A chemical biology screen identifies a vulnerability of neuroendocrine cancer cells to SQLE inhibition.
Christopher E MahoneyDavid PirmanVictor ChubukovTaryn SlegerSebastian HayesZi Peng FanEric L AllenYing ChenLingling HuangMeina LiuYingjia ZhangGabrielle McDonaldRohini NarayanaswamySung ChoeYue ChenStefan GrossGiovanni CianchettaAnil K PadyanaStuart MurrayWei LiuKevin M MarksJoshua MurtieMarion DorschShengfang JinNelamangala NagarajaScott A BillerThomas RoddyJaneta Popovici-MullerGromoslaw A SmolenPublished in: Nature communications (2019)
Aberrant metabolism of cancer cells is well appreciated, but the identification of cancer subsets with specific metabolic vulnerabilities remains challenging. We conducted a chemical biology screen and identified a subset of neuroendocrine tumors displaying a striking pattern of sensitivity to inhibition of the cholesterol biosynthetic pathway enzyme squalene epoxidase (SQLE). Using a variety of orthogonal approaches, we demonstrate that sensitivity to SQLE inhibition results not from cholesterol biosynthesis pathway inhibition, but rather surprisingly from the specific and toxic accumulation of the SQLE substrate, squalene. These findings highlight SQLE as a potential therapeutic target in a subset of neuroendocrine tumors, particularly small cell lung cancers.