Using a seaweed sugar to trigger immune responses that suppress melanomas

Using a seaweed sugar to trigger immune responses that suppress melanomas


Immunotherapies have improved outcomes of many patients with cancer, including melanoma. But these therapies work for only a subset of patients. Numerous studies are looking at improving responses, including research focusing on enhancing tumor-infiltrating lymphocytes (TILs). TILs are immune cells in tumors that can recognize and attack the cancer cells but often there aren’t enough of them or they’re unable to harness a strong enough response to durably suppress tumor growth and spread.

Moffitt Cancer Center researchers, led by cancer biologist Eric Lau, Ph.D., have identified a relatively natural way to increase the numbers and antitumor activities of TILs. In a new article published in Nature Cancer, Lau’s team demonstrates how L-fucose, a nontoxic dietary plant sugar that is enriched in red and brown seaweeds, can increase TILs, promote antitumor immunity and improve the efficacy of immunotherapy.

The sugar molecule L-fucose, while found in foods, can also be made within our own cells through the breakdown and conversion of other molecules. It is important for immune and developmental processes, and abnormalities with L-fucose synthesis and usage are associated with diseases including cancer.

“Overall levels of L-fucose in melanoma cells decrease and how the cells use L-fucose changes during progression. However, we have found that raising L-fucose levels via dietary supplementation can suppress tumors, markedly increase TILs and enhance the efficacy of some immunotherapies in our animal models. In humans, higher levels of L-fucose in melanomas are associated with less aggressive disease and better responses to therapy,” said Lau, lead study author and assistant member of the Tumor Biology Department at Moffitt.

The research team wanted to determine the mechanisms underlying how L-fucose appeared to increase TILs and trigger their antitumor activity. For nearly seven years, they performed a battery of laboratory experiments and demonstrated for the first time that L-fucose can regulate interactions between CD4+T cells, a type of TIL, and melanoma cells. In mouse experiments, they found that administration of oral L-fucose increased the levels of L-fucose in tumor cells, reduced tumor growth and increased the total levels of TILs. Their studies found that of the many types of immune cells that comprise TILs, CD4+T cells play a crucial role in mediating the increase in TILs that suppress melanomas during L-fucose treatment. The researchers identified the key molecular mechanisms that contribute to L-fucose-mediated CD4+T cell antitumor activity.

“When one thinks of sugar, one often thinks of glucose or sucrose — common table sugars that our cells use for energy. Unlike those sugars, L-fucose is used by our cells not for energy but to decorate proteins to fine-tune their behavior and activity. We found that the addition of L-fucose onto the protein HLA-DRB1 causes it to be localized to the surface of melanoma cells, which triggers CD4+T cell-mediated antitumor immune cell activity,” said Lau.

In addition to decorating proteins in tumor cells, Lau’s team also found that L-fucose alters the biology and behavior of CD4+T and other immune cells, suggesting that this sugar might be used to modulate immune function. These findings have important implications for using L-fucose to enhance immunotherapies that are currently used to treat cancer patients. “So, we took our work one step further and discovered that oral L-fucose also enhances activity of immunotherapy drugs in some of our melanoma models.”

Next, the researchers looked at tumors from three independent groups of patients from three cancer centers to assess whether L-fucose levels and L-fucose-decorated HLA-DRB1 might reflect patient responsiveness to the immunotherapeutic agent anti-PD1. They found that patients who responded well to anti-PD1 therapy tended to have higher levels of both in their tumors, suggesting that these may be useful as potential biomarkers to predict responsiveness to immunotherapy.

“Our findings identify and delineate a molecular mechanism by which L-fucose regulates an important interface between melanoma and immune cells. This mechanism can be therapeutically leveraged by simply feeding L-fucose, which suggests a provocative and almost counterintuitive possibility: using sugar to fight cancer,” Lau said.

Moving forward, Lau and his team hope to translate their preclinical findings to help patients more directly and determine how much L-fucose can enhance immunotherapies, starting with a small clinical trial of melanoma patients.

Their work is supported by the National Institute of General Medical Sciences (GM061126), the National Cancer Institute (P30CA076292, K99CA172705, R00CA172705, R01CA241559), the Harry J. Lloyd Charitable Trust, and the Moffitt Foundation through a Miles for Moffitt award.



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