Study on the interaction mechanism of phospholipid imbalance and endoplasmic reticulum protein secretion imbalance in Aspergillus niger

Abstract

As the largest membrane organelle, the endoplasmic reticulum (ER) is the main location for protein preliminary processing and phospholipid synthesis. Phospholipid bilayer is the main component of the ER, so it plays an intuitively important role in the steady state of protein synthesis in the ER. Despite of their importance, relationship between phospholipid homeostasis and protein processing in Aspergillus niger remains poorly understood. In this study, phosphatidyl ethanolamine (PE)/phosphatidyl choline (PC) and phosphatidyl acid (PA) metabolic mutants and ER protein processing mutants were established by knockout the key genes in phospholipid synthesis or UPR effector hacA. Based on global transcriptome and lipidome analysis, the relationship between the phospholipids imbalance and ER protein secretory imbalance was revealed as followed: The cells compensate for the damage caused by ER protein secretory deficiency or phospholipid deficiency from enhancing the protein processing and the synthesis of phospholipids at the transcription level, therefore phospholipid deficiency (Δopi3) and continuous activation of UPR (hacAi) have a synergistic effect in promoting protein secretion and phospholipid biosynthesis. At the same time, the metabolic deficiencies of phospholipid homeostasis and the processing deficiencies of ER protein will also cause cells sensitive to oxidative stress, cell wall inhibition and DNA damage.