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LGG-01. NF1 MUTATION DRIVES NEURONAL ACTIVITY-DEPENDENT OPTIC GLIOMA INITIATION

Abstract Neurons have recently emerged as essential cellular constituents of the tumor microenvironment, where their activity increases the growth of a diverse number of solid tumors. While the role of neurons in tumor progression has been previously demonstrated, the importance of neuronal activity...

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Published in:Neuro-oncology (Charlottesville, Va.) Va.), 2021-06, Vol.23 (Supplement_1), p.i31-i31
Main Authors: Pan, Yuan, Hysinger, Jared, Schindler, Nicki, Cobb, Olivia, Guo, Xiaofan, Yalçın, Belgin, Anastasaki, Corina, Mulinyawe, Sara, Ponnuswami, Anitha, Scheaffer, Suzanne, Ma, Yu, Chang, Kun-Che, Xia, Xin, Toonen, Joseph, Lennon, James, Gibson, Erin, Liau, Linda, Goldberg, Jeffrey, Monje, Michelle, Gutmann, David
Format: Article
Language:English
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Summary:Abstract Neurons have recently emerged as essential cellular constituents of the tumor microenvironment, where their activity increases the growth of a diverse number of solid tumors. While the role of neurons in tumor progression has been previously demonstrated, the importance of neuronal activity to tumor initiation is less clear, particularly in the setting of cancer predisposition syndromes. In the Neurofibromatosis type 1 (NF1) cancer predisposition syndrome, in which tumors arise in close association with nerves, 15% of individuals develop low-grade neoplasms of the optic pathway (optic gliomas) during early childhood, raising the intriguing possibility that postnatal light-induced optic nerve activity drives tumor initiation. Here, we employ an authenticated murine model of Nf1 optic glioma to demonstrate that stimulation of optic nerve activity increases optic glioma growth, while decreasing optic nerve activity via light deprivation prevents tumor formation and maintenance. By manipulating environmental light to modulate optic pathway (retinal) neuron activity, we show that Nf1 optic glioma initiation depends on neuronal activity during a developmental period susceptible to tumorigenesis. Germline Nf1 mutation in retinal neurons results in aberrantly high optic nerve neuroligin-3 (Nlgn3) shedding in response to retinal neuronal activity. Moreover, genetic Nlgn3 loss or pharmacologic inhibition of Nlgn3 shedding blocks murine Nf1 optic gliomagenesis and progression. Collectively, these studies establish an obligate role for neuronal activity in the development of certain brain tumors, elucidate a therapeutic strategy to reduce optic glioma incidence or mitigate tumor progression, and underscore the role of Nf1 mutation-mediated dysregulation of neuronal signaling pathways in the NF1 cancer predisposition syndrome.
ISSN:1522-8517
1523-5866
DOI:10.1093/neuonc/noab090.125