Objective: Few molecular targets are both consistently and selectively expressed in a majority of central nervous system (CNS) neoplasms. Receptor tyrosine kinases have been implicated in brain tumor oncogenesis. We previously isolated one such receptor, discoidin domain receptor-1 (DDR1), from high-grade pediatric brain tumors. Here, we analyze the cellular origin and distribution of DDR1 expression in human brain tumors and its expression in tumor cells relative to surrounding brain.
Methods: By use of a digoxigenin-labeled DDR1 riboprobe, we investigated the expression of DDR1 messenger ribonucleic acid in a prospective series of 30 resected human primary and metastatic brain neoplasms, nonneoplastic human brain, and mouse embryonic brain, as well as a mouse glioblastoma model, by in situ hybridization.
Results: All the high-grade primary brain and metastatic brain tumors showed unequivocal, intense DDR1 expression within the majority of tumor cells, whereas expression was not observed in hyperplastic tumor blood vessels, normal brain blood vessels, inflammatory cells, or in the normal brain tissue that surrounded the tumor. Receptor expression was limited to tumor cells located within solid tumor tissue. Overall, 27 of 29 resected CNS tumors exhibited tumor cell-specific DDR1 expression, whereas one specimen composed of isolated glioblastoma cells within invaded brain parenchyma showed no detectable staining for this receptor. DDR1 was also expressed preferentially in the ventricular zone (a region of highly proliferating precursor cells) of mice at embryonic Day 15.5.
Conclusion: We found that DDR1 is consistently expressed in all high-grade brain neoplasms studied and is selective for tumor cells in the specimens analyzed. The expression of DDR1 by tumor cells of CNS neoplasms and by primitive cells of the embryonic ventricular zone suggests that DDR1 is a potentially useful marker of tumor cells within the CNS.