HGG-06. EARLY GABAERGIC NEURONAL LINEAGE DEFINES DEPENDENCIES IN HISTONE H3 G34R/V GLIOMA

Ilon Liu,Angela Mastronuzzi,Cristina Bleil,Fernando Carceller,Michelle Monje,Miri Danan-Gotthold,Kimberly Siletti,Johannes Gojo,Sten Linnarsson,Sibylle Madlener,Lisa Mayr,Alan Mackay,Valeria Molinari,Mckenzie Shaw,Sameer Agnihotri,Irene Slavc,Lijuan Hu,Emelie Braun,Erik Sundstroem,Eshini Panditharatna,Darren Hargrave,Sanda Alexandrescu,Christine Haberler,Yura Grabovska,Bernhard Englinger,Christian Dorfer,Gerda Ricken,Tara Barron,Gustavo Alencastro Veiga Cruzeiro,Sara Temelso,Lynn Bjerke,Olivia A Hack ,Rebecca Rogers ,Ángel Montero Carcaboso ,Kristina A Cole ,Maria Vinci ,Rebecca D Hodge ,Li Jiang ,Joshua Dempster ,Michael A Quezada ,Christopher Rota ,Angela J Waanders ,Ed Lein ,Hafsa Mire ,Chris Jones ,David D Eisenstat ,Rene Geyeregger ,Samantha E Hoffman ,Simon Stapleton ,Mariella G Filbin

doi:10.1093/neuonc/noab090.072

Abstract

High-grade gliomas harboring H3 G34R/V mutations exclusively occur in the cerebral hemispheres of adolescents and young adults, suggesting a distinct neurodevelopmental origin. Combining multimodal bulk and single-cell genomics with unbiased genome-scale CRISPR/Cas9 approaches, we here describe a GABAergic interneuron progenitor lineage as the most likely context from which these H3 G34R/V mutations drive gliomagenesis, conferring unique and tumor-selective gene targets essential for glioma cell survival, as validated genetically and pharmacologically. Phenotypically, we demonstrate that while H3 G34R/V glioma cells harbor the neurotransmitter GABA, they are developmentally stalled, and do not induce the neuronal hyperexcitability described in other glioma subtypes. These findings offer a striking counter-example to the prevailing view of glioma origins in glial precursor cells, resulting in distinct cellular, microenvironmental, and therapeutic consequences.

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