The debilitating condition known as secondary lymphedema frequently occurs after lymphadenectomy and/or radiotherapy for the treatment of cancer. These therapies can damage lymphatic vessels leading to edema, fibrosis, inflammation and dysregulated adipogenesis, which result in profound swelling of an affected limb. Importantly, lymphedema patients often exhibit impaired immune function which predisposes them to a variety of infections. It is known that lymphadenectomy can compromise the acquisition of adaptive immune responses and antibody production; however the cellular mechanisms involved are poorly understood. Here we discuss recent progress in revealing the cellular and molecular mechanisms underlying poor immune function in secondary lymphedema, which has indicated a key role for regulatory T cells in immunosuppression in this disease. Furthermore, the interaction of CD4+ T cells and macrophages has been shown to play a role in driving proliferation of lymphatic endothelial cells and aberrant lymphangiogenesis, which contribute to interstitial fluid accumulation in lymphedema. These new insights into the interplay between lymphatic vessels and the immune system in lymphedema will likely provide opportunities for novel therapeutic approaches designed to improve clinical outcomes in this problematic disease.
The lymphatic vasculature is important for skin biology as it maintains dermal fluid homeostasis. However, the molecular determinants of the form and function of the lymphatic vasculature in skin are poorly understood. Here, we explore the role of vascular endothelial growth factor-d (Vegf-d), a lymphangiogenic glycoprotein, in determining the form and function of the dermal lymphatic network, using Vegf-d-deficient mice. Initial lymphatic vessels in adult Vegf-d-deficient mice were significantly smaller than wild-type but collecting lymphatics were unaltered. The uptake/transport of dextran in initial lymphatics of Vegf-d-deficient mice was far less efficient, indicating compromised function of these vessels. The role of Vegf-d in modulating initial lymphatics was further supported by delivery of Vegf-d in skin of wild-type mice, which promoted enlargement of these vessels. Vegf-d-deficient mice were subjected to cutaneous wounding to challenge lymphatic function: the resulting wound epithelium was highly edematous and thicker, reflecting inadequate lymphatic drainage. Unexpectedly, myofibroblasts were more abundant in Vegf-d-deficient wounds leading to faster wound closure, but resorption of granulation tissue was compromised suggesting poorer-quality healing. Our findings demonstrate that Vegf-d deficiency alters the caliber of initial lymphatics in the dermis leading to reduced functional capacity.
Accurate lymphatic distribution within the lower extremity has been described. This information upgrades our anatomical knowledge, and the results will be of benefit for clinical management.
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