Exome sequencing in 38 patients with intracranial aneurysms and subarachnoid hemorrhage.

Authors:
Thomas Sauvigny, Malik Alawi, Linda Krause, Sina Renner, Michael Spohn, Alice Busch, Verena Kolbe, Janine Altmüller, Britt-Sabina Löscher, Andre Franke, Christian Brockmann, Wolfgang Lieb, Manfred Westphal, Nils Ole Schmidt, Jan Regelsberger, Georg Rosenberger
Year of publication:
2020
Volume:
-
Issue:
-
Issn:
0340-5354
Journal title abbreviated:
J. Neurol.
Journal title long:
Journal of neurology
Impact factor:
3.841
Abstract:
OBJECTIVE:Genetic risk factors for unruptured intracranial aneurysms (UIA) and aneurysmal subarachnoid hemorrhage (aSAH) are poorly understood. We aimed to verify recently reported risk genes and to identify novel sequence variants involved in the etiology of UIA/aSAH. METHODS:We performed exome sequencing (ES) in 35 unrelated individuals and 3 family members, each with a history of UIA and/or aSAH. We searched for sequence variants with minor allele frequency (MAF) ≤ 5% in the reported risk genes ADAMTS15, ANGPTL6, ARHGEF17, LOXL2, PCNT, RNF213, THSD1 and TMEM132B. To identify novel putative risk genes we looked for unknown (MAF = 0) variants shared by the three relatives. RESULTS:We identified 20 variants with MAF ≤ 5% in 18 individuals: 9 variants in PCNT (9 patients), 4 in RNF213 (3 patients), 3 in THSD1 (6 patients), 2 in ANGPTL6 (3 patients), 1 in ADAMTS15 (1 patient) and 1 in TMEM132B (1 patient). In the affected family, prioritization of shared sequence variants yielded five novel putative risk genes. Based on predicted pathogenicity of identified variants, population genetics data and a high functional relevance for vascular biology, EDIL3 was selected as top candidate and screened in additional 37 individuals with UIA and/or aSAH: a further very rare EDIL3 sequence variant in two unrelated sporadic patients was identified. CONCLUSIONS:Our data support a role of sequence variants in PCNT, RNF213 and THSD1 as susceptibility factors for cerebrovascular disease. The documented function in vascular wall integrity, the crucial localization of affected amino acids and gene/variant association tests suggest EDIL3 as a further valid candidate disease gene for UIA/aSAH.