Fig. 2.

Schematic model of the relationship between loss-of function of a CCM protein and major phenotypes associated with CCM disease—Toward a unifying mechanistic scenario for CCM disease pathogenesis and treatment.

CCM proteins play pleiotropic roles in distinct redox-sensitive pathways by modulating the fine-tuned crosstalk between redox signaling and autophagy. Effective autophagy removes ROS-generating cellular trash, including damaged mitochondria, to rejuvenate cell environment, thus serving a cytoprotective function for the maintenance of endothelial cell monolayer integrity and functionality and BBB stability even under adverse stress conditions. Loss-of-function of a CCM protein causes defective autophagy and altered redox signaling, affecting BBB stability and sensitizing endothelial cells to local oxidative stress and inflammatory events, which may act as key pathogenic determinants of focal formation and progression of CCM lesions. The common capacity to modulate the interplay between autophagy and redox signaling reconciles the distinct pharmacological approaches proposed so far for CCM disease prevention and treatment.