The Centers for Disease Control and Prevention (CDC), in collaboration with Mayo Clinic and health officials from Minnesota, Wisconsin, and North Dakota, have reported the discovery of a new species of bacteria, Borrelia mayonii, which causes Lyme disease in people. Until now, Borrelia burgdorferi was the only species believed to cause Lyme disease in North America.

Scientists at the Mayo Clinic, Rochester, Minn, first suspected the possibility of new bacteria after lab tests from six people with suspected Lyme disease produced unusual results, according to the findings published recently in Lancet Infectious Diseases.1 Additional genetic testing at the Mayo Clinic and CDC found that the bacteria, provisionally named Borrelia mayonii, is closely related to B. burgdorferi.

Jeannine Petersen, PhD, Centers for Disease Control and Prevention.

Jeannine Petersen, PhD, Centers for Disease Control and Prevention.

“This discovery adds another important piece of information to the complex picture of tickborne diseases in the United States,” says Jeannine Petersen, PhD, microbiologist at CDC.

Limited information from the first six patients suggests that illness caused by B. mayonii is similar to that caused by B. burgdorferi, but with a few possible differences. Like B. burgdorferi, B. mayonii causes fever, headache, rash, and neck pain in the early stages of infection (days after exposure) and arthritis in later stages of infection (weeks after exposure). Unlike B. burgdorferi, however, B. mayonii is associated with nausea and vomiting, diffuse rashes (rather than a single so-called “bull’s-eye” rash), and a higher concentration of bacteria in the blood.

The researchers believe that, like B. burgdorferi, B. mayonii is transmitted to humans by the bite of an infected blacklegged (or “deer”) tick. B. mayonii has been identified in blacklegged ticks collected in at least two counties in northwestern Wisconsin. The likely exposure sites for the patients described in Lancet Infectious Diseases are in north central Minnesota and western Wisconsin. It is highly likely, however, that infected ticks are found throughout both states.

The newly recognized species was discovered when six of approximately 9,000 samples drawn from residents of Minnesota, Wisconsin, and North Dakota with suspected Lyme disease between 2012 and 2014 were found to contain bacteria that were genetically distinct from B. burgdorferi. Scientists analyzed the DNA sequences of these bacteria and found that they belonged to a previously unrecognized Borrelia species. CDC also tested blood from two of the patients by culture, whereby the organism is grown in the laboratory.

To date, the evidence suggests that the distribution of B. mayonii is limited to the upper midwestern United States. The new species was not identified in any of the approximately 25,000 blood samples from residents of 43 other states with suspected tickborne disease taken during the same period, including states in the Northeast and Mid-Atlantic regions, where Lyme disease is common.

Results from the cases described in the Lancet Infectious Diseases report suggest that patients infected with B. mayonii will test positive for Lyme disease with currently available FDA-cleared Lyme disease tests. Specific identification of the organism can be made by using polymerase chain reaction assays, which detect the DNA of the Lyme disease bacteria. In some instances, B. mayonii bacteria may also be seen on a blood smear.

Patients were treated successfully with antibiotics commonly used to treat Lyme disease caused by B. burgdorferi. CDC recommends that healthcare providers who treat people infected with B. mayonii follow the antibiotic regimen described by the Infectious Diseases Society of America.2,3

CDC is working closely with state health departments in Minnesota, North Dakota, and Wisconsin to better understand B. mayonii and to plan future investigations, including better descriptions about the clinical aspects of the illness and the geographic extent of the infected ticks.

To further support advances in the detection and discovery of tickborne diseases, CDC in 2015 funded a 3-year partnership with the Minnesota Department of Health, Mayo Clinic, Tennessee Department of Health, and Vanderbilt University to collect up to 30,000 clinical specimens from patients with suspected tickborne illness. CDC will use advanced molecular detection methods, including metagenomics screening and whole genome sequencing, to test the specimens for other bacteria that cause tickborne illness.

“CDC is investing in advanced technology to bring study of tickborne infections into a new era,” says Ben Beard, PhD, chief of the bacterial diseases branch at CDC. “Coupling technology with teamwork between federal, state, and private entities will help improve early and accurate diagnosis of tickborne diseases.”

For more information, visit CDC.

REFERENCES

  1. Wilhelmsson P, and Lindgren PE. Detection of a novel Lyme borreliosis pathogen. Lancet Infect Dis. 2016. Published online in advance, February 5, 2016; doi: 10.1016/S14733099(15)00483-1.
  1. Updated guidelines on diagnosis, treatment of Lyme disease [online]. Arlington, VA: Infectious Diseases Society of America, 2006. Available at: www.idsociety.org/updated_guidelines_on_diagnosis_treatment_of_lyme_disease. Accessed February 15, 2016.
  1. Wormser GP, Dattwyler RJ, Shapiro ED, et al. The clinical assessment, treatment, and prevention of Lyme disease, human granulocytic anaplasmosis, and babesiosis: clinical practice guidelines by the Infectious Diseases Society of America. Clin Infect Dis. 2006;43(9):1089–1134; doi: 10.1086/508667. Accessed February 15, 2016.