Korea University Study Reveals Hidden Complexity in Recurrent Brain Tumors

Single-cell insights uncover the gene driving recurrence and treatment resistance in meningiomas

SEOUL, South Korea, Sept. 11, 2025 /PRNewswire/ --Meningiomas are the most common primary brain tumors, accounting for nearly one-third of all central nervous system (CNS) tumors. While most are benign and manageable, 20–30% progress to high-grade forms that behave aggressively, recur frequently, and resist standard treatments. Recurrence remains a major clinical challenge, as these tumors often return stronger, leaving patients with limited therapeutic options. Despite advances in understanding their genetic and molecular profiles, how meningiomas evolve from primary to recurrent states has remained unclear.

To address this gap, researchers from Korea University set out to map the evolutionary trajectory of meningiomas at single-cell resolution. Their goal was to investigate how tumor cells and their microenvironment evolve between primary and recurrent disease, and to identify the molecular drivers of recurrence. Lead author Associate Professor Jason K. Sa explains: "Our study generated the first longitudinal single-cell atlas of matched primary and recurrent meningiomas. This resource enabled us to reconstruct tumor evolutionary trajectories and cellular hierarchies over time, revealing profound shifts in proliferative programs and tumor–immune interactions at recurrence." Their findings were published in Nature Communications on July 1, 2025.

The team analyzed matched patient samples using single-nuclei RNA sequencing (snRNA-seq), which allowed profiling of both tumor cells and their surrounding microenvironment. To capture the dynamic progression of tumor cells, they applied RNA velocity and latent time analysis, tracking transcriptional changes as tumors transitioned to recurrence. Findings were further validated using external RNA-seq datasets and immunohistochemistry (IHC), strengthening the robustness of the results.

The study uncovered several key insights. Recurrent meningiomas exhibited markedly higher proliferative activity compared to their primary counterparts, which were enriched in cell cycle–related processes. Rather than progressing linearly, recurrent tumors diverged into multiple aggressive transcriptional trajectories. Most notably, the researchers identified COL6A3 as a central player driving these transitions.

"We identified COL6A3 as a key driver of meningioma recurrence, associated with relapse risk and treatment resistance. Further analysis of tumor cell–macrophage interactions revealed that the COL6A3–CD44 signaling cascade mediates extracellular matrix remodeling and promotes an immunosuppressive tumor microenvironment at recurrence," Ms. Ji Yoon Lee, the study's first author, notes. This dual role in both tumor cell behavior and immune modulation makes COL6A3 an especially compelling therapeutic target.

Dr. Sa adds, "By identifying COL6A3 as a driver of malignancy in recurrent meningiomas, we found its dual potential. First, as a prognostic biomarker to better stratify high-risk patients and guide treatment decisions, and second, as a novel therapeutic target for drug discovery. This opens the door to precision strategies that combine early diagnosis with targeted therapies to improve patient outcomes."

This work significantly advances our understanding of how meningiomas progress from primary to recurrent states. It emphasizes the need to address both tumor cell evolution and tumor–immune interactions when designing therapies. Looking ahead, Ms. Lee shares: "Over the next 5 to 10 years, we anticipate this work can impact patient care by enabling predictive tools for radiotherapy response and recurrence risk assessment."

Ultimately, targeting COL6A3 may provide a promising strategy to prevent recurrence and improve outcomes for patients with high-grade meningiomas.

Reference

Title of original paper: Single-cell analysis reveals a longitudinal trajectory of meningioma evolution and heterogeneity
Journal: Nature Communications
DOI: 10.1038/s41467-025-60653-0

About Korea University College of Medicine
Website: https://medicine.korea.ac.kr/en/index.do

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Soo-Jin Jeon
+82 2 3407 4040
[email protected]

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SOURCE Korea University College of Medicine