In vitro and in vivo experimental studies have demonstrated the role of lysophosphatidic acid (LPA) signaling in tumor proliferation, invasiveness, and metastasis. Among LPA receptors, the overexpression of LPA receptor 3 (LPAR3) in transgenic mice has resulted in the highest rate of breast cancer metastasis. Our goal is to evaluate the LPA-producing enzyme autotaxin and LPAR3 as potential therapeutic targets in breast cancer patients. The expression of autotaxin and LPAR3 was examined by immunohistochemical analysis of 87 invasive human breast carcinomas. Carcinomas were more frequently positive for autotaxin and LPAR3 (24.4 and 43 %, respectively) compared to adjacent normal breast tissue (6.1 and 2.9 %, respectively). Increased stromal autotaxin expression was found in 16.3 % of the tumors. LPAR3 overexpression was associated with less differentiated tumors, human epidermal growth factor receptor 2 expression, and absence of progesterone receptors. The luminal type A carcinomas showed the lowest frequency of autotaxin and LPAR3 expression. Strong desmoplastic stromal reaction was more frequent among the carcinomas with autotaxin-positive tumor cells or autotaxin-positive stroma. Patients with carcinomas overexpressing LPAR3 in epithelial cells or autotaxin in stromal cells were more likely to have larger tumors, nodal involvement, and higher stage disease. Autotaxin overexpression in tumor cells also correlated with tumor size and clinical stage. Our data indicate that the increased expression of LPAR3 and autotaxin in human breast cancer is associated with tumor aggressiveness. They also suggest that LPA mediates tumor metastatic ability and peritumoral desmoplastic reaction through autocrine-paracrine mechanisms. A substantial portion of breast cancer patients might benefit from autotoxin/LPA receptor-targeted therapies.