The lymphatic system is essential in mediating tissue fluid homeostasis and intestinal lipid uptake. Importantly, lymphatic dysfunction positively correlates with body-mass index in morbidly obese patients accentuating the importance of the lymphatic system in maintaining metabolic homeostasis. In support, mice lacking one allele of Prox1 (a master regulator of lymphatic differentiation) develop adult onset obesity due to defective lymphatic vessels. How dysfunctional lymphatics aggravates metabolic syndrome, and conversely, how obesity impairs lymphatic function are poorly understood but highly medical relevant questions. This is highlighted by the fact that obese breast cancer patients undergoing lymphadenectomy are 3.6 times more prone to develop secondary lymphedema than non-obese breast cancer patients. Our long-term goal is to uncover molecular mechanisms governing lymphatic vascular function in health and disease and to identify critical regulators in hopes of offering potential new therapeutic targets to combat devastating metabolic disorders. We have identified two molecules that cooperatively regulate the pro-lymphangiogenic VEGFR3 signaling pathway. Using novel mouse models, we will determine whether manipulating these molecules will enhance the repair and regenerative response of lymphatic vessels after challenges such as lymphadenectomy and high fat diet. We will use sensitive imaging approaches and clinically relevant mouse models to address our questions. Specifically, we will determine molecular mechanism by which Foxc2 regulates lymphatic function in adult mice and define the regulatory machinery controlling the expression of Foxc2 and epsin in lymphatic endothelial cells. Finally, we will test the therapeutic potential of targeting Foxc2 or epsin in lymphatic dysfunctions. In summary, our findings could translate into innovative approaches to treat lymphatic dysfunctions and metabolic disorders.

Public Health Relevance

The lymphatic system is essential in mediating tissue fluid homeostasis and intestinal lipid uptake; a positive correlation of lymphatic dysfunction with body-mass index in morbidly obese patients accentuates the importance of the lymphatic system in maintaining metabolic homeostasis. How dysfunctional lymphatics aggravates metabolic syndrome, and conversely, how obesity impairs lymphatic function are poorly understood but highly medically relevant questions. In current application, we will determine how the pro-lymphangiogenic VEGFR3 signaling pathway could be manipulated to enhance the repair and regenerative response of lymphatic vessels, which will enable new approaches to treat secondary lymphedema and obesity. Thus, our work is relevant to NIH?s mission to reduce the burdens of human disease.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL133216-04
Application #
9718263
Study Section
Vascular Cell and Molecular Biology Study Section (VCMB)
Program Officer
Gao, Yunling
Project Start
2016-07-05
Project End
2021-05-31
Budget Start
2019-06-01
Budget End
2021-05-31
Support Year
4
Fiscal Year
2019
Total Cost
Indirect Cost
Name
Boston Children's Hospital
Department
Type
DUNS #
076593722
City
Boston
State
MA
Country
United States
Zip Code
02115
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