Regeneration of lymphatic vessels is important for treatment of various disorders of lymphatic system and for restoration of lymphatic function after surgery. We have developed a method for generating a human 3D lymphatic vascular construct. In this system, human lymphatic endothelial cells, co-cultured with fibroblasts, spontaneously organized into a stable 3D lymphatic capillary network without the use of any exogenous factors. In vitro-generated lymphatic capillaries exhibited the major molecular and ultra-structural features of native, human lymphatic microvasculature: branches in the three dimensions, wide lumen, blind ends, overlapping borders, adherens and tight junctions, anchoring filaments, lack of mural cells, and poorly developed basement membrane. Furthermore, we show that fibroblast-derived VEGF-C and HGF cooperate in the formation of lymphatic vasculature by activating ERK1/2 signaling, and demonstrate distinct functions of HGF/c-Met and VEGF-C/VEGFR-3 in lymphangiogenesis. This lymphatic vascular construct is expected to facilitate studies of lymphangiogenesis in vitro and it holds promise as a strategy for regeneration of lymphatic vessels and treatment of lymphatic disorders in various conditions.
Most cancerous lesions metastasize through the lymphatic system and the status of regional lymph nodes is the most important indicator of a patient's prognosis. The extent of lymph node involvement with cancer is also an important parameter used for determining treatment options. Although the importance of the lymphatic system for metastasis has been well recognized, traditionally, the lymphatic vessels have not been considered actively involved in the metastatic process. Recent evidence, however, indicates that the activation of the lymphatic system is an important factor in tumor progression to metastasis. Tumor lymphangiogenesis has been associated with increased propensity for metastasis, and lymphatic vessel density has emerged as another promising prognostic indicator. More recently, lymphangiogenesis in the sentinel lymph nodes has been shown to contribute to malignant progression. In addition to its role as a transport system for tumor cells, the lymphatic system may also be more actively involved in metastases by directly facilitating tumor cell recruitment into the lymphatic vessels. This review highlights recent advances in our understanding of the mechanisms by which lymphatic vessels participate in metastasis.
The lymphatic system is an important pathway for tumor dissemination to the lymph nodes, but to which extent it contributes to the formation of distant metastases remains unknown. We report that induction of lymphangiogenesis by vascular endothelial growth factor-C (VEGF-C) at the secondary site, in the lung, facilitates expansion of already disseminated cancer cells throughout the lung tissue. By using orthotopic spontaneous metastasis models in nude mice, we show that VEGF-C expression by tumor cells altered the pattern of pulmonary metastases from nodular to diffuse and facilitated disease progression. Metastases expressing VEGF-C were tightly associated with the airways, in contrast to the control cells that were scattered in the lung parenchyma, throughout the alveolar region. VEGF-C induced lung lymphangiogenesis and promoted intralymphatic spread of metastases in the lung and formation of tumor emboli in the pulmonary arteries. This pattern of metastasis corresponds to lymphangitic carcinomatosis metastatic phenotype in human cancer patients, an extremely aggressive pattern of pulmonary metastases. In accordance, pulmonary breast cancer metastases from patients which were classified as lymphangitic carcinomatosis showed high levels of VEGF-C expression in cancer cells. These data show that VEGF-C promotes late steps of the metastatic process and identify the VEGF-C/VEGF receptor-3 pathway as the target not only for prevention of metastases, but also for treatment of established metastatic disease.
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