Magali de Sauvage scite author profile

Brain metastases from lung adenocarcinoma (BM-LUAD) cause significant patient mortality. To identify genomic alterations that promote brain metastases, we performed whole-exome sequencing of 73 BM-LUAD cases. Using case-control analyses, we discovered candidate drivers of brain metastasis by identifying genes with more frequent copy-number aberrations in BM-LUAD compared to 503 primary lung adenocarcinomas. We identified three regions with significantly higher amplification frequencies in BM-LUAD, including MYC (12% vs 6%), YAP1 (7% vs 0.8%), and MMP13 (10% vs 0.6%) and significantly more frequent deletions in CDKN2A/B (27% vs 13%). We confirmed that amplification frequencies of MYC and YAP1 / MMP13 were elevated in an independent cohort of 105 patients. Functional assessment in patient-derived xenograft mouse models validated that MYC , YAP1 or MMP13 overexpression increased the brain metastasis incidence. These results demonstrate that somatic alterations contribute to brain metastases and that genomic sequencing of a large number of metastatic tumors can reveal novel metastatic drivers.

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Microenvironmental Landscape of Human Melanoma Brain Metastases in Response to Immune Checkpoint Inhibition

Alvarez‐Breckenridge

Markson

Stocking

et al. 2022

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Melanoma-derived brain metastases (MBM) represent an unmet clinical need because central nervous system (CNS) progression is frequently an end-stage of the disease. Immune checkpoint inhibitors (ICI) provide a clinical opportunity against MBM; however, the MBM tumor microenvironment (TME) has not been fully elucidated in the context of ICI. To dissect unique elements of the MBM TME and correlates of MBM response to ICI, we collected 32 fresh MBM and performed single-cell RNA sequencing of the MBM TME and T-cell receptor clonotyping on T cells from MBM and matched blood and extracranial lesions. We observed myeloid phenotypic heterogeneity in the MBM TME, most notably multiple distinct neutrophil states, including an IL8-expressing population that correlated with malignant cell epithelial-to-mesenchymal transition. Additionally, we observed significant relationships between intracranial T-cell phenotypes and the distribution of T-cell clonotypes intracranially and peripherally. We found that the phenotype, clonotype, and overall number of MBM-infiltrating T cells were associated with response to ICI, suggesting that ICI-responsive MBMs interact with peripheral blood in a manner similar to extracranial lesions. These data identify unique features of the MBM TME that may represent potential targets to improve clinical outcomes for patients with MBM.

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Phase 2 study of pembrolizumab in patients with recurrent and residual high-grade meningiomas

et al. 2022

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High-grade meningiomas are associated with neuro-cognitive morbidity and have limited treatments. High-grade meningiomas harbor an immunosuppressive tumor microenvironment (TME) and programmed death-ligand 1 (PD-L1) expression may contribute to their aggressive phenotype. Here, we present the results of a single-arm, open-label phase 2 trial (NCT03279692) evaluating the efficacy of pembrolizumab, a PD-1 inhibitor, in a cohort of 25 evaluable patients with recurrent and progressive grade 2 and 3 meningiomas. The primary endpoint is the proportion of patients alive and progression-free at 6 months (PFS-6). Secondary endpoints include progression-free and overall survival, best intracranial response, and toxicity. Our study has met its primary endpoint and achieved a PFS-6 rate of 0.48 (90% exact CI: 0.31–0.66) and a median PFS of 7.6 months (90% CI: 3.4–12.9 months). Twenty percent of patients have experienced one (or more) grade-3 or higher treatment-related adverse events. These results suggest that pembrolizumab exerts promising efficacy on a subset of these tumors. Further studies are needed to identify the biological facets within the meningioma TME that may drive response to immune-based therapies.

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