Docosahexaenoic Acid Activates Some SREBP-2 Targets Independent of Cholesterol and ER Stress in SW620 Colon Cancer Cells

The SREBP-2 transcription factor is mainly activated by low cellular cholesterol levels. However, other factors may also cause SREBP-2 activation. We have previously demonstrated activation of SREBP-2 by the polyunsaturated fatty acid docosahexaenoic acid (DHA) in SW620 colon cancer cells. Despite activation of SREBP-2, only a few target genes were induced and cholesterol biosynthesis was reduced. In the present study, gene expression analysis at early time points verified the previously observed SREBP-2 target gene expression pattern. Activation of SREBP-2 using siRNAs targeting Niemann Pick C1 protein (NPC1) led to increased expression of all SREBP target genes examined, indicating that activation of some SREBP-2 target genes is inhibited during DHA-treatment. Cholesterol supplementation during DHA treatment did not abolish SREBP-2 activation. We also demonstrate that activation of SREBP-2 is independent of ER stress and eIF2α phosphorylation, which we have previously observed in DHA-treated cells. Thapsigargin-induced ER stress repressed expression of SREBP-2 target genes, but with a different pattern than observed in DHA-treated cells. Moreover, oleic acid (OA) treatment, which does not induce ER stress in SW620 cells, led to activation of SREBP-2 and induced a target gene expression pattern similar to that of DHA-treated cells. These results indicate that DHA and OA may activate SREBP-2 and inhibit activation of SREBP-2 target genes through a mechanism independent of cholesterol level and ER stress.