ErbB2 overexpression on occult metastatic cells in bone marrow predicts poor clinical outcome of stage I-III breast cancer patients.

Occult hematogenous micrometastases are the major cause for metastatic relapse and cancer-related death in patients with operable primary breast cancer. Although sensitive immunocytochemical and molecular methods allow detection of individual breast cancer cells in bone marrow (BM), a major site of metastatic relapse, current detection techniques cannot discriminate between nonviable shed tumor cells and seminal metastatic cells. To address this problem, we analyzed the relevance of erbB2 overexpression on disseminated cytokeratin-18-positive breast cancer cells in the BM of 52 patients with locoregionally restricted primary breast cancer using immunocytochemical double labeling with monoclonal antibody 9G6 to the p185erbB2 oncoprotein. Expression of p185erbB2 on BM micrometastases was detected in 31 of 52 (60%) patients independent of established risk factors such as lymph node involvement, primary tumor size, differentiation grade, or expression of p185erbB2 on primary tumor cells. After a median follow-up of 64 months, patients with p185erbB2-positive BM micrometastases had developed fatal metastatic relapses more frequently than patients with p185erbB2-negative micrometastases (21 versus 7 events; P = 0.032). In multivariate analysis, the presence of p185erbB2-positive micrometastases was an independent prognostic factor with a hazard ratio of 2.78 (95% confidence interval, 1.11-6.96) for overall survival (P = 0.029). We therefore conclude that erbB2 overexpression characterizes a clinically relevant subset of breast cancer micrometastases.