Cellular and Molecular Mechanisms Underlying Glioblastoma and Zebrafish Models for the Discovery of New Treatments

Reimunde, Pedro; Pensado‐López, Alba; Crende, Martín Carreira; Iglesias, Vanesa Lombao; Sánchez, Laura; Torrecilla-Parra, Marta; Ramírez, Cristina M.; Anfray, Clément; Andón, Fernando Torres

doi:10.3390/cancers13051087

Cited by 21 publications

(21 citation statements)

References 215 publications

(194 reference statements)

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“…As vertebrates, zebrafish, and human genomes show a high homology, about 80% of genes associated with diseases in patients are conserved in zebrafish ( Kalueff et al, 2014 ). Notably, many CNS-related disorders have been successfully modeled in the past and some recent reviews have compiled an exhaustive list of zebrafish models of Amyotrophic Lateral Sclerosis (ALS) ( Braems et al, 2021 ), Hereditary Spastic Paraplegia (HSP) ( Naef et al, 2019 ; Quelle-Regaldie et al, 2021a , b ), Epilepsy ( Rosch et al, 2019 ; Gawel et al, 2020 ), Autism Spectrum Disorder (ASD) ( Meshalkina et al, 2018 ; de Abreu et al, 2020 ), Alzheimer’s Disease (AD) ( Saleem and Kannan, 2018 ), Parkinson’s Disease (PD) ( Unal and Emekli-Alturfan, 2019 ; Najib et al, 2020 ), Huntington’s and Prion-related diseases ( Wang et al, 2021 ), Serotonin syndrome (SS) ( Stewart et al, 2013 ), and Glioblastoma ( Reimunde et al, 2021 ). In this context, our group pioneered the generation of several models of CNS genetic disorders, caused by mutations in gabra1 ( Samarut et al, 2018 ), gabrg2 ( Liao et al, 2019 ), depdc5 ( Swaminathan et al, 2018 ), glra1 ( Samarut et al, 2019 ), or gldc ( Riche et al, 2018 ), and these mutants display clinically-relevant phenotypes such as seizures, ataxic motor phenotypes or hypotonia.…”

Section: Using Zebrafish To Predict Neurological Disease Susceptibili...mentioning

confidence: 99%

Zebrafish Is a Powerful Tool for Precision Medicine Approaches to Neurological Disorders

Ochenkowska

Herold

Samarut

2022

Front. Mol. Neurosci.

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Personalized medicine is currently one of the most promising tools which give hope to patients with no suitable or no available treatment. Patient-specific approaches are particularly needed for common diseases with a broad phenotypic spectrum as well as for rare and yet-undiagnosed disorders. In both cases, there is a need to understand the underlying mechanisms and how to counteract them. Even though, during recent years, we have been observing the blossom of novel therapeutic techniques, there is still a gap to fill between bench and bedside in a patient-specific fashion. In particular, the complexity of genotype-to-phenotype correlations in the context of neurological disorders has dampened the development of successful disease-modifying therapeutics. Animal modeling of human diseases is instrumental in the development of therapies. Currently, zebrafish has emerged as a powerful and convenient model organism for modeling and investigating various neurological disorders. This model has been broadly described as a valuable tool for understanding developmental processes and disease mechanisms, behavioral studies, toxicity, and drug screening. The translatability of findings obtained from zebrafish studies and the broad prospect of human disease modeling paves the way for developing tailored therapeutic strategies. In this review, we will discuss the predictive power of zebrafish in the discovery of novel, precise therapeutic approaches in neurosciences. We will shed light on the advantages and abilities of this in vivo model to develop tailored medicinal strategies. We will also investigate the newest accomplishments and current challenges in the field and future perspectives.

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Section: Using Zebrafish To Predict Neurological Disease Susceptibili...mentioning

confidence: 99%

Zebrafish Is a Powerful Tool for Precision Medicine Approaches to Neurological Disorders

Ochenkowska

Herold

Samarut

2022

Front. Mol. Neurosci.

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“…In GBM, several pathways have been frequently found to be altered, including the PI3K/AKT/mTOR, p53 and Rb pathways (39,49), making them potential targets for GBM treatment. Although there is increasing interest in targeting the tumour microenvironment, such as blood vessels, the monocyte-macrophage-microglia compartment and T cells (93), improved clinical trial design by including pharmacodynamic endpoints in patient populations is required to optimise this type of treatment.…”

Section: Pharmaceutical Products Tested In Clinical Trialsmentioning

confidence: 99%

Glioblastoma pharmacotherapy: A multifaceted perspective of conventional and emerging treatments (Review)

et al. 2021

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Due to its localisation, rapid onset, high relapse rate and resistance to most currently available treatment methods, glioblastoma multiforme (GBM) is considered to be the deadliest type of all gliomas. Although surgical resection, chemotherapy and radiotherapy are among the therapeutic strategies used for the treatment of GBM, the survival rates achieved are not satisfactory, and there is an urgent need for novel effective therapeutic options. In addition to single-target therapy, multi-target therapies are currently under development. Furthermore, drugs are being optimised to improve their ability to cross the blood-brain barrier. In the present review, the main strategies applied for GBM treatment in terms of the most recent therapeutic agents and approaches that are currently under pre-clinical and clinical testing were discussed. In addition, the most recently reported experimental data following the testing of novel therapies, including stem cell therapy, immunotherapy, gene therapy, genomic correction and precision medicine, were reviewed, and their advantages and drawbacks were also summarised.

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“…Another way is by inhibiting the adipocyte enhancer-binding protein-1 (AEBP1) signaling pathway using ACT001 for the treatment of GBM [ 63 ]. In addition, it is better to find more effective animal models to better understand the treatment of GBM, such as the recent discovery of the zebrafish model, as it has a similar brain structure to that of humans [ 64 ]. It is also apparent that in order to treat GBM efficiently, combination treatments are required by combining surgery, radiation, chemotherapy, and various immunotherapies together [ 65 , 66 ].…”

Section: Reviewmentioning

confidence: 99%

Current Advances in Immunotherapy for Glioblastoma Multiforme and Future Prospects

Chowdhury¹,

Bappy²,

Clocchiatti-Tuozzo³

et al. 2021

Cureus

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Glioblastoma is the most frequent and malignant type of brain tumor. It has a reputation for being resistant to current treatments, and the prognosis is still bleak. Immunotherapies have transformed the treatment of a variety of cancers, and they provide great hope for glioblastoma, although they have yet to be successful. The justification for immune targeting of glioblastoma and the obstacles that come with treating these immunosuppressive tumors are reviewed in this paper. Cancer vaccines, oncolytic viruses (OVs), checkpoint blockade medications, adoptive cell transfer (ACT), chimeric antigen receptor (CAR) T-cells, and nanomedicine-based immunotherapies are among the novel immune-targeting therapies researched in glioblastoma. Key clinical trial outcomes and current trials for each method are presented from a clinical standpoint. Finally, constraints, whether biological or due to trial design, are discussed, along with solutions for overcoming them. In glioblastoma, proof of efficacy for immunotherapy approaches has yet to be demonstrated, but our rapidly growing understanding of the disease's biology and immune microenvironment, as well as the emergence of novel promising combinatorial approaches, may allow researchers to finally meet the medical need for patients with glioblastoma multiforme (GBM).

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Cellular and Molecular Mechanisms Underlying Glioblastoma and Zebrafish Models for the Discovery of New Treatments

Cited by 21 publications

References 215 publications

Zebrafish Is a Powerful Tool for Precision Medicine Approaches to Neurological Disorders

Zebrafish Is a Powerful Tool for Precision Medicine Approaches to Neurological Disorders

Glioblastoma pharmacotherapy: A multifaceted perspective of conventional and emerging treatments (Review)

Current Advances in Immunotherapy for Glioblastoma Multiforme and Future Prospects

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