Abstract

The goal of this proposal is to determine how the Notch signaling pathway regulates the formation and growth of brain tumors, and to develop new brain tumor therapies based on Notch pathway inhibition. Notch receptors control the specification, proliferation and survival of stem and progenitor cells in the brain. Notch signaling is also implicated in tumorigenesis, including the formation and growth of brain tumors such as medulloblastoma and glioma. We have recently shown that the Notch2 gene is amplified and overexpressed in primary medulloblastoma/PNET, and promotes growth of medulloblastoma cell lines. In contrast, NotcM inhibits medulloblastoma cell proliferation. We are the first group to define an in vitro system in which two Notch receptors have opposing effects. We will create chimeras between Notch 1 and Notch2 and exploit this system to determine which domains of Notch differentially regulate proliferation and differentiation (Aim I). This should provide basic insights into the mechanism of Notch signaling, and also help guide our development of new therapies. To effectively treat brain tumors via Notch modulation, it will also be important to understand the mechanisms by which the pathway is turned on, as it must be blocked at or below the level of activation.
In Aim II, we will therefore determine the roles of ligand stimulation and receptor mutation in activating the Notch pathway in medulloblastoma.
A third aim i s to assess the effects of Notch pathway blockade on tumor stems cells and tumor propagation. We have already shown that Notch pathway blockade inhibits proliferation and induces apoptosis of medulloblastoma in vitro. Recently, cells with stem- like properties have been isolated from freshly resected human medulloblastoma/PNET. This subset of neoplastic cells appears to be critical in propagating brain tumors, functioning as """"""""tumor stem cells."""""""" Targeted therapies causing tumor stem cells to differentiate or die therefore represent a novel therapeutic avenue with great promise. We hypothesize that the Notch pathway, which controls neural stem cell survival and proliferation during normal fetal development, will also be required for tumor stem cells survival, and will test this in Aim III. Finally, it is not known if persistent activation of Nbtch2 is sufficient to initiate the formation of medulloblastoma.
In Aim I V, we will introduce activated Notch2 into cerebellar precursor cells and assess its transforming capacity.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS055089-05
Application #
8097294
Study Section
Clinical Neuroimmunology and Brain Tumors Study Section (CNBT)
Program Officer
Fountain, Jane W
Project Start
2007-07-01
Project End
2012-06-30
Budget Start
2011-07-01
Budget End
2012-06-30
Support Year
5
Fiscal Year
2011
Total Cost
$351,575
Indirect Cost

  Institution

Name
Johns Hopkins University
Department
Pediatrics
Type
Schools of Medicine
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21218

  Publications

Cavalli, Florence M G; Remke, Marc; Rampasek, Ladislav et al. (2017) Intertumoral Heterogeneity within Medulloblastoma Subgroups. Cancer Cell 31:737-754.e6
Semenkow, Samantha; Li, Shen; Kahlert, Ulf D et al. (2017) An immunocompetent mouse model of human glioblastoma. Oncotarget 8:61072-61082
Hanaford, Allison R; Archer, Tenley C; Price, Antoinette et al. (2016) DiSCoVERing Innovative Therapies for Rare Tumors: Combining Genetically Accurate Disease Models with In Silico Analysis to Identify Novel Therapeutic Targets. Clin Cancer Res 22:3903-14
Kahlert, Ulf D; Cheng, Menglin; Koch, Katharina et al. (2016) Alterations in cellular metabolome after pharmacological inhibition of Notch in glioblastoma cells. Int J Cancer 138:1246-55
Natsumeda, Manabu; Maitani, Kosuke; Liu, Yang et al. (2016) Targeting Notch Signaling and Autophagy Increases Cytotoxicity in Glioblastoma Neurospheres. Brain Pathol 26:713-723
Kahlert, Ulf D; Suwala, Abigail K; Raabe, Eric H et al. (2015) ZEB1 Promotes Invasion in Human Fetal Neural Stem Cells and Hypoxic Glioma Neurospheres. Brain Pathol 25:724-32
Brandt, William D; Schreck, Karisa C; Bar, Eli E et al. (2015) Notch signaling activation in pediatric low-grade astrocytoma. J Neuropathol Exp Neurol 74:121-31
Orr, Brent A; Eberhart, Charles G (2015) Molecular pathways: not a simple tube--the many functions of blood vessels. Clin Cancer Res 21:18-23
Kahlert, Ulf D; Suwala, Abigail K; Koch, Katharina et al. (2015) Pharmacologic Wnt Inhibition Reduces Proliferation, Survival, and Clonogenicity of Glioblastoma Cells. J Neuropathol Exp Neurol 74:889-900
Taylor, Isabella C; Hütt-Cabezas, Marianne; Brandt, William D et al. (2015) Disrupting NOTCH Slows Diffuse Intrinsic Pontine Glioma Growth, Enhances Radiation Sensitivity, and Shows Combinatorial Efficacy With Bromodomain Inhibition. J Neuropathol Exp Neurol 74:778-90

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