Vector-borne Disease Skin’s Immune Defence May Hold the Secret to Defeating Dengue: Study

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A new study has revealed that during a dengue virus infection, T-cell responses are concentrated in the skin compared to the blood. It also found that patients with milder illness had more cytotoxic T cells in the skin and blood than those needing hospital admission, linking these cells, which kill virus-infected cells, to protective immunity.

Bristol/UK – Dengue, a mosquito-borne viral disease, infects an estimated 390 million people and causes around 20,000 deaths worldwide each year. New research suggests the skin is a major site of immune surveillance for dengue. The findings could help in the development of more effective dengue vaccines.

The study, led by the University of Bristol in partnership with Duke-NUS Medical School, Singapore, has discovered that during dengue virus infection, T-cell responses are concentrated in the skin compared to the blood.

The research, published in Science Advances, found that patients with milder illness had more cytotoxic T cells in the skin and blood than those needing hospital admission, linking these cells, which kill virus-infected cells, to protective immunity.

The research team studied immune cells called T cells in the skin and blood of 73 people with dengue and 10 healthy volunteers. They found during dengue infection, the skin contains many more active T cells, including both CD4+ and CD8+ T cells, than the blood. These skin-based CD8+ T cells showed signs that they were becoming long‑lasting “resident” immune cells that stay in the tissue and provide a first-line defense upon reinfection.

People who avoided hospital admission had higher levels of CD8+ T cells in both their skin and blood, suggesting these cells could help protect against more severe illness. The findings highlight the potential benefit of vaccines that could boost these skin‑resident T cells to improve protection against dengue.

Dr. Laura Rivino, Associate Professor in Immunology in the School of Cellular and Molecular Medicine at the University of Bristol, and corresponding author, said: “As dengue spreads worldwide, there is an urgent need to identify the immune responses that protect against infection and severe disease. Infection begins in the skin after a mosquito bite, yet we still know relatively little about the body’s immune response at this site.

“Our research has found T cell responses to dengue virus are concentrated in the skin rather than the blood, identifying the skin as an important site of immune surveillance. The findings could have significant implications for vaccination, and eliciting dengue-specific skin-resident CD8+ T cells could improve vaccine effectiveness.”

By analyzing the unique “fingerprints” of T cells, the research found early evidence that the same types of T cells can be present in both the skin and the blood. This could mean they come from a common source, or that they move back and forth between these two areas.

More research is needed to understand this fully, but the study’s findings could help guide future therapies designed to boost protective T cells in tissues where they are most needed.

In a previous study the research team showed, for the first time in dengue virus infection, that blood T cells activated during dengue infection express an “address code” for the skin tissue. They display proteins on their surface called skin-homing receptors that are expressed because of the T cell being activated in the skin tissue, and which will guide them back to the skin after they recirculate in the blood searching for dengue-infected cells.

Paper: ‘Dengue infection elicits skin tissue-resident and circulating CD8+ T cells associated with protection from hospitalisation’ by Noor Zayanah Hamis, Michaela Gregorova, Laura Rivino et al. in Sciences Advances

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