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Review
. 2024 Aug 6;15(8):1038.
doi: 10.3390/genes15081038.

Pediatric Hemispheric High-Grade Gliomas and H3.3-G34 Mutation: A Review of the Literature on Biological Features and New Therapeutic Strategies

Marta Bonada  1   2 Matilde Pittarello  3 Emerson De Fazio  4 Alessandro Gans  2   5 Paolo Alimonti  6 Hasan Slika  7 Federico Legnani  1   2 Francesco Di Meco  1   2   7 Betty Tyler  7
Affiliations
Review

Pediatric Hemispheric High-Grade Gliomas and H3.3-G34 Mutation: A Review of the Literature on Biological Features and New Therapeutic Strategies

Marta Bonada et al. Genes (Basel). .

Abstract

Pediatric high-grade glioma (pHGG) encompasses a wide range of gliomas with different genomic, epigenomic, and transcriptomic features. Almost 50% of pHGGs present a mutation in genes coding for histone 3, including the subtype harboring the H3.3-G34 mutation. In this context, histone mutations are frequently associated with mutations in TP53 and ATRX, along with PDGFRA and NOTCH2NL amplifications. Moreover, the H3.3-G34 histone mutation induces epigenetic changes in immune-related genes and exerts modulatory functions on the microenvironment. Also, the functionality of the blood-brain barrier (BBB) has an impact on treatment response. The prognosis remains poor with conventional treatments, thus eliciting the investigation of additional and alternative therapies. Promising molecular targets include PDGFRA amplification, BRAF mutation, EGFR amplification, NF1 loss, and IDH mutation. Considering that pHGGs harboring the H3.3-G34R mutation appear to be more susceptible to immunotherapies (ITs), different options have been recently explored, including immune checkpoint inhibitors, antibody mediated IT, and Car-T cells. This review aims to summarize the knowledge concerning cancer biology and cancer-immune cell interaction in this set of pediatric gliomas, with a focus on possible therapeutic options.

Keywords: glioma; high-grade; histone mutation; immunotherapy; pediatric; targeted therapy.

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Conflict of interest statement

Betty Tyler has research funding from NIH. Ashvattha Therapeutics Inc* has licensed one of her patents and she is a stockholder for Peabody Pharmaceuticals * (* includes equity or options).

Figures

Figure 1
Figure 1
Developmental chain of normal brain vs. H3.3-G34-mutant glioma. OPC: oligodendrocyte progenitor cell; IPC: interneuron progenitor cell; LOF: loss of function; GOF: gain of function; TMZ: temozolomide.
See this image and copyright information in PMC

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