Micro-CT Imaging Reveals Mekk3 Heterozygosity Prevents Cerebral Cavernous Malformations in Ccm2-Deficient Mice.

Jaesung P Choi,Naveena Gokoolparsadh,Xiangjian Zheng,Zinan Zhou,Dean Y Li,Matthew Foley,Weng-Yew Wong,J Simon C Arthur,Magdalena Chrzanowska-Wodnicka

doi:10.1371/journal.pone.0160833

Jaesung P Choi, Naveena Gokoolparsadh + Show 7 more

Open Access

https://doi.org/10.1371/journal.pone.0160833

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Abstract

Mutations in CCM1 (aka KRIT1), CCM2, or CCM3 (aka PDCD10) gene cause cerebral cavernous malformation in humans. Mouse models of CCM disease have been established by deleting Ccm genes in postnatal animals. These mouse models provide invaluable tools to investigate molecular mechanism and therapeutic approaches for CCM disease. However, the full value of these animal models is limited by the lack of an accurate and quantitative method to assess lesion burden and progression. In the present study we have established a refined and detailed contrast enhanced X-ray micro-CT method to measure CCM lesion burden in mouse brains. As this study utilized a voxel dimension of 9.5μm (leading to a minimum feature size of approximately 25μm), it is therefore sufficient to measure CCM lesion volume and number globally and accurately, and provide high-resolution 3-D mapping of CCM lesions in mouse brains. Using this method, we found loss of Ccm1 or Ccm2 in neonatal endothelium confers CCM lesions in the mouse hindbrain with similar total volume and number. This quantitative approach also demonstrated a rescue of CCM lesions with simultaneous deletion of one allele of Mekk3. This method would enhance the value of the established mouse models to study the molecular basis and potential therapies for CCM and other cerebrovascular diseases.

Highlights

Cerebral cavernous malformation (CCM) is a brain vascular disease that manifests as clusters of thin dilated vessels in brain
We demonstrate the utility of this imaging approach by comparing the lesions in Ccm1 and Ccm2 deficient mice, and demonstrate that Mekk3 heterozygosity prevents CCM lesion formation in Ccm2 deficient mice
Cdh5-CreErt2;Ccm1fl/+ mice were crossed with Ccm1fl/fl to generate Cdh5-CreErt2;Ccm1fl/fl doi:10.1371/journal.pone.0160833.g001 (Ccm1iECKO), Cdh5-CreErt2;Ccm2fl/+ mice were crossed with Ccm2fl/fl to generate Cdh5-CreErt2; Ccm2fl/fl (Ccm2iECKO), and Cdh5-CreErt2;Ccm2fl/fl mice were crossed with Ccm2fl/fl;Mekk3fl/+ mice to generate Cdh5-CreErt2;Ccm2fl/fl;Mekk3fl/+ (Ccm2iECKO;Mekk3het)

Summary

Introduction

Cerebral cavernous malformation (CCM) is a brain vascular disease that manifests as clusters of thin dilated vessels in brain. It is common with a prevalence of 0.1–0.5% in the human population. Genetic studies in the mouse and zebrafish have revealed that the CCM pathway functions in endothelial cells and is required for patterning of blood vessels and the development of embryonic heart [7,8,9,10,11]. Our recent study revealed that CCM signaling negatively controls the Mekk kinase cascade, Klf and Klf expression and Adamts and Adamts expression in endocardium. Decreasing Mekk or Klf gene dosage rescues the cardiac defect conferred by Ccm deficiency both in mice and zebrafish [10]

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