAD4, NDR1, NPR1, RAR1). Double mutant combinations of these signal transduction components were analyzed to detect additive or functionally-redundant contributions to RPP7-dependent resistance. Most of the double mutants support an enhanced level of asexual sporulation compared to the single mutant parental lines. Time-course experiments with histochemical stains revealed that these double mutants delay, but do not suppress, the oxidative burst and the hypersensitive response. These results suggest that RPP7 activates multiple signaling pathways, each of which makes incremental contributions to the timing of defense activation. The second objective of the dissertation was to investigate the role that auxin plays in enabling virulent H. parasitica to colonize Arabidopsis. Transcript profiling revealed induction of auxin-associated genes in response to infection of Arabidopsis thaliana by virulent strains of the oömycete pathogen, H. parasitica. Experiments with the DR5 / Ph. D.

RPP7

RAR1

PAD4

Hyaloperonospora parasitica

NDR1

NPR1

Auxin

Arabidopsis thaliana

Vitamin D Inhibits Expression of Protein Arginine Deiminase 2 and 4 in Experimental Autoimmune Encephalomoyelitis Model Of Multiple Sclerosis

McCain, Travis William

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Multiple sclerosis (MS) is a disabling disease that afflicts an estimated two million people worldwide. The disease is characterized by degradation of the myelin sheath that insulates neurons of the central nervous system manifesting as a heterogeneous collection of symptoms. Two enzymes, protein arginine deaminases type 2 and 4 (PAD2 and PAD4) have been implicated to play an etiologic role in demyelination and neurodegeneration by catalyzing a post-translational modification of arginine peptide residues to citrulline. The pathogenesis of MS is poorly understood, though vitamin D deficiency is a well-associated risk factor for developing the disorder. Using the experimental autoimmune encephalomyelitis (EAE) model of MS we demonstrate vitamin D treatment to attenuate over-expression of PAD 2 and 4 in the brain and spine during EAE. In addition, we identify two molecules produced by peripheral immune cells, IFNɣ and IL-6, as candidate signaling molecules that induce PAD expression in the brain. We demonstrate vitamin D treatment to inhibit IFNɣ mediated up regulation of PAD2 and PAD4 both directly within the brain and by modulating PAD-inducing cytokine production by infiltrating immune cells. These results provide neuroprotective rational for the supplementation of vitamin D in MS patients. More importantly, these results imply an epigenetic link between vitamin D deficiency and the pathogenesis of MS that merits further investigation.

Phosphorylase

Peptides -- Synthesis

Arginine -- Research

Enzymes -- Regulation

Encephalomyelitis

Autoimmunity -- Molecular aspects

Epigenetics -- Research

Methylation -- Physiological effect

Ornithine carbamoyltransferase

Adenosine deaminase -- Research

Purines -- Metabolism -- Disorders

Metabolism, Inborn errors of -- Research