Project Summary Title: Neural Niche in Promoting Brain Metastatic Tumor Progression Metastatic progression at the brain is a multi-step, evolutionary process that is accomplished through a consistent interplay between disseminated tumor cells and brain microenvironment - "the niche". Despite significantly improved control of primary tumors, the incidence of brain metastasis is increasing! To reduce cancer mortality, rationally-designed therapeutics, based on a mechanistic understanding of metastasis in at the unique brain metastatic niche, are urgently needed for brain metastasis patients. What's the brain metastatic niche? In the brain microenvironment - the niche - is a myriad of diverse cell types that have been speculated to contribute to the brain tumor and brain metastasis development, including endothelial cells, astrocytes, neural stem/progenitor cells (NSC hereafter) and increasingly appreciated brain immune cells. Despite studies of astrocytes, how do the NSC and its progenies respond to brain metastatic colonization and regulate brain immune landscape and the metastatic outcome has yet to be systematically investigated. Our preliminary studies have demonstrated that NSC migrates to colonized tumor cells and NSC is functionally essential for brain metastasis progression. Intriguingly, ample evidence from in the field of neuroscience suggests an immune suppressive role of NCS during the brain inflammation. Thus, in this proposal, we hypothesize that NSC and its progenies' brain metastasis tropism and potentially consequential immunosuppressive activity could contribute to an immune-suppressive metastatic niche, facilitating brain metastasis progression. In this proposed study, we will use transgenic mouse models and state-of-the-art genomics and imaging approach to trace and analyze the role of highly heterogeneous cell types involved in NSC differentiation and immune suppression and their roles in regulating brain metastatic outgrowth. This collaborative effort integrating multidisciplinary expertise, including cancer biology, neuroscience, computational biology, allow us to: 1) examine and trace the NSC differentiation response to brain metastasis at the phenotypical level; 2) visualize and quantitatively measure the behavior of brain metastatic niche cells and their transcriptome heterogeneity; 3) examine the mechanism by which neural cells derived from NSC promotes brain metastasis progression. New in-depth mechanistic insights obtained through basic and pre- clinical innovative research will pave the way to future brain metastases treatments.