Development of Molecular Therapies for Venous Malformations

Vascular anomalies are localized defects of morphogenesis that can affect lymphatic and blood vessels. They are generally called birthmarks, typically observed soon after birth and occurring in up to 10% of children. Based on their clinical and histological characteristics, they are classified into vascular tumours and vascular malformations. The most common malformations are venous malformations ( VM s) resulting in chronic vascular diseases that can be associated with significant morbidity necessitating often demanding and repeating clinical management. The current treatment is based on surgical resection and sclerotherapy, which can be impossible due to the size or location of lesions or ineffective due to the regrowth of malformed vessels. Therefore, medical therapies for VM s are highly desired. Recent studies have identified genetic defects that result in the constantly active endothelial cell receptor tyrosine kinase TIE 2/phosphoinositide 3 ‐ kinase PI 3K signalling pathway as a frequent cause for VM s. The first treatment to inhibit this pathway with sirolimus indicated that molecular treatment can be effective against VM s. In addition, certain VM ‘hotspot’ mutations have been previously found in tumours, providing the rationale for the exploration and repurposing of existing and investigational cancer drugs for VM s. Finally, discoveries of molecular and cellular abnormalities that characterize a large proportion of VM s and the generation of pre‐clinical VM mouse models provide the necessary basis for the development of the targeted molecular treatment strategies we discuss in this MiniReview.