Balancing roles between phosphatidylinositols and sphingolipids in regulating immunity and ER stress responses in pi4kß1,2.

Plant immune regulation is complex. In addition to proteins, lipid molecules play critical roles in modulating immune responses. The mutant pi4kß1,2 is mutated in two phosphatidylinositol 4-kinases PI4Kß1 and ß2 involved in the biosynthesis of phosphatidylinositol 4-phosphate (PI4P). The mutant displays autoimmunity, short roots, aberrant root hairs, and a heightened sensitivity to ER stress. In a forward genetic screen designed to dissect pi4kß1,2 autoimmunity, we found that Orosomucoid-like 1 (ORM1) is required for the phenotypes of pi4kß1,2, including short root and ER stress sensitivity. The orm1 mutations lead to increased long-chain base and ceramide levels in the suppressors. We also found that the basic region/leucine Zipper motif (bZIP) 28 and 60 transcription factors, central regulators of ER stress response, are required for its autoimmunity and root defect. In comparison, the defense-related phytohormones salicylic acid (SA) and N-hydroxypipecolic acid (NHP) are required for its autoimmunity but plays a minor role in its root phenotypes. Further, we found that wild-type plants overexpressing ORM1 are autoimmune, displaying short roots and increased ceramide levels. The autoimmunity of the ORM1 overexpression lines is dependent on SA, NHP, and bZIP60. As ORM1 is a known negative regulator of sphingolipid biosynthesis, our study uncovers a balancing role between PIs and sphingolipids in regulating immunity and ER stress responses in pi4kß1,2.

Signal Peptide Peptidase and PI4Kß1/2 play opposite roles in plant ER stress response and immunity.

The Arabidopsis pi4kß1,2 mutant is mutated in the phosphatidylinositol 4-kinase (PI4K) ß1 and PI4Kß2 enzymes which are involved in the biosynthesis of phosphatidylinositol 4-phosphate (PI4P), a minor membrane lipid with important signaling roles. pi4kß1,2 plants display autoimmunity and shorter roots. Though the pi4kß1,2 mutant has been extensively characterized, the source of its autoimmunity remains largely unknown. In this study, through a genetic suppressor screen, we identified multiple partial loss-of-function alleles of signal peptide peptidase (spp) that can suppress all the defects of pi4kß1,2. SPP is an intramembrane cleaving aspartic protease. Interestingly, pi4kß1,2 plants display enhanced ER stress response and mutations in SPP can suppress such phenotype. Furthermore, reduced ER stress responses were observed in the spp single mutants. Overall, our study reveals a previously unknown function of PI4Kß and SPP in ER stress and plant immunity.

Immune receptor mimicking hormone receptors: a new guarding strategy.

Plant intracellular nucleotide-binding domain leucine-rich repeat (NLR) receptors play crucial roles in immune responses against pathogens. How diverse NLRs recognize different pathogen effectors remains a significant question. A recent study published in Nature uncovered how pepper NLR Tsw detects phytohormone receptors' interference caused by tomato spotted wilt virus (TSWV) effector, triggering a robust immune response, showcasing a new manner of NLR guarding.