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Staff member

Elisa Mastrantuono

Staff member publications

Mastrantuono, Elisa, Ghibaudi, Matilde, Matias, Diana, Battaglia, Giuseppe, (2024). The multifaceted therapeutical role of low-density lipoprotein receptor family in high-grade glioma Molecular Oncology ,

The diverse roles of the low-density lipoprotein receptor family (LDLR) have been associated with many processes critical to maintaining central nervous system (CNS) health and contributing to neurological diseases or cancer. In this review, we provide a comprehensive understanding of the LDLR's involvement in common brain tumors, specifically high-grade gliomas, emphasizing the receptors' critical role in the pathophysiology and progression of these tumors due to LDLR's high expression. We delve into LDLR's role in regulating cellular uptake and transport through the brain barrier. Additionally, we highlight LDLR's role in activating several signaling pathways related to tumor proliferation, migration, and invasion, engaging readers with an in-depth understanding of the molecular mechanisms at play. By synthesizing current research findings, this review underscores the significance of LDLR during tumorigenesis and explores its potential as a therapeutic target for high-grade gliomas. The collective insights presented here contribute to a deeper appreciation of LDLR's multifaceted roles and implications for physiological and pathological states, opening new avenues for tumor treatment. The role of LDLR family receptors in mediating the transport of LDL across the blood-brain barrier (BBB), facilitating processes such as survival, proliferation, and invasion in high-grade gliomas. Nanoparticles targeting LDLR can be used for drug delivery, potentially inducing cell death and reducing tumor proliferation and survival in high-grade glioma cells. image

JTD Keywords: Blood-brain-barrier, Cancer, Delivery, Doxorubicin, Expression, Glioblastomas, Low-density lipoprotein receptors, Migratio, Nanoparticles, Proliferation, Targeted therapie, Targeting therapy, Tumor microenvironment