Multiple lysosomal trafficking phenotypes in metastatic mouse mammary tumor cell lines.

Abstract

Although altered synthesis and trafficking of lysosomal proteins and their receptors are associated with a wide range of human and rodent malignancies, the basis for their involvement remains obscure. Here we describe findings on a set of mouse mammary tumor cell lines that we are using as a model to study the role of these proteins in oncogenesis and tumor progression. Three distinct proteinase-secreting phenotypes were identified among the metastatic cell lines of the set. Two phenotypes displayed a high level of secretion of cathepsin L and the third was characterized by elevated secretion of matrix metalloproteinase 9 (MMP-9). The two cathepsin L-secreting phenotypes were distinct in that they displayed differences in cathepsin trafficking, expression of mannose 6-phosphate/insulin-like growth factor receptor and expression of proliferin, a mannose-phosphorylated angiogenic factor. Although cells representing all three phenotypes are capable of dissemination to distant organs when implanted into mouse mammary glands, only cells with the MMP-9 phenotype were found to be capable of direct intravasation. These findings indicate that multiple proteinase-secreting phenotypes can arise from the same tumor and suggest that cathepsin L and other lysosomal proteins may play a role in dissemination of tumor cells via the lymphatic system.