Tumour-associated high endothelial venules drive portal-specific immune evasion in lymph nodes via ALOX12 [III]

High-endothelial-venules (HEVs) offer another entry point for tumor metastasis in mice. To investigate whether HEVs and non-specialized blood vessels exert different effects on disseminating tumor cells, we enriched EO771 derivatives HEVM3 (preferentially metastasize through HEVs) cells and BVM3 (preferentially metastasize through blood vessels) cells. To explore how HEVs regulate immunogenicity of tumor cells, we compared the transcriptomes of BECs isolated from mammary blood vessels and HECs isolated from lymph nodes of mice inoculated with or without EO771-HEVM3 tumors. We demonstrated that ALOX12 specifically expressed in HEVs in LNs induces immune evasion of neighboring tumor cells by 12-HETE. To identify the factor(s) that upregulate ALOX12, we compared the mRNA transcriptomes between EO771-HEVM3 cells and EO771-BVM3 cells. To explore how 12-HETE promotes immune evasion of tumor cells, we performed total RNA-seq analysis in EO771 cells after 12-HETE treatment. Overall design: Comparative gene expression profiling analysis of RNA-seq data for EO771 with ADAR1 p150 overexpression or empty vector (appended data). Comparative gene expression profiling analysis of total RNA-seq data for EO771 cells with vehicle or 12-HETE treatment (appended data for avoiding batch effects).