Hippo Pathway in Regulating Drug Resistance of Glioblastoma

Glioblastoma (GBM) represents the most common and malignant tumor of the Central Nervous System (CNS), affecting both children and adults. GBM is one of the deadliest tumor types and it shows a strong multidrug resistance (MDR) and an immunosuppressive microenvironment which remain a great challenge...

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Bibliographic Details
Published in:International journal of molecular sciences 2021-12, Vol.22 (24), p.13431
Main Authors: Casati, Giacomo, Giunti, Laura, Iorio, Anna Lisa, Marturano, Arianna, Galli, Luisa, Sardi, Iacopo
Format: Article
Language:English
Subjects:
Antitumor activity
Apoptosis
Brain cancer
Cancer therapies
Central nervous system
Chemoresistance
Chemotherapy
Communication
Cytotoxicity
Deregulation
DNA damage
DNA methylation
DNA repair
Drug delivery
Drug resistance
Drug Resistance, Neoplasm - genetics
Gene expression
Genotype & phenotype
Glioblastoma
Glioblastoma - genetics
Glioblastoma - metabolism
Glioblastoma - pathology
Hippo Signaling Pathway - genetics
Humans
Immune response
Immune system
Immunosuppression
Immunosuppressive agents
Medical prognosis
Metastasis
Microenvironments
MicroRNAs
Multidrug resistance
Neoplasm Proteins - genetics
Neoplasm Proteins - metabolism
Protein transport
Proteins
Radiation
Review
Signal transduction
Transcription
Tumors
Yes-associated protein
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Summary:Glioblastoma (GBM) represents the most common and malignant tumor of the Central Nervous System (CNS), affecting both children and adults. GBM is one of the deadliest tumor types and it shows a strong multidrug resistance (MDR) and an immunosuppressive microenvironment which remain a great challenge to therapy. Due to the high recurrence of GBM after treatment, the understanding of the chemoresistance phenomenon and how to stimulate the antitumor immune response in this pathology is crucial. The deregulation of the Hippo pathway is involved in tumor genesis, chemoresistance and immunosuppressive nature of GBM. This pathway is an evolutionarily conserved signaling pathway with a kinase cascade core, which controls the translocation of YAP (Yes-Associated Protein)/TAZ (Transcriptional Co-activator with PDZ-binding Motif) into the nucleus, leading to regulation of organ size and growth. With this review, we want to highlight how chemoresistance and tumor immunosuppression work in GBM and how the Hippo pathway has a key role in them. We linger on the role of the Hippo pathway evaluating the effect of its de-regulation among different human cancers. Moreover, we consider how different pathways are cross-linked with the Hippo signaling in GBM genesis and the hypothetical mechanisms responsible for the Hippo pathway activation in GBM. Furthermore, we describe various drugs targeting the Hippo pathway. In conclusion, all the evidence described largely support a strong involvement of the Hippo pathway in gliomas progression, in the activation of chemoresistance mechanisms and in the development of an immunosuppressive microenvironment. Therefore, this pathway is a promising target for the treatment of high grade gliomas and in particular of GBM.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms222413431