Abstract
The lymphatic system comprises a network of lymphoid tissues and vessels that drains the extracellular compartment of most tissues. During tumor development, lymphatic endothelial cells (LECs) substantially expand in response to VEGFR-3 engagement by VEGF-C produced in the tumor microenvironment, a process known as tumor-associated lymphangiogenesis. Lymphatic drainage from the tumor to the draining lymph nodes consequently increases, powering interstitial flow in the tumor stroma. The ability of a tumor to induce and activate lymphatic growth has been positively correlated with metastasis. Much effort has been made to identify genes responsible for tumor-associated lymphangiogenesis. Inhibition of lymphangiogenesis with soluble VEGFR-3 or with specific monoclonal antibodies decreases tumor spread to LNs in rodent models. Importantly, tumor-associated lymphatics do not only operate as tumor cell transporters but also play critical roles in anti-tumor immunity. Therefore, metastatic as well as primary tumor progression can be affected by manipulating tumor-associated lymphatic remodeling or function. Here, we review and discuss our current knowledge on the contribution of LECs immersed in the tumor microenvironment as immunoregulators, as well as a possible functional remodeling of LECs subsets depending on the organ microenvironment.
Highlights
Over the last few years, immunotherapy has evolved into a very promising new approach for fighting tumor progression
Several observations highlight a new role for lymphatics in promoting tumor development, suggesting that lymphatic endothelium in the local microenvironment may be a novel target for immunomodulation
In agreement with these hypotheses, a recent publication demonstrated that following exposure to tumor derived factors, fibroblastic reticular cells (FRCs) of the tumor draining lymph nodes (LNs) undergo multiple changes to convert into a immunosuppressive phenotype, such as decreased production of IL-7 and CCL19/21 [107]
Summary
Over the last few years, immunotherapy has evolved into a very promising new approach for fighting tumor progression. The proliferation, migration and survival of LECs depend mainly on VEGFR2/3 signaling axis, which is driven by VEGFC and VEGF-D (Vascular Endothelial Growth Factors –C and –D) [53, 54] produced by many different cell types, including tumor cells and immune cells.
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