Background: Meningiomas, the most common primary brain tumours, are classified by the World Health Organization (WHO) into grades 1, 2, and 3. Some grade 1 tumours exhibit increased clinical aggressiveness, with the biallelic mutation of NF2 being the most frequently reported.
Methods: In our study, we analysed the most common driver mutations (NF2, AKT1, KLF4, and TRAF7) in meningioma by genomics describing co-occurrences and new mutations. Furthermore, tumour tissue bearing the driver mutations was analysed by proteomics. The relevance of the specific target found in the most common driver mutation in meningiomas (NF2) was validated in vitro using both lower and higher-grade meningioma and further, the higher-grade meningioma was analysed in vivo using an NOD scid gamma (NSG) mouse model.
Findings: Our genomic data revealed co-occurrences of non-NF2 mutations in lower-grade meningiomas, suggesting synergistic effects supporting tumour growth. NF2-/- meningiomas showed distinct proteomic clustering, with different mutations found in these clusters. Additionally, proteomics identified Annexin-3 (ANXA3) upregulated in NF2-/- meningioma. Its role in proliferation was confirmed in grade 1 and subsequently grade 3 tumours in vitro and with abolished growth when knocked down in a meningioma mouse model.
Interpretation: These findings highlight new targets in different meningioma backgrounds, presenting ANXA3 as a potential therapeutic target for meningioma treatment.
Funding: This work was funded by the Brain Tumour Centre of Excellence.
Keywords: AKT1; ANXA3; KLF4; Meningioma; NF2; TRAF7.
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