Network-driven prioritization and functional phenotyping nominate TTC23 as a biomarker-informed target in chlorpromazine repurposing for glioblastoma

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Network-driven prioritization and functional phenotyping nominate TTC23 as a biomarker-informed target in chlorpromazine repurposing for glioblastoma

Jianqiang Hao et al · Frontiers Media S.A · 2026

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Autor / responsable

Jianqiang Hao et al

Editorial

Frontiers Media S.A

Año

2026

ISSN

1663-9812

ISSN

1663-9812

Idioma

eng

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BackgroundGlioblastoma (GBM) remains a lethal brain tumor with limited therapeutic options and near-universal recurrence. Drug repurposing offers a practical strategy, but pleiotropic compounds require systematic target triage to yield actionable and testable vulnerabilities.MethodsWe integrated GBM transcriptomic dysregulation with curated chlorpromazine (CPZ)-associated targets to define drug–disease intersecting genes, constructed a protein–protein interaction network, and developed an outcome-linked Lasso–Cox prognostic model to prioritize core candidates. Structure-informed docking and coarse-grained conformational sampling were used to evaluate the plausibility of a TTC23–CPZ interaction. TTC23-associated pathway activity, oncogenic state features, and immune contexture were characterized using expression stratification, enrichment and state scoring, cancer–immunity cycle analysis, and immune infiltration estimation. Functional validation was performed in GBM cell models to assess migration, apoptosis, cell viability, and clonogenic potential under TTC23 perturbation with or without CPZ exposure.ResultsIntegrated CPZ–GBM intersection analysis and network-based prognostic modeling consistently prioritized TTC23 as a clinically relevant candidate. Structure-based analyses supported a consistent TTC23–CPZ interaction hypothesis across conformational sampling. Elevated TTC23 expression was associated with coordinated pathway activation, malignant functional states, and distinct immune-associated features. Functionally, TTC23 depletion suppressed migratory capacity, increased apoptotic susceptibility, reduced short-term viability, and impaired long-term clonogenic survival, while sensitizing GBM cells to CPZ-associated anti-tumor phenotypes.ConclusionOur multi-layer framework nominates TTC23 as a functionally relevant determinant associated with CPZ response in GBM and supports the CPZ–TTC23 axis as a candidate for biomarker-informed drug repurposing.

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APA 7

al, J. H. E. (2026). Network-driven prioritization and functional phenotyping nominate TTC23 as a biomarker-informed target in chlorpromazine repurposing for glioblastoma. https://doi.org/10.3389/fphar.2026.1797067

MLA

al, Jianqiang Hao et. "Network-driven prioritization and functional phenotyping nominate TTC23 as a biomarker-informed target in chlorpromazine repurposing for glioblastoma." 2026. https://doi.org/10.3389/fphar.2026.1797067.

Chicago

al, Jianqiang Hao et. 2026. "Network-driven prioritization and functional phenotyping nominate TTC23 as a biomarker-informed target in chlorpromazine repurposing for glioblastoma.". https://doi.org/10.3389/fphar.2026.1797067.

Harvard

al, J. H. E. 2026, Network-driven prioritization and functional phenotyping nominate TTC23 as a biomarker-informed target in chlorpromazine repurposing for glioblastoma, Frontiers Media S.A, available at: https://doi.org/10.3389/fphar.2026.1797067 [Accessed 28 Jun. 2026].

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Título: Network-driven prioritization and functional phenotyping nominate TTC23 as a biomarker-informed target in chlorpromazine repurposing for glioblastoma

Autor / colaboradores: Jianqiang Hao et al

Editorial: Frontiers Media S.A

Año de publicación: 2026

ISSN: 1663-9812

ISSN: 1663-9812

Idioma: eng

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chlorpromazine; drug repurposing; glioblastoma; network pharmacology; prognostic modeling; TTC23