RASA1 functions in EPHB4 signaling pathway to suppress endothelial mTORC1 activity
Jun Kawasaki, … , Steven J. Fishman, Joanne Chan
Jun Kawasaki, … , Steven J. Fishman, Joanne Chan
Published May 16, 2014
Citation Information: J Clin Invest. 2014;124(6):2774-2784. https://doi.org/10.1172/JCI67084.
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Research Article Vascular biology

RASA1 functions in EPHB4 signaling pathway to suppress endothelial mTORC1 activity

Abstract

Vascular malformations are linked to mutations in RAS p21 protein activator 1 (RASA1, also known as p120RasGAP); however, due to the global expression of this gene, it is unclear how these mutations specifically affect the vasculature. Here, we tested the hypothesis that RASA1 performs a critical effector function downstream of the endothelial receptor EPHB4. In zebrafish models, we found that either RASA1 or EPHB4 deficiency induced strikingly similar abnormalities in blood vessel formation and function. Expression of WT EPHB4 receptor or engineered receptors with altered RASA1 binding revealed that the ability of EPHB4 to recruit RASA1 is required to restore blood flow in EPHB4-deficient animals. Analysis of EPHB4-deficient zebrafish tissue lysates revealed that mTORC1 is robustly overactivated, and pharmacological inhibition of mTORC1 in these animals rescued both vessel structure and function. Furthermore, overexpression of mTORC1 in endothelial cells exacerbated vascular phenotypes in animals with reduced EPHB4 or RASA1, suggesting a functional EPHB4/RASA1/mTORC1 signaling axis in endothelial cells. Tissue samples from patients with arteriovenous malformations displayed strong endothelial phospho-S6 staining, indicating increased mTORC1 activity. These results indicate that deregulation of EPHB4/RASA1/mTORC1 signaling in endothelial cells promotes vascular malformation and suggest that mTORC1 inhibitors, many of which are approved for the treatment of certain cancers, should be further explored as a potential strategy to treat patients with vascular malformations.

Authors

Jun Kawasaki, Sandrine Aegerter, R. Dawn Fevurly, Akiko Mammoto, Tadanori Mammoto, Mustafa Sahin, John D. Mably, Steven J. Fishman, Joanne Chan

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Figure 1

Reduced RASA1 function in zebrafish causes cell death and caudal vessel defect.

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Reduced RASA1 function in zebrafish causes cell death and caudal vessel ...
(AE) Acridine orange staining (cell death, particularly in the dotted boxed area) at 24 hpf on control (A) or rasa1a MO–injected (B) embryos. Higher magnification of hindbrain regions is boxed in white (control; C) or yellow (rasa1a MO and rasa1b MO; D and E). Similar hindbrain cell death was observed in rasa1b MO, as seen in rasa1a MO. (FI) The rasa1a MO (750 μM) was injected in Tg(fli1:egfp)y1 to visualize endothelial cells at 48 hpf. Higher magnification of the caudal vessels of control (F) and rasa1a morphant (H) is shown in G and I, respectively. Dotted arrow indicates blood flow; yellow arrow indicates point of blood flow return. Scale bars: 500 μm (A, B, F, and H), 100 μm (CE, G, and I).