The kinase CIPK14 functions as a negative regulator of plant immune responses to Pseudomonas syringae in Arabidopsis

As a critical second messenger in plants, Ca2+ is involved in numerous biological processes including biotic and abiotic stress responses. The CBL-interacting protein kinases, known as CIPKs, are essential components in Ca2+ - mediated signal transduction pathways. Here, we found that CIPK14 plays a role in the process of regulating immune response in Arabidopsis. The CIPK14 loss-of-function mutants exhibited enhanced resistance to the P. syringae, whereas CIPK14 overexpression plants were more susceptible to bacterial pathogen. Enhanced resistance in cipk14 mutants were accompanied by increased accumulation of SA and elevated expression of defense marker genes (PR1, EDS1, EDS5, ICS1). Overexpression of CIPK14 suppressed Pst DC3000, Pst DC3000 hrcC and flg22 induced generation of ROS and callose deposition. As compared with wild type plants, the expression levels of MPK3/6-dependent PTI marker genes (FRK1, CYP81F2, WAK2, FOX) were up-regulated in cipk14 mutants but down-regulated in CIPK14 overexpression plants after flg22 and elf18 treatment. Additionally, both loss-of-function and gain-of-function of CIPK14 significantly altered the phosphorylation status of MPK3/6 under flg22 treatment, suggesting that CIPK14 is a general modulator of plant immunity at both transcriptional and post-transcriptional level. Taken together, our results uncover that CIPK14 acts as a negative regulator in plant immune response.

Automated summary

CIPK14 acts as a negative regulator in plant immune response, with loss-of-function mutants displaying enhanced resistance and overexpression plants being more susceptible to bacterial pathogens. Additionally, CIPK14 regulates the expression of PTI marker genes and the phosphorylation status of MPK3/6.