New approaches to targeted drug therapy of intracranial tumors.
Authors: Beylerli O, Gareev I, Musaev E, Roumiantsev S, Chekhonin V, Ahmad A, Chao Y, Yang G
Intracranial tumors encompass a heterogeneous group of neoplasms, including gliomas, meningiomas, pituitary adenomas, schwannomas, craniopharyngiomas, ependymomas, medulloblastomas, and primary central nervous system lymphomas. These tumors present significant challenges due to their diverse molecular characteristics, critical locations, and the unique obstacles posed by the blood-brain barrier (BBB) and blood-tumor barrier (BTB), which limit the efficacy of systemic therapies. Recent advances in molecular biology and genomics have enabled the identification of specific molecular pathways and targets, paving the way for innovative precision therapies. This review examines the current state of targeted therapies for intracranial tumors, including receptor tyrosine kinase (RTK) inhibitors, PI3K/AKT/mTOR inhibitors, RAF/MEK/ERK pathway inhibitors, IDH mutation inhibitors, immune checkpoint inhibitors, and CAR-T cell therapies. Emphasis is placed on the role of the BBB and BTB in modulating drug delivery and therapeutic outcomes. Strategies to overcome these barriers, such as focused ultrasound, nanoparticle-based delivery systems, and convection-enhanced delivery, are also explored. Furthermore, the manuscript reviews clinical trial data, highlighting successes and limitations across different tumor types. It delves into emerging therapeutic approaches, including combination of regimens and personalized treatments based on molecular profiling. By synthesizing the latest research, this article aims to provide a comprehensive understanding of the advancements and ongoing challenges in the targeted treatment of intracranial tumors. The findings underscore the necessity for innovative delivery systems and more extensive clinical trials to optimize therapeutic strategies. This review aspires to inform future research and clinical practices, aiming to improve patient outcomes and quality of life in the management of these complex and life-threatening conditions.
Introduction
Purpose
Drug delivery with BBB opening
Study Objective
To comprehensively review targeted drug therapies for intracranial tumors, focusing on molecular targets, the impact of the blood–brain and blood–tumor barriers on drug delivery, and strategies to overcome these challenges.
Animal model / Human subject
Not applicable — review article; no experimental organisms reported.
Disease model
Intracranial tumors (primary brain tumors, including glioma, meningioma, pituitary adenoma, schwannoma, craniopharyngioma, ependymoma, medulloblastoma, primary CNS lymphoma)
MRI or image guidance method
Not specified in the provided text
Targeted brain region(s)
Not Specified
Target coordinates
Not provided
Cargo name and characteristics
Small‑molecule targeted inhibitors (RTK inhibitors; PI3K/AKT/mTOR inhibitors; RAF/MEK/ERK inhibitors; IDH mutation inhibitors) — low‑molecular‑weight drugs targeting kinases or mutant metabolic enzymes; Immune checkpoint inhibitors — monoclonal antibody proteins targeting PD‑1/PD‑L1 or CTLA‑4; CAR‑T cells — engineered autologous/allogeneic T cells expressing chimeric antigen receptors (cell therapy); Nanoparticle‑based delivery systems — engineered nanoscale carriers for delivery of drugs/biologics.
Route of administration
Focused ultrasound-mediated BBB disruption (enabling systemic/typically intravenous delivery), nanoparticle-based delivery systems (commonly intravenous/systemic delivery), and convection-enhanced delivery (direct intracranial/intratumoral infusion)
Outcomes and Safety
Summary of Outcomes
Targeted molecular therapies can achieve meaningful tumor control in some molecularly defined intracranial tumors (e.g., BRAF‑V600E craniopharyngiomas and VEGF‑responsive vascular tumors), but their overall efficacy is constrained by the blood–brain/blood–tumor barriers, tumor heterogeneity, and adaptive resistance, highlighting the need for improved delivery methods and combination strategies.
Duration of biological effect
Not reported
Safety-related matter
The review emphasizes the need to evaluate safety and long-term outcomes and to develop durable, safe targeted therapies, but it does not report specific adverse effects.
Brain Region
Ultrasound Parameters
FUS Frequency
Not specified
FUS Intensity
Not reported
FUS Pressure
Not reported
FUS Mode
not specified
Pulse duration
Not reported
Duration of a single FUS session
Not specified in the paper
Focal Characteristics
Not specified
Treatment frequency
multiple sessions
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