Sirolimus is efficacious in treatment for extensive and/or complex slow-flow vascular malformations: a monocentric prospective phase II study

Forty-nine specimens from a variety of vascular lesions were analyzed for cellular characteristics. Two major categories of lesions emerged from this investigation: hemangiomas and vascular malformations. This classification and its implications are justified by several considerations. Hemangiomas in the proliferating phase (n = 14) were distinguished by (1) endothelial hyperplasia with incorporation of [3H]thymidine, (2) multilaminated basement membrane formation beneath the endothelium, and (3) clinical history of rapid growth during early infancy. Hemangiomas in the involuting phase (n = 12) exhibited (1) histologic fibrosis and fat deposition, (2) low to absent [3H]thymidine labeling of endothelial cells, and (3) rapid growth and subsequent regression. The endothelium in hemangiomas had many characteristics of differentiation: Weibel-Palade bodies, alkaline phosphatase, and factor VIII production. Vascular malformations (n = 23) demonstrated no tritiated thymidine incorporation and normal ultrastructural characteristics. These lesions were usually noted at birth, grew proportionately with the child, and consisted of abnormal, often combined, capillary, arterial, venous, and lymphatic vascular elements. This cell-oriented analysis provides a simple yet comprehensive classification of vascular lesions of infancy and childhood and serves as a guide for diagnosis, management, and further research.

Vascular anomalies comprise a diverse group of diagnoses. While infantile hemangiomas are common, the majority of these conditions are quite rare and have not been widely studied. Some of these lesions, though benign, can impair vital structures, be deforming, or even become life-threatening. Vascular tumors such as kaposiform hemangioendotheliomas (KHE) and complicated vascular malformations have proven particularly difficult to treat.

Germline substitutions in the endothelial cell tyrosine kinase receptor TIE2/TEK cause a rare inherited form of venous anomalies, mucocutaneous venous malformations (VMCM)1-4. We now identified a somatic 2nd hit causing loss-of-function of the receptor in a resected VMCM. We assessed for whether such localized, tissue-specific events play a role in the etiology of the far more common sporadic VM. Eight somatic TIE2 mutations were identified in lesions from 28 out of 57 patients (49.1%), not detected in their blood or in control tissues. The somatic mutations included a frequent L914F change, and a series of double-mutations that occurred in cis, all of which show ligand-independent hyperphosphorylation in vitro. When overexpressed in HUVECs, L914F showed abnormal localization and response to ligand, differing from wild-type and the common inherited R849W mutant, suggesting they may have distinct effects. The presence of the same mutations in multifocal VMs in two patients, suggests a common origin for the abnormal endothelial cells in the distant sites. In conclusion, these data illustrate that a sporadic disease may be explained by somatic changes in a gene causing rare, inherited forms, and pinpoint TIE2 pathways as potential therapeutic targets for VM.