We previously identified a down-regulation in heterochromatin-associated protein 1 (HP1)Hsalpha expression in MDA-MB-231 breast carcinoma cells (highly invasive/metastatic) compared with MCF-7 cells (poorly invasive/nonmetastatic). In this study, we demonstrate that HP1Hsalpha, but not HP1Hsbeta or HP1Hsgamma, is down-regulated at the mRNA and protein levels in highly invasive/metastatic breast cancer cell lines. In agreement, little to no nuclear HP1Hsalpha staining was observed in these cell lines. In contrast, poorly invasive/nonmetastatic cell lines showed HP1Hsalpha localization to the nucleus and nuclear membrane. Transfection of MDA-MB-231 cells with a green fluorescent protein-HP1Hsalpha expression vector decreased their ability to invade a collagen IV/laminin/gelatin matrix compared with green fluorescent protein-transfected controls. Consistent with the cell culture studies, immunohistochemical analysis of HP1Hsalpha protein localization in distant metastatic tissues from breast cancer patients revealed a decrease in the staining intensity and percentage of cells expressing HP1Hsalpha in seven of nine distant metastatic lesions compared with normal mammary and primary tumors. These results demonstrate a role for HP1Hsalpha in breast cancer invasion and metastasis. Given the role of HP1 in transcriptional silencing in Drosophila, we propose a model in which HP1Hsalpha normally silences genes involved in breast cancer invasion and metastasis.