A groundbreaking genetic analysis of Lyme disease bacteria has paved the way for more accurate diagnostics, treatments, and vaccines.
By sequencing the genomes of 47 strains, researchers can now identify specific bacteria that cause the disease, allowing for more targeted interventions.
Mapping the Genetic Landscape of Lyme Disease
A genetic analysis of Lyme disease bacteria may pave the way for improved diagnosis, treatment, and prevention of the tick-borne ailment.
By mapping the complete genetic makeup of 47 strains of Lyme disease-causing bacteria from around the world, the international team has created a powerful resource for identifying the specific bacterial strains that infect patients. Researchers said this could enable more accurate diagnostic tests and treatments tailored to the exact type or types of bacteria causing each patient’s illness.
“This comprehensive, high-quality sequencing investigation of Lyme disease and related bacteria provides the foundation to propel the field forward,” said Steven Schutzer, a Rutgers New Jersey Medical School professor and coauthor of the study published in mBio. “Every modern research project — from clinical to public health to ecology and evolution to bacterial physiology to medical-tool development to host-bacteria interaction — will benefit from this work.
Unveiling the Evolution of Lyme Disease Bacteria
Researchers said the genetic information uncovered in this study — which explains how the bacteria evolves and spreads and the genes are essential for survival — may help scientists develop more effective vaccines against Lyme disease.
Lyme disease is the most prevalent tick-borne illness in North America and Europe, impacting hundreds of thousands of people annually. This disease is caused by bacteria from the Borrelia burgdorferi sensu lato group, which are transmitted to humans through the bite of infected ticks. Symptoms often include fever, headache, fatigue, and a distinctive skin rash. Without treatment, the infection can progress, leading to more serious complications affecting the joints, heart, and nervous system.
Case numbers are increasing steadily, with 476,000 new cases each year in the US, and may grow faster with climate change, according to the researchers.
Sequencing the Genomes of Lyme Bacteria
The research team sequenced the complete genomes of Lyme disease bacteria representing all 23 known DOI: 10.1128/mbio.01749-24
Other scientists among the study’s 20 authors were Claire Fraser and Emmanuel Mongodin of the