Abstract
Glioblastoma and brain metastases from peripheral tumors account for most cases of tumors in the central nervous system while also being the deadliest. From a structural point of view, malignant brain tumors are classically characterized by hypercellularity of glioma and vascular endothelial cells. Given these atypical histologic features, glioblastoma and brain metastases have long been considered as "foreign" entities with few to no connections to the brain parenchyma. The identification of intricate connections established between glioblastoma cells and the brain parenchyma paired with the ability of peripheral metastatic cells to form functional synapses with neurons challenged the concept of brain tumors disconnected from the central nervous system. Tumor cell integration to the brain parenchyma alters brain functionality in patients and accelerates cancer progression. Next-generation precision medicine should therefore attempt to disconnect brain cancer cells from the brain. This review encompasses recent discoveries in the mechanisms underlying these relationships and discusses the impact of these connections on tumor progression. It also summarizes the therapeutic opportunities of interrupting the dialogue between healthy and neoplastic brains.