bims-malgli 2026-05-24 papers

Issue of 2026–05–24
five papers selected by
Oltea Sampetrean, Keio University

Neuro Oncol. 2026 May 18. pii: noag108. [Epub ahead of print]

cIMPACT-NOW update 12: Refining Pathology-based Risk Stratification and Grading for IDH-mutant Gliomas.

Daniel J Brat, Kenneth Aldape, Pim J French, David N Louis, MacLean P Nasrallah, Guido Reifenberger, David E Reuss, Mehdi Touat, Martin J van den Bent, Pieter Wesseling, Dominique Figarella-Branger.

A working group of cIMPACT-NOW evaluated the literature on IDH-mutant gliomas for opportunities to improve pathology-based risk stratification and grading, especially at the interface of CNS WHO grade 2 and 3, since therapeutic decisions depend on risk assessment for clinical management. The group also evaluated newly described IDH-mutant glioma subgroups and considered multidisciplinary aspects of therapeutic decision-making. PDGFRA amplification was associated with highly aggressive clinical behavior of IDH-mutant astrocytomas, consistent with CNS WHO grade 4. Other genetic alterations associated with intermediate risk and most consistent with CNS WHO grade 3 included PIK3 mutations, EGFR amplification, MYCN amplification and specific RB pathway alterations, including CDK4, CDK6 and CCND2 amplification, RB1 homozygous deletion or mutation, and mutation of CDKN2A. DNA methylation signatures of G-CIMP-low or A_IDH_HG were consistent with CNS WHO grade 3 or 4, depending upon other grading criteria. We suggest a mitotic count of ≥ 3 per 2.4 mm2 could be considered as a CNS WHO grade 3 criterion. Our review did not uncover features to improve grading of oligodendroglioma, IDH-mutant and 1p/19q-codeleted, although CNS WHO grade 3 tumors with elevated mitotic rates, yet lacking necrosis, microvascular proliferation, CDKN2A/B homozygous deletion and MRI contrast enhancement, may be associated with extended survival. Implementing evidence-based criteria for risk stratification and grading will improve guidance for clinical decision-making.

Keywords: Astrocytoma; Brain Tumor; Glioma; IDH-mutant; Oligodendroglioma

DOI: https://doi.org/10.1093/neuonc/noag108

Nat Commun. 2026 May 19.

Non-lytic viral immunotherapy induces long-term glioblastoma survival and tumor-specific immunity without eliciting an antiviral response.

Alexander F Haddad, Atul Saha, Sara A Collins, Isabella Lovalvo, Sabraj Gill, Megan L Montoya, Poojan Shukla, Jinpyo Hong, Elaina Wang, Pavlina Chuntova, Meeki Lad, Robert Osorio, Jia-Shu Chen, Melissa Sathavipat, Saket Jain, Eric Chalif, Noriyuki Kasahara, Manish K Aghi.

Glioblastoma is a lethal brain tumor that is resistant to conventional therapies. Here we present a non-lytic replicating retrovirus (RRV) that delivers an IL-15-receptor-linked fusion protein (RLI) superagonist directly into glioblastoma cells, creating localized immunotherapy biofactories. In orthotopic mouse models, RRV-RLI dramatically suppresses tumor growth, prolongs survival, and induces lasting remission with immunologic memory. Mechanistically, we observe increased CD8⁺ T cell and natural killer cell infiltration and activation, alongside elevated antigen presentation pathways. Combining RRV-RLI with temozolomide, which is standard-of-care chemotherapy for glioblastoma, enhances antitumor immunity. T cell receptor sequencing reveals a polyclonal repertoire of T cells, enhanced by combining RRV-RLI with temozolomide. Analysis of the T-cell repertoire suggests it to be directed against tumor rather than viral antigens, supporting the specificity and re-applicability of our approach. These findings illustrate that RRV-RLI reprograms glioblastoma into an immunostimulatory hub, offering a viral immunotherapy against glioblastoma and potentially other therapy-resistant solid tumors.

DOI: https://doi.org/10.1038/s41467-026-72746-5

Cancer Res. 2026 May 20.

Armored chimeric antigen receptor T-cell therapy targets antigen-heterogeneous glioma.

Justin D Clubb, Ryan M Shih, Torahito A Gao, Amanda Shafer, Shreya Vajragiri, Katrina Lam, Sohan Talluri, Amber Bouren, Christine E Brown, Pedro Ruivo, Robert M Prins, Han-Chung Wu, Yvonne Y Chen.

Chimeric-antigen receptor (CAR)-T cell therapy has shown early promise against glioblastoma, which lacks effective treatment options. However, two key challenges curtail efficacy: tumor-antigen heterogeneity and an immunosuppressive tumor microenvironment. CAR-T cells engineered to secrete combinations of immunomodulatory proteins can reverse immune suppression and engage endogenous immunity. Through head-to-head in vivo comparisons of potentially synergistic armor combinations, we demonstrated that T cells expressing a CAR plus IL-12 and the decoy-resistant form of IL-18 (CAR-12.DR18 T cells) show strong efficacy against antigen-heterogeneous glioma in immunocompetent mice. Robust anti-tumor efficacy with effective toxicity mitigation was achieved via combined administration of CAR-12.DR18 T cells with CAR-T cells that secrete an anti-vascular endothelial growth factor (VEGF-A) single-chain variable fragment. This combination therapy presents a clinically applicable strategy to overcome key barriers to effective treatment of glioblastoma.

DOI: https://doi.org/10.1158/0008-5472.CAN-26-1515

Neuro Oncol. 2026 May 22. pii: noag117. [Epub ahead of print]

Dordaviprone for Diffuse Midline Glioma: A Landmark Approval or a Premature Step?

Mustafa Khasraw, Matthew D Dun, Isabel Arrillaga-Romany, Roel G W Verhaak, Eric Bouffet, Jordan R Hansford, Kirit Singh, Sabine Mueller, Carl Koschmann, Patrick Y Wen.

Keywords: ACTION trial; Diffuse midline glioma; FDA; H3K27M mutation; ONC201; accelerated approval; dordaviprone; surrogate endpoints

DOI: https://doi.org/10.1093/neuonc/noag117