New Findings Cast Light on Lymphatic system, Key Player in Human Health
News Oct 17, 2018 | Original story by the Oklahoma Medical Research Foundation
Credit: Cancer Research UK / Wikimedia Commons
Scientists at the Oklahoma Medical Research Foundation have broken new ground in understanding how the lymphatic system works, potentially opening the door for future therapies.
The lymphatic system is a network of vessels and lymph nodes that spans the entire body. It is critical for good health and for the body to function properly. Defects in lymphatic vessels cause lymphedema, a disease characterized by dramatic and painful swelling in the limbs that often leads to infections.
Lymphedema can result from congenital mutations, surgery, radiation treatment for cancer or infection, and there is currently no cure. In addition to lymphedema, defects in the lymphatic system have been linked to a wide range of health consequences: cancer, atherosclerosis, Alzheimer’s disease and obesity.
Sathish Srinivasan, Ph.D., and Boksik Cha, Ph.D., at OMRF previously discovered that a particular pathway—known as the Wnt signaling pathway—regulates the development of the human lymphatic vascular system. In new research, published in the journal Cell Reports, they’ve found “the nuts and bolts of this important pathway.”
“We have identified the signaling molecules that activate this pathway,” said Srinivasan. “We also have learned which cells produce the signaling molecules, how they are sensed by the cells and how they are used in lymphatic development.”
Srinivasan was recruited to OMRF from St. Jude’s Children’s Research Hospital in 2013. His lab at OMRF has already identified several target genes for lymphedema. Srinivasan said that, after further study, this new information could eventually help researchers develop better therapeutic options for lymphedema and associated disorders.
“This signaling pathway has proved difficult to study, because it is complex and so little is known about how it functions normally, let alone when it goes wrong,” said Srinivasan. “Wnt signaling is aggravated and increased in breast cancer and colon cancer, but it is deregulated in diseases like Alzheimer’s and lymphedema.”
Srinivasan said drug companies are interested in finding molecules that can be targeted, either to promote or inhibit Wnt signaling, depending on the disease. “Our goal is to find whether such drugs could be used to treat humans with lymphedema and see if their disease can be managed, made less severe or even cured,” he said.
This article has been republished from materials provided by the Oklahoma Medical Research Foundation. Note: material may have been edited for length and content. For further information, please contact the cited source.