Lineage-specific silencing of PSAT1induces serine auxotrophy and sensitivity to dietary serine starvation in luminal breast tumors

Autor: Choi, Bo-Hyun, Rawat, Vipin, Högström, Jenny, Burns, Philippa A., Conger, Kelly O., Ozgurses, Mete Emir, Patel, Jaymin M., Mehta, Tejas S., Warren, Angelica, Selfors, Laura M., Muranen, Taru, Coloff, Jonathan L.
Zdroj: Cell Reports; January 2022, Vol. 38 Issue: 3
Abstrakt: A major challenge of targeting metabolism for cancer therapy is pathway redundancy, in which multiple sources of critical nutrients can limit the effectiveness of some metabolism-targeted therapies. Here, we analyze lineage-dependent gene expression in human breast tumors to identify differences in metabolic gene expression that may limit pathway redundancy and create therapeutic vulnerabilities. We find that the serine synthesis pathway gene PSAT1is the most depleted metabolic gene in luminal breast tumors relative to basal tumors. Low PSAT1 prevents de novoserine biosynthesis and sensitizes luminal breast cancer cells to serine and glycine starvation in vitroand in vivo. This PSAT1expression disparity preexists in the putative cells of origin of basal and luminal tumors and is due to luminal-specific hypermethylation of the PSAT1gene. Our data demonstrate that luminal breast tumors are auxotrophic for serine and may be uniquely sensitive to therapies targeting serine availability.
Databáze: Supplemental Index