Expression of the axon-guidance geneSlit2in endothelium, induced by endothelial sensing of tumour-derived double-stranded RNA, promotes metastatic dissemination in mouse models of breast and lung cancer. Blood vessels support tumours by providing nutrients and oxygen, while also acting as conduits for the dissemination of cancer(1). Here we use mouse models of breast and lung cancer to investigate whether endothelial cells also have active 'instructive' roles in the dissemination of cancer. We purified genetically tagged endothelial ribosomes and their associated transcripts from highly and poorly metastatic tumours. Deep sequencing revealed that metastatic tumours induced expression of the axon-guidance geneSlit2in endothelium, establishing differential expression between the endothelial (highSlit2expression) and tumoural (lowSlit2expression) compartments. Endothelial-derived SLIT2 protein and its receptor ROBO1 promoted the migration of cancer cells towards endothelial cells and intravasation. Deleting endothelialSlit2suppressed metastatic dissemination in mouse models of breast and lung cancer. Conversely, deletion of tumouralSlit2enhanced metastatic progression. We identified double-stranded RNA derived from tumour cells as an upstream signal that induces expression of endothelial SLIT2 by acting on the RNA-sensing receptor TLR3. Accordingly, a set of endogenous retroviral element RNAs were upregulated in metastatic cells and detected extracellularly. Thus, cancer cells co-opt innate RNA sensing to induce a chemotactic signalling pathway in endothelium that drives intravasation and metastasis. These findings reveal that endothelial cells have a direct instructive role in driving metastatic dissemination, and demonstrate that a single gene (Slit2) can promote or suppress cancer progression depending on its cellular source.