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TIPS-07 LONGITUDINAL CSF PROTEOMICS FOR MONITORING AND PHARMACODYNAMIC BIOMARKER DISCOVERY

Rapid feedback is needed to understand the individualized biological impacts of novel glioma therapies. We are performing glioma biomarker discovery by serial cerebrospinal fluid (CSF) sampling from Ommaya reservoirs or lumbar punctures to determine how the CSF proteome can reveal early longitudinal...

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Detalles Bibliográficos
Autores principales: Riviere-Cazaux, Cecile, Ikram, Samar, Andersen, Katherine, Warrington, Arthur, Burns, Terry
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10402423/
http://dx.doi.org/10.1093/noajnl/vdad070.138
Descripción
Sumario:Rapid feedback is needed to understand the individualized biological impacts of novel glioma therapies. We are performing glioma biomarker discovery by serial cerebrospinal fluid (CSF) sampling from Ommaya reservoirs or lumbar punctures to determine how the CSF proteome can reveal early longitudinal intelligence regarding glioma status, biology, and therapeutic response. We aimed to leverage access to each patient’s glioma via CSF to identify candidate biomarkers of tumor burden, biology, and therapeutic challenge. Global proteomic CSF analysis was performed via Somalogic– an aptamer-based technology for highly sensitive and specific analysis of over 7,000 proteins. Discovery analysis comprised of the top 500 ranked proteins in the CSF from seven patients with high-grade gliomas versus non-glioma (normal pressure hydrocephalus) controls. The top HGG proteins were then filtered to include only proteins that met two additional criteria of 1) decrease with resection, and 2) increase with recurrence in individual paired patient samples. Additionally, in individual patients for whom serial CSF samples were available, protein fold change lists were created and ranked to determine the most or least differentially abundant proteins between various time points. Proteomic enrichment analysis revealed a conserved HGG CSF proteomic signature defined by 79 proteins, including ones known to be over-expressed in solid tumor malignancies, such as retinoblastoma binding protein 4, heat shock protein 90, and sorcin. The HGG proteomic signature was consistently enriched in an independent validation cohort consisting of 13 gliomas diverse in primary versus recurrent status, subtype, and grade, when compared to independent control CSF samples. Encouragingly, proteins in the HGG signature decreased in two patients following decreased tumor burden from surgical resection. Our preliminary data demonstrate the ability to gain detailed, individualized insights regarding glioma biology, tumor burden, and evolution through global CSF proteomics acquired from longitudinal neurosurgical access to each patient’s unique glioma.