Cerebral cavernous malformation (CCM) is a neurovascular disease distinguished by clusters of leaky, mulberry-like blood vessels. KRIT1 bi-allelic loss-of-function mutations in endothelial cells are known to trigger brain cavernomas; however, human preclinical models are needed to unveil the importance of germline KRIT1 heterozygous mutations in CCM pathogenesis. We generated three induced pluripotent stem cells (iPSCs) from patients with CCM with hereditary KRIT1 heterozygous mutations. Patient-derived vascularized organoids exhibited intricate and abnormal vascular structures with cavernoma-like morphology, and iPSC-derived endothelial cells displayed phenotypic abnormalities at the junctional and transcriptional levels. Upon injection into brain explants, CCM endothelial cells integrated into the normal vasculature and created vascular anomalies. Lastly, transcriptional analysis showed that the endothelial progenitor marker paternally expressed gene 3 (PEG3) was highly expressed in iPSC-derived CCM endothelial cells, and this was further confirmed in familial and sporadic cavernoma biopsies. Overall, our study sheds light on the molecular consequence of KRIT1 heterozygous mutations in endothelial cells and the potential implications in cavernoma pathogenesis.
KRIT1 heterozygous mutations are sufficient to induce a pathological phenotype in patient-derived iPSC models of cerebral cavernous malformation / M. Arce, I. Erzar, F. Yang, N. Senthilkumar, F.C. Onyeogaziri, D. Ronchi, F.C. Ahlstrand, N. Noll, R. Lugano, M. Richards, E. Scola, M. Corada, F. Lazzaroni, L. Meggiolaro, J. Schuster, N. Dahl, M. Niemelä, B.R. Jahromi, A. Dimberg, S. Lanfraconi, R. Latini, P.U. Magnusson. - In: CELL REPORTS. - ISSN 2211-1247. - 44:5(2025 May 27), pp. 115576.1-115576.27. [10.1016/j.celrep.2025.115576]
KRIT1 heterozygous mutations are sufficient to induce a pathological phenotype in patient-derived iPSC models of cerebral cavernous malformation
D. Ronchi;
2025
Abstract
Cerebral cavernous malformation (CCM) is a neurovascular disease distinguished by clusters of leaky, mulberry-like blood vessels. KRIT1 bi-allelic loss-of-function mutations in endothelial cells are known to trigger brain cavernomas; however, human preclinical models are needed to unveil the importance of germline KRIT1 heterozygous mutations in CCM pathogenesis. We generated three induced pluripotent stem cells (iPSCs) from patients with CCM with hereditary KRIT1 heterozygous mutations. Patient-derived vascularized organoids exhibited intricate and abnormal vascular structures with cavernoma-like morphology, and iPSC-derived endothelial cells displayed phenotypic abnormalities at the junctional and transcriptional levels. Upon injection into brain explants, CCM endothelial cells integrated into the normal vasculature and created vascular anomalies. Lastly, transcriptional analysis showed that the endothelial progenitor marker paternally expressed gene 3 (PEG3) was highly expressed in iPSC-derived CCM endothelial cells, and this was further confirmed in familial and sporadic cavernoma biopsies. Overall, our study sheds light on the molecular consequence of KRIT1 heterozygous mutations in endothelial cells and the potential implications in cavernoma pathogenesis.
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