Updated project metadata. In prostate cancer (PC), cancer-associated fibroblasts (CAFs) exhibit contrasting biological properties to non-malignant prostate fibroblasts (NPFs) and promote tumorigenesis. Resolving intercellular signaling pathways between CAFs and prostate tumor epithelium may offer novel opportunities for research translation. To this end, the proteome and phosphoproteome of four pairs of patient-matched CAFs and NPFs were characterized to identify discriminating proteomic signatures. Samples were analyzed by liquid chromatography-tandem mass spectrometry (LC-MS/MS) with a hyper-reaction monitoring data-independent acquisition (HRM-DIA) workflow. Proteins that exhibited a significant increase in CAFs versus NPFs were enriched for the functional categories ‘cell adhesion’ and the ‘extracellular matrix’. The CAF phosphoproteome exhibited enhanced phosphorylation of proteins associated with the ‘spliceosome’ and ‘actin binding’. STRING analysis of the CAF proteome revealed a prominent interaction hub associated with collagen synthesis, modification, and signaling. It contained multiple collagens, including the fibrillar types COL1A1/2 and COL5A1; the receptor tyrosine kinase discoidin domain-containing receptor 2 (DDR2), a receptor for fibrillar collagens; and lysyl oxidase-like 2 (LOXL2), which promotes collagen crosslinking. Increased activity and/or expression of LOXL2 and DDR2 in CAFs were confirmed by enzymatic assays and Western blot analyses. Pharmacological inhibition of CAF-derived LOXL2 perturbed extracellular matrix (ECM) organization and decreased cell migration in wound-healing assays. Furthermore, it significantly impaired the motility of co-cultured RWPE2 prostate tumor epithelial cells. These results indicate that CAF-derived LOXL2 is an important mediator of intercellular communication within the PC tumor microenvironment and a potential therapeutic target.