Evidence for an alternative fatty acid desaturation pathway increasing cancer plasticity

Most tumors have an aberrantly activated lipid metabolism1,2, which enables them to synthesize, elongate and desaturate fatty acids to support proliferation. However, only particular subsets of cancer cells are sensitive toward approaches targeting fatty acid metabolism, and in particular fatty acid desaturation3. This suggests that many cancer cells harbor an unexplored plasticity in their fatty acid metabolism. Here, we discover that some cancer cells can exploit an alternative fatty acid desaturation pathway. We identify various cancer cell lines, murine hepatocellular carcinomas (HCC), and primary human liver and lung carcinomas that desaturate palmitate to the unusual fatty acid sapienate to support membrane biosynthesis during proliferation. Accordingly, we found that sapienate biosynthesis enables cancer cells to bypass the known stearoyl-CoA desaturase (SCD)-dependent fatty acid desaturation. Thus, only by targeting both desaturation pathways the in vitro and in vivo proliferation of sapienate synthesizing cancer cells is impaired. Our discovery explains metabolic plasticity in fatty acid desaturation and constitutes an unexplored metabolic rewiring in cancers.