Tumor cell plasticity, heterogeneity, and resistance in crucial microenvironmental niches in glioma
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Title
Tumor cell plasticity, heterogeneity, and resistance in crucial microenvironmental niches in glioma
Authors
Keywords
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Journal
Nature Communications
Volume 12, Issue 1, Pages -
Publisher
Springer Science and Business Media LLC
Online
2021-02-12
DOI
10.1038/s41467-021-21117-3
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- (2020) Elie Dolgin NATURE BIOTECHNOLOGY
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- (2019) Riccardo Bazzoni et al. Cancers
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- (2019) Maria Alieva et al. Scientific Reports
- Developmental origins and emerging therapeutic opportunities for childhood cancer
- (2019) Mariella Filbin et al. NATURE MEDICINE
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- (2019) Saran Kumar et al. Cell Metabolism
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- (2019) Zachary Gersey et al. World Neurosurgery
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- (2019) Humsa S. Venkatesh et al. NATURE
- Glutamatergic synaptic input to glioma cells drives brain tumour progression
- (2019) Varun Venkataramani et al. NATURE
- The phenotypes of proliferating glioblastoma cells reside on a single axis of variation
- (2019) Lin Wang et al. Cancer Discovery
- Emerging intersections between neuroscience and glioma biology
- (2019) Erik Jung et al. NATURE NEUROSCIENCE
- Computational modeling demonstrates that glioblastoma cells can survive spatial environmental challenges through exploratory adaptation
- (2019) Orieta Celiku et al. Nature Communications
- Practical implementation of DNA methylation and copy-number-based CNS tumor diagnostics: the Heidelberg experience
- (2018) David Capper et al. ACTA NEUROPATHOLOGICA
- DNA methylation-based classification of central nervous system tumours
- (2018) David Capper et al. NATURE
- Notch1 is a prognostic factor that is distinctly activated in the classical and proneural subtype of glioblastoma and that promotes glioma cell survival via the NF-κB(p65) pathway
- (2018) Long Hai et al. Cell Death & Disease
- Human glioblastoma arises from subventricular zone cells with low-level driver mutations
- (2018) Joo Ho Lee et al. NATURE
- Tweety-Homolog 1 Drives Brain Colonization of Gliomas
- (2017) Erik Jung et al. JOURNAL OF NEUROSCIENCE
- Tumor microtubes convey resistance to surgical lesions and chemotherapy in gliomas
- (2017) Sophie Weil et al. NEURO-ONCOLOGY
- Notch1 ablation radiosensitizes glioblastoma cells
- (2017) Na Han et al. Oncotarget
- Notch signaling regulates metabolic heterogeneity in glioblastoma stem cells
- (2017) N. Sumru Bayin et al. Oncotarget
- Preventing inflammation inhibits biopsy-mediated changes in tumor cell behavior
- (2017) Maria Alieva et al. Scientific Reports
- The pathological structure of the perivascular niche in different microvascular patterns of glioblastoma
- (2017) Jintao Chen et al. PLoS One
- QuPath: Open source software for digital pathology image analysis
- (2017) Peter Bankhead et al. Scientific Reports
- Molecular and Clinical Effects of Notch Inhibition in Glioma Patients: A Phase 0/I Trial
- (2016) R. Xu et al. CLINICAL CANCER RESEARCH
- A malignant cellular network in gliomas: potential clinical implications
- (2016) Matthias Osswald et al. NEURO-ONCOLOGY
- ASIC1 promotes differentiation of neuroblastoma by negatively regulating Notch signaling pathway
- (2016) Mingli Liu et al. Oncotarget
- NOTCH blockade combined with radiation therapy and temozolomide prolongs survival of orthotopic glioblastoma
- (2016) Sanaz Yahyanejad et al. Oncotarget
- It Takes a Village: Constructing the Neurogenic Niche
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- Cancer stem cells in glioblastoma
- (2015) Justin D. Lathia et al. GENES & DEVELOPMENT
- Classification of microvascular patterns via cluster analysis reveals their prognostic significance in glioblastoma
- (2015) Long Chen et al. HUMAN PATHOLOGY
- Brain tumour cells interconnect to a functional and resistant network
- (2015) Matthias Osswald et al. NATURE
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- (2015) Michael Weller et al. Nature Reviews Disease Primers
- HTSeq--a Python framework to work with high-throughput sequencing data
- (2014) S. Anders et al. BIOINFORMATICS
- MGMT methylation analysis of glioblastoma on the Infinium methylation BeadChip identifies two distinct CpG regions associated with gene silencing and outcome, yielding a prediction model for comparisons across datasets, tumor grades, and CIMP-status
- (2012) Pierre Bady et al. ACTA NEUROPATHOLOGICA
- STAR: ultrafast universal RNA-seq aligner
- (2012) Alexander Dobin et al. BIOINFORMATICS
- Comparative assessment of 5 methods (methylation-specific polymerase chain reaction, methylight, pyrosequencing, methylation-sensitive high-resolution melting, and immunohistochemistry) to analyze O6-methylguanine-DNA-methyltranferase in a series of 100 g
- (2012) Véronique Quillien et al. CANCER
- A restricted cell population propagates glioblastoma growth after chemotherapy
- (2012) Jian Chen et al. NATURE
- Addressing Diffuse Glioma as a Systemic Brain Disease With Single-Cell Analysis
- (2011) David Capper ARCHIVES OF NEUROLOGY
- Endothelial Cells Create a Stem Cell Niche in Glioblastoma by Providing NOTCH Ligands That Nurture Self-Renewal of Cancer Stem-Like Cells
- (2011) T. S. Zhu et al. CANCER RESEARCH
- Deadly Teamwork: Neural Cancer Stem Cells and the Tumor Microenvironment
- (2011) Justin D. Lathia et al. Cell Stem Cell
- Promoter methylation and expression of MGMT and the DNA mismatch repair genes MLH1, MSH2, MSH6 and PMS2 in paired primary and recurrent glioblastomas
- (2011) Jörg Felsberg et al. INTERNATIONAL JOURNAL OF CANCER
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- (2011) Guido Reifenberger et al. INTERNATIONAL JOURNAL OF CANCER
- Twisted tango: brain tumor neurovascular interactions
- (2011) Anita B Hjelmeland et al. NATURE NEUROSCIENCE
- The stem cell potential of glia: lessons from reactive gliosis
- (2011) Stefanie Robel et al. NATURE REVIEWS NEUROSCIENCE
- Direct In Vivo Evidence for Tumor Propagation by Glioblastoma Cancer Stem Cells
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- (2009) David Capper et al. BRAIN PATHOLOGY
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