Reduction of PII signaling protein enhances lipid body production in Chlamydomonas reinhardtii

In all examined organisms that have the PII signal transduction machinery, PII coordinates the central C/N anabolic metabolism. In green algae and land plants, PII is localized in the chloroplast and controls the L-arginine biosynthetic pathway pathway. To elucidate additional functions of PII in the model photosynthetic organism Chlamydomonas reinhardtii (CrPII), we generated and analyzed four strains, in which PII was strongly under-expressed by artificial microRNA (GLB1-amiRNA strains). In response to nitrogen deficiency, Chlamydomonas produces triacylglycerols (TAGs) that are accumulated in lipid bodies (LB). Quantification of LBs by confocal microscopy in four GLB1-amiRNA strains showed that reduced PII levels resulted in over-accumulation of LBs compared to their parental strains. Moreover, knock-down of PII caused also an increase in the total TAG level. We propose that the larger yields of TAG-filled LBs in N-starved GLB1-amiRNA cells can be attributed to the strain's depleted PII level and their inability to properly control acetyl-CoA carboxylase activity (ACCase). Together, our results imply that PII in Chlamydomonas negatively controls TAG accumulation in LBs during acclimation to nitrogen starvation of the alga. (C) 2015 Elsevier Ireland Ltd. All rights reserved.