Characterization of lymphatic malformations using primary cells and tissue transcriptomes.

ABSTRACT

Lymphatic malformations (LMs) are disfiguring congenital anomalies characterized by aberrant growth of lymphatic vessels. They are broadly categorized histopathologically as macrocystic and microcystic. Although sclerotherapy has shown some success in the treatment of macrocystic malformations, there has been less progress with developing treatment strategies for microcystic malformations. In this study, we characterized lymphatic endothelial cells isolated from lymphatic and lymphaticovenous malformations. When compared to cells from normal lymphatic vessels, we found that the primary cultured malformed cells are morphologically different and also exhibited differences in binding, proliferation, migration and tube formation. Transcriptome analysis identified several genes whose expression was substantially higher in malformed compared to normal lymphatic endothelium, including DIRAS3 and FOXF1. Further analysis of LM tissue samples revealed distinguishing gene expression patterns that could pave the way to understanding the molecular pathogenesis of LMs. Based on gene expression signatures, we propose a new hypothesis that the subtype of localized LMs could be formed because of disruptions in lymph node development.