Midkine activation of CD8+ T cells establishes a neuron–immune–cancer axis responsible for low-grade glioma growth

Xiaofan Guo; Yuan Pan; Min Xiong; Shilpa Sanapala; Corina Anastasaki; Olivia Cobb; Sonika Dahiya; David H. Gutmann

doi:10.1038/s41467-020-15770-3

Midkine activation of CD8⁺ T cells establishes a neuron–immune–cancer axis responsible for low-grade glioma growth

Xiaofan Guo, Yuan Pan, Min Xiong, Shilpa Sanapala, Corina Anastasaki, Olivia Cobb, Sonika Dahiya, David H. Gutmann

Research output: Contribution to journal › Article › peer-review

84 Scopus citations

Abstract

Brain tumors (gliomas) are heterogeneous cellular ecosystems, where non-neoplastic monocytic cells have emerged as key regulators of tumor maintenance and progression. However, relative to macrophages/microglia, comparatively less is known about the roles of neurons and T cells in glioma pathobiology. Herein, we leverage genetically engineered mouse models and human biospecimens to define the axis in which neurons, T cells, and microglia interact to govern Neurofibromatosis-1 (NF1) low-grade glioma (LGG) growth. NF1-mutant human and mouse brain neurons elaborate midkine to activate naïve CD8⁺T cells to produce Ccl4, which induces microglia to produce a key LGG growth factor (Ccl5) critical for LGG stem cell survival. Importantly, increased CCL5 expression is associated with reduced survival in patients with LGG. The elucidation of the critical intercellular dependencies that constitute the LGG neuroimmune axis provides insights into the role of neurons and immune cells in controlling glioma growth, relevant to future therapeutic targeting.

Original language	English (US)
Article number	2177
Journal	Nature communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41467-020-15770-3
State	Published - Dec 1 2020
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-020-15770-3

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title = "Midkine activation of CD8+ T cells establishes a neuron–immune–cancer axis responsible for low-grade glioma growth",

abstract = "Brain tumors (gliomas) are heterogeneous cellular ecosystems, where non-neoplastic monocytic cells have emerged as key regulators of tumor maintenance and progression. However, relative to macrophages/microglia, comparatively less is known about the roles of neurons and T cells in glioma pathobiology. Herein, we leverage genetically engineered mouse models and human biospecimens to define the axis in which neurons, T cells, and microglia interact to govern Neurofibromatosis-1 (NF1) low-grade glioma (LGG) growth. NF1-mutant human and mouse brain neurons elaborate midkine to activate na{\"i}ve CD8+T cells to produce Ccl4, which induces microglia to produce a key LGG growth factor (Ccl5) critical for LGG stem cell survival. Importantly, increased CCL5 expression is associated with reduced survival in patients with LGG. The elucidation of the critical intercellular dependencies that constitute the LGG neuroimmune axis provides insights into the role of neurons and immune cells in controlling glioma growth, relevant to future therapeutic targeting.",

author = "Xiaofan Guo and Yuan Pan and Min Xiong and Shilpa Sanapala and Corina Anastasaki and Olivia Cobb and Sonika Dahiya and Gutmann, {David H.}",

note = "Funding Information: This work was partially funded by a grant from National Institute of Neurological Disorders and Stroke (1-R35-NS07211-01) to D.H.G., while Y.P. was supported by a McDonnell Center for Cellular and Molecular Neuroscience fellowship and C.A. was supported by an R50 Research Specialist Award (1-R50-CA233164-01). The GeiC Center at WUSM engineered the hiPSCs and is subsidized by NCI Cancer Center Support Grant #P30-CA091842. Publisher Copyright: {\textcopyright} 2020, The Author(s).",

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AU - Anastasaki, Corina

AU - Cobb, Olivia

AU - Dahiya, Sonika

AU - Gutmann, David H.

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N2 - Brain tumors (gliomas) are heterogeneous cellular ecosystems, where non-neoplastic monocytic cells have emerged as key regulators of tumor maintenance and progression. However, relative to macrophages/microglia, comparatively less is known about the roles of neurons and T cells in glioma pathobiology. Herein, we leverage genetically engineered mouse models and human biospecimens to define the axis in which neurons, T cells, and microglia interact to govern Neurofibromatosis-1 (NF1) low-grade glioma (LGG) growth. NF1-mutant human and mouse brain neurons elaborate midkine to activate naïve CD8+T cells to produce Ccl4, which induces microglia to produce a key LGG growth factor (Ccl5) critical for LGG stem cell survival. Importantly, increased CCL5 expression is associated with reduced survival in patients with LGG. The elucidation of the critical intercellular dependencies that constitute the LGG neuroimmune axis provides insights into the role of neurons and immune cells in controlling glioma growth, relevant to future therapeutic targeting.

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Midkine activation of CD8⁺ T cells establishes a neuron–immune–cancer axis responsible for low-grade glioma growth

Abstract

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