The glutathione S-transferase Gstt1 drives survival and dissemination in metastases.
Christina M FerrerHyo Min ChoRuben BoonTiziano BernasocchiLai Ping WongMurat CetinbasElizabeth R HaggertyIrene MitsiadesGregory R WojtkiewiczDaniel E McLoughlinReem AboushoushaHend AbdelhamidSita KugelEsther RheinbayRuslan SadreyevDejan JuricYvonne M W Janssen-HeiningerRaul MostoslavskyPublished in: Nature cell biology (2024)
Identifying the adaptive mechanisms of metastatic cancer cells remains an elusive question in the treatment of metastatic disease, particularly in pancreatic cancer (pancreatic adenocarcinoma, PDA). A loss-of-function shRNA targeted screen in metastatic-derived cells identified Gstt1, a member of the glutathione S-transferase superfamily, as uniquely required for dissemination and metastasis, but dispensable for primary tumour growth. Gstt1 is expressed in latent disseminated tumour cells (DTCs), is retained within a subpopulation of slow-cycling cells within existing metastases, and its inhibition leads to complete regression of macrometastatic tumours. This distinct Gstt1 high population is highly metastatic and retains slow-cycling phenotypes, epithelial-mesenchymal transition features and DTC characteristics compared to the Gstt1 low population. Mechanistic studies indicate that in this subset of cancer cells, Gstt1 maintains metastases by binding and glutathione-modifying intracellular fibronectin, in turn promoting its secretion and deposition into the metastatic microenvironment. We identified Gstt1 as a mediator of metastasis, highlighting the importance of heterogeneity and its influence on the metastatic tumour microenvironment.