SRP174075 PRJNA510992 GSE124209 Autophagic turnover of NBR1 restricts metastatic colonization during mammary tumor progression Autophagy is implicated in promoting the metastatic potential of tumor cells. Utilizing a mouse model of mammary cancer to temporally delete essential autophagy regulators, ATG12 or ATG5, in tumor cells during distinct stages of carcinoma progression, we determine a stage-specific role for autophagy in suppressing metastatic colonization. In stark contrast to the tumor-promoting role of autophagy in primary mammary tumors, autophagy restricts colonization of disseminated tumor cells (DTCs) and prevents the acquisition of basal epithelial characteristics, effects that are dependent on turnover of the autophagy-specific substrate, Neighbor to BRCA1 (NBR1). Analysis of human breast cancer samples corroborates the importance of NBR1 in overall survival and metastasis, highlighting NBR1 as a potential therapeutic target in preventing DTCs from developing into overt, clinical disease. Overall design: We inoculated primary GFP+ PyMT mammary tumor cells via lateral tail vein into naïve, 6-week old female C57BL/6 hosts and allowed them to seed the lung for 1 week. We then inducibly deleted the essential autophagy gene, ATG12, exclusively in metastatic tumor cells and allowed overt metastases to develop for an additional 3 weeks. Lungs were dissociated and resulting metastatic ATG12-knockout (ATG12 KO) and ATG12-floxed (control, ATG12 F/F) PyMT tumor cells were sorted by FACS (GFP+/MHC-I+/CD45-/CD31-/Ter119-) and RNA sequencing libraries prepared. Replicates: ATG12-knockout (n=5), ATG12 floxed (Control, n=6) GSE124209