Transcriptome profile of Dictyostelium cell during ER-stress

The Unfolded Protein Response (UPR) is an adaptive pathway that restores cellular homeostasis after endoplasmic reticulum (ER) stress caused by an impairment of its protein folding capacity. The ER-resident kinase/ribonuclease Ire1 is the only UPR sensor that has been conserved during evolution from yeast to mammals; in these organisms, Ire1 transmits information from the ER to the nucleus trough the non-conventional splicing of Hac1 (yeast)/Xbp1 (metazoans) mRNA. We described the Dictyostelium discoideum ER-stress response and characterized its single bonafide Ire1 orthologue, IreA. We found that tunicamycin (TN) triggers a gene-expression program that increases the protein folding capacity of the ER and that alleviates ER protein load. Further, IreA resulted essential not only for cell-survival after TN-induced ER-stress, but also to accomplish about nearly 40% of the transcriptional changes induced upon a TN treatment. In addition, we described that autophagy is activated in Dictyostelium cells after a TN treatment and that autophagy-defective mutants exhibited increased sensitivity to this drug. The response of Dictyostelium cells to ER-stress involves the combined activation of an IreA-dependent gene expression program and the autophagy pathway. Poly A RNA profile of wild-type (WT) and ireA- mutant Dictyostelium cells treated and non-treated with tunicamycin (TN) were generated by deep sequencing, in duplicate, using illumina MiSeq. The assembly of the data was performed using TopHat and Cufflinks software. Onthology enrichment analysis were performed with PANTHER and DAVID web tools