Improving genetic diagnostic yield in familial and sporadic cerebral cavernous malformations: detection of copy number and deep Intronic variants
- Author(s)
- Sikta, N; Gooley, S; Green, TE; Hoeper, O; Witkowski, T; Bennett, C; Francis, D; Reid, J; Mao, K; Awad, M; Roberts-Thomson, S; Bulluss, K; Clark, J; Scheffer, IE; Perucca, P; Bennett, MF; Bahlo, M; Berkovic, SF; Hildebrand, MS;
- Journal Title
- Human Molecular Genetics
- Publication Type
- May 22
- Abstract
- Cerebral cavernous malformations (CCMs) are intracranial vascular lesions associated with risk of haemorrhages and seizures. While the majority are sporadic and often associated with somatic variants in PIK3CA and MAP3K3, around 20% are familial with germline variants in one of three CCM genes-KRIT1/CCM1, CCM2 and PDCD10/CCM3. We performed comprehensive phenotyping and genetic analysis of nine multiplex families and ten sporadic individuals with CCM. In the familial cases, initial standard analyses had a low yield, we therefore searched for small copy number changes and deep intronic variants. Subsequently, pathogenic germline variants in KRIT1/CCM1 or CCM2 were identified in all 9 multiplex families. Single or multiple exon deletions or splice site variants in KRIT1/CCM1 were found in 3/9 families. Where cavernous malformation tissue was available, second hit somatic PIK3CA variants were identified in 4/7 individuals. These 4 individuals were from separate families with germline KRIT1/CCM1 variants. In 8/10 sporadic cases, we detected recurrent pathogenic somatic PIK3CA, MAP3K3 or CCM2 variants. All familial cases had multiple CCMs, whereas the sporadic cases had a single lesion only, which was in the temporal lobe in 9/10 individuals. Our comprehensive approach interrogating deep intronic variants combined with detection of small copy number variants warrants implementation in standard clinical genetic testing pipelines to increase diagnostic yield. We also build on the established second hit germline and somatic variant mechanism in some CCM lesions. Genetic diagnosis has clinical implications such as reproductive counselling and provides potential eligibility for precision medicine therapies to treat rapidly growing CCMs.
- Publisher
- Oxford Academic
- Keywords
- Cerebral cavernous malformations; Copy number variant; Deep intronic variant; Germline variant; Somatic mosaicism
- Research Division(s)
- Genetics and Gene Regulation
- PubMed ID
- 40401429
- Publisher's Version
- https://doi.org/10.1093/hmg/ddaf077
- Open Access at Publisher's Site
https://doi.org/10.1093/hmg/ddaf077- Terms of Use/Rights Notice
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Creation Date: 2025-05-29 02:03:22
Last Modified: 2025-05-29 02:08:05