EphB4 forward signalling mediates angiogenesis caused by CCM3/PDCD10‐ablation

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Abstract

CCM3, also named as PDCD10, is a ubiquitous protein expressed in nearly all tissues and in various types of cells. It is essential for vascular development and post‐natal vessel maturation. Loss‐of‐function mutation of CCM3 predisposes for the familial form of cerebral cavernous malformation ( CCM). We have previously shown that knock‐down of CCM3 stimulated endothelial angiogenesis via impairing DLL4‐Notch signalling; moreover, loss of endothelial CCM3 stimulated tumour angiogenesis and promoted tumour growth. The present study was designed to further elucidate the inside signalling pathway involved in CCM3‐ ablation‐mediated angiogenesis. Here we report for the first time that silencing endothelial CCM3 led to a significant up‐regulation of EphB4 mRNA and protein expression and to an increased kinase activity of EphB4, concomitantly accompanied by an activation of Erk1/2, which was reversed by treatment with the specific EphB4 kinase inhibitor NVP‐ BHG712 ( NVP), indicating that silencing CCM3 activates EphB4 kinase forward signalling. Furthermore, treatment with NVP rescued the hyper‐angiogenic phenotype induced by knock‐down of endothelial CCM3 in vitro and in vivo. Additional study demonstrated that the activation of EphB4 forward signalling in endothelial cells under basal condition and after CCM3 ‐silence was modulated by DLL4/Notch signalling, relying EphB4 at downstream of DLL4/Notch signalling. We conclude that angiogenesis induced by CCM3 ‐silence is mediated by the activation of EphB4 forward signalling. The identified endothelial signalling pathway of CCM3‐ DLL4/Notch‐EphB4‐Erk1/2 may provide an insight into mechanism of CCM3‐ ablation‐mediated angiogenesis and could potentially contribute to novel therapeutic concepts for disrupting aberrant angiogenesis in CCM and in hyper‐vascularized tumours.

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Genetics of cavernous angiomas.

Francoise Bergametti, C Denier, Pierre Labauge … (2007)

Cerebral cavernous malformations (CCM) are vascular malformations that can occur as a sporadic or a familial autosomal dominant disorder. Clinical and cerebral MRI data on large series of patients with a genetic form of the disease are now available. In addition, three CCM genes have been identified: CCM1/KRIT1, CCM2/MGC4607, and CCM3/PDCD10. These recent developments in clinical and molecular genetics have given us useful information about clinical care and genetic counselling and have broadened our understanding of the mechanisms of this disorder.

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Defective autophagy is a key feature of cerebral cavernous malformations

Saverio Marchi, Mariangela Corricelli, Eliana Trapani … (2015)

Cerebral cavernous malformation (CCM) is a major cerebrovascular disease affecting approximately 0.3–0.5% of the population and is characterized by enlarged and leaky capillaries that predispose to seizures, focal neurological deficits, and fatal intracerebral hemorrhages. Cerebral cavernous malformation is a genetic disease that may arise sporadically or be inherited as an autosomal dominant condition with incomplete penetrance and variable expressivity. Causative loss-of-function mutations have been identified in three genes, KRIT1 (CCM1), CCM2 (MGC4607), and PDCD10 (CCM3), which occur in both sporadic and familial forms. Autophagy is a bulk degradation process that maintains intracellular homeostasis and that plays essential quality control functions within the cell. Indeed, several studies have identified the association between dysregulated autophagy and different human diseases. Here, we show that the ablation of the KRIT1 gene strongly suppresses autophagy, leading to the aberrant accumulation of the autophagy adaptor p62/SQSTM1, defective quality control systems, and increased intracellular stress. KRIT1 loss-of-function activates the mTOR-ULK1 pathway, which is a master regulator of autophagy, and treatment with mTOR inhibitors rescues some of the mole-cular and cellular phenotypes associated with CCM. Insufficient autophagy is also evident in CCM2-silenced human endothelial cells and in both cells and tissues from an endothelial-specific CCM3-knockout mouse model, as well as in human CCM lesions. Furthermore, defective autophagy is highly correlated to endothelial-to-mesenchymal transition, a crucial event that contributes to CCM progression. Taken together, our data point to a key role for defective autophagy in CCM disease pathogenesis, thus providing a novel framework for the development of new pharmacological strategies to prevent or reverse adverse clinical outcomes of CCM lesions.

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The role of the vascular endothelial growth factor-Delta-like 4 ligand/Notch4-ephrin B2 cascade in tumor vessel remodeling and endothelial cell functions.

Patricia Hainaud, Xia Liu, Jean Plouët … (2006)

Vascular endothelial growth factor (VEGF) and Delta-like 4 ligand (DLL4) are the only genes whose haploinsufficiency results in vascular abnormalities. Although many common pathways are up-regulated in both vascular development and tumor angiogenesis and in vascular remodeling, the role of the Delta/Notch pathway has not been clearly defined in tumor angiogenesis. In this study, we assessed the expression of DLL4, Notch4, and ephrin B2 in transgenic mice developing hepatocarcinoma characterized by a strong remodeling of the tumor sinusoids. We also investigated the role of VEGF in the expression and biological functions of these molecules on human venous endothelial cells. In transgenic livers, we showed that DLL4, active Notch4, and ephrin B2 were gradually up-regulated within the hepatocarcinoma progression and expressed on tumor sinusoidal endothelial cells. In venous endothelial cells, we showed that VEGF up-regulates DLL4 and presenilin, and increased the activation of Notch4, leading to an up-regulation of ephrin B2 with a down-regulation of Eph B4. We also showed that the activation of Notch4 is required for VEGF-induced up-regulation of ephrin B2 and the differentiation of human venous endothelial cells in vitro. Accordingly, the disruption of Notch4 signaling by pharmacologic inhibition of presenilin or addition of soluble DLL4 inhibited the effect of VEGF on human venous endothelial cell migration and differentiation. Our study strongly suggests that a coordinated activation of DDL4/Notch4 and ephrin B2 pathways downstream of VEGF plays a key role in the abnormal remodeling of tumor vessels.

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Author and article information

Contributors

Yuan Zhu: yuan.zhu@uk-essen.de

Journal

Journal ID (nlm-ta): J Cell Mol Med

Journal ID (iso-abbrev): J. Cell. Mol. Med

Journal ID (doi): 10.1111/(ISSN)1582-4934

Journal ID (publisher-id): JCMM

Title: Journal of Cellular and Molecular Medicine

Publisher: John Wiley and Sons Inc. (Hoboken )

ISSN (Print): 1582-1838

ISSN (Electronic): 1582-4934

Publication date (Electronic): 01 April 2017

Publication date (Print): September 2017

Volume: 21

Issue: 9 ( doiID: 10.1111/jcmm.2017.21.issue-9 )

Pages: 1848-1858

Affiliations

[ ¹ ] Department of Neurosurgery University of Duisburg‐Essen Essen Germany

[ ² ] Department of Neurosurgery Tongji Hospital Tongji Medical College Huazhong University of Science and Technology Wuhan China

[ ³ ] Institute of Neuropathology University of Duisburg‐Essen Essen Germany

Author notes

[*] [* ] Correspondence to: Yuan Zhu

E‐mail: yuan.zhu@ 123456uk-essen.de

Article

Publisher ID: JCMM13105

DOI: 10.1111/jcmm.13105

PMC ID: 5571521

PubMed ID: 28371279

SO-VID: 882b7729-a400-43e9-9c60-5e51880e68de

License:

This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

History

Date received : 18 August 2016

Date accepted : 13 December 2016

Page count

Figures: 5, Tables: 1, Pages: 11, Words: 5336

Funding

Funded by: Medical Faculty, University of Duisburg‐Essen

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source-schema-version-number 2.0

component-id jcmm13105

cover-date September 2017

details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_NLMPMC version:5.1.8 mode:remove_FC converted:25.08.2017

ScienceOpen disciplines: Molecular medicine

Keywords: angiogenesis,ephb4 forward signalling,dll4‐notch signalling,ccm3/pdcd10

Data availability:

ScienceOpen disciplines: Molecular medicine

Keywords: angiogenesis, ephb4 forward signalling, dll4‐notch signalling, ccm3/pdcd10

EphB4 forward signalling mediates angiogenesis caused by CCM3/PDCD10‐ablation

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Abstract

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Stress signalling in stem cells

Most cited references 22

Genetics of cavernous angiomas.

Defective autophagy is a key feature of cerebral cavernous malformations

The role of the vascular endothelial growth factor-Delta-like 4 ligand/Notch4-ephrin B2 cascade in tumor vessel remodeling and endothelial cell functions.

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