Research

UK Researcher a Force in the Fight Against Lyme Disease

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Research led by Brian Stevenson, Ph.D., could lead to new ways to treat and diagnose Lyme disease. Pete Comparoni | UK Photo
Members of Stevenson’s lab include (left to right) graduate students Andrew Krusenstjerna, Nerina Jusufovic, Tatiana Castro Padovani, research analyst Timothy Saylor and Brian Stevenson. Pete Comparoni | UK Photo
A new study will build upon Brian Stevenson's three decades of research aimed at understanding the bacteria that causes Lyme disease. Pete Comparoni | UK Photo

LEXINGTON, Ky. (Aug. 20, 2021) — At a time when incidence of Lyme disease is rising across the U.S., a study led by University of Kentucky College of Medicine researcher Brian Stevenson, Ph.D., may provide a significant impact in the fight against the disease.

A new study will build upon Stevenson's three decades of research aimed at understanding Borrelia burgdorferi, the bacteria that causes Lyme disease.

The professor in the UK Department of Microbiology, Immunology and Molecular Genetics received $3.4 million from the National Institute of Allergy and Infectious Diseases (NIAID) to reveal how the bacteria transmits from ticks and infects humans, which could lead to new ways to treat and diagnose the disease.

Lyme disease is transmitted to humans through the bite of infected blacklegged ticks. Roughly 476,000 Americans are diagnosed each year, according to the Centers for Disease Control and Prevention. Every year, Lyme disease costs the U.S. health care system more than $1.3 billion in direct medical costs. In addition to its large burden of illness, areas where Lyme disease is common are expanding.

While infected ticks carry the bacteria, it only causes disease in mammals. Stevenson’s goal is to understand how B. burgdorferi “knows” when it is in a tick versus a human host.

“If we can understand how the bacteria senses its environment and responds in a way that permits human infection, we can develop treatments that trick the bacteria into ‘thinking’ it is inside a tick instead of a human,” Stevenson said. “The bacteria would then stop doing what is needed to cause human infection, which will make it easier for the patient’s immune system to kill the bacteria.”

Stevenson’s lab recently identified three different proteins that B. burgdorferi produces, depending on the stage of transmission or infection. His team is now examining the role of the proteins in how it identifies a host and “knows” when to infect it. 

“How do they know to move from the gut of a tick to its salivary glands in order to infect the host? Once they have infected a host, how do they recognize another tick feeding on that animal in order to colonize it?” Stevenson said. “There are many questions and the answers will have some pretty broad reaching impact beyond Lyme disease.”

Some of the regulatory proteins Stevenson’s lab has discovered in B. burgdorferi are produced by other bacterial species, so their research will add to the understanding of other pathogens and diseases.

Stevenson’s team will also be examining how the bacteria undergoes adaptations to cause long-term infections that cause significant problems for Lyme disease patients, who may require extensive periods of antibiotic treatment.

Stevenson says it is understood that B. burgdorferi can manipulate a host's immune systems to suppress the appropriate immune response. Finding out how it does this will also add to the knowledge of how some pathogens cause long-term infection, which could have a broad impact on many other diseases.

“The most fascinating thing about any human disease is not how we respond — it’s how does the disease get our immune systems to not respond effectively?” Stevenson said. “That’s a key question with Lyme disease and a number of other infectious diseases as well as conditions including autoimmune disease.”

Thirty years ago, Stevenson was part of a research team that discovered the first example of gene regulation in B. burgdorferi. As his team uncovers more, scientists are one step closer to improving cures for Lyme disease.

With tick-borne disease on the rise across the nation, there has been a recent push to increase investment in diagnostics and research to help the nearly half a million Americans affected by Lyme disease every year. Stevenson serves additional roles in the ramped-up efforts with recent appointments to the U.S. Congressionally Directed Medical Research Program in Tick-Borne Diseases and the U.S. Department of Health and Human Services' Tick-Borne Disease Working Group.

Stevenson has been on the faculty at UK since 1998 and his work studying Lyme disease extends across UK’s campus. He has a joint appointment with the College of Agriculture Food, and Environment’s Department of Entomology and is working on an ongoing project with the department to survey the state of Kentucky for tick species.

The two NIAID grants, which began last year, include a $3 million R01 grant over four years and a $400,000 R21 grant over two years.

Research reported in this publication was supported by the National Institute of Allergy and Infectious Diseases of the National Institutes of Health under Award Numbers R21AI147139 and R01AI144126. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. 

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