Dangerous tick-borne bacterium extremely rare in New Jersey

June 25, 2020

There's some good news in New Jersey about a potentially deadly tick-borne bacterium. Rutgers researchers examined more than 3,000 ticks in the Garden State and found only one carrying Rickettsia rickettsii, the bacterium that causes Rocky Mountain spotted fever.

But cases of tick-borne spotted fevers have increased east of the Mississippi River, and more research is needed to understand why, according to a study in The American Journal of Tropical Medicine and Hygiene.

Rocky Mountain spotted fever from infection with Rickettsia rickettsii can involve blood vessel damage, gangrene and organ failure. It was rare in the United States and limited to the Mountain states until the beginning of this century. Since then, the mid-Atlantic states have seen a steep increase in spotted fever cases that are associated with a lower risk of severe illness and death - a puzzling and unexplained phenomenon.

In the past decade, New Jersey has reported between 42 and 144 cases of spotted fever a year, but it is unclear which, if any, involved the dangerous Rickettsia rickettsii since current blood tests for spotted fever do not distinguish between different kinds of Rickettsia bacteria.

"CDC researchers recently found that the invasive Asian longhorned tick, like the American dog tick and lone star tick, is an efficient vector of Rickettsia rickettsii in the lab," said senior author Dina M. Fonseca, a professor and director of the Center for Vector Biology in the Department of Entomology in the School of Environmental and Biological Sciences at Rutgers University-New Brunswick. "The Asian longhorned tick, which was first detected in the U.S. by Rutgers Center for Vector Biology researchers, is now very abundant in some New Jersey counties. And while this tick species has not been found infected with any human pathogens in the U.S. so far, this raised concerns. Our finding of the rarity of Rickettsia rickettsii in New Jersey is good news, but we can't let our guard down."

Rutgers researchers looked for the pathogen in two separate studies. The latest one, published this week, included 805 ticks collected statewide during a 2018 Tick Blitz and 394 ticks collected from 2013 to 2018. It found no evidence of the pathogen. The other study, published this year, involved 1,858 ticks collected in Monmouth County in 2018 and found Rickettsia rickettsii in one.

"We do not rule out that cases of Rocky Mountain spotted fever may occur in New Jersey since the deadly bacteria have been detected in New Jersey ticks. However, our results indicate that most cases of spotted fevers in New Jersey are likely caused by other Rickettsia bacteria," said Jim Occi, a Rutgers doctoral student who was the lead author of the statewide study.

The Monmouth County study was led by Andrea M. Egizi, a visiting professor in the Department of Entomology at Rutgers who earned a doctorate at Rutgers, and is a research scientist with the Monmouth County Tick-borne Diseases Laboratory hosted by the Rutgers Center for Vector Biology.

Rutgers Center for Vector Biology researchers reviewed studies from neighboring states and, in New Jersey, developed statewide surveillance of Rickettsia pathogens in the American dog tick and the lone star tick, the two tick species thought to be the primary vectors. The surveillance confirmed the increased distribution and abundance of lone star ticks across the Garden State.
Coauthors of the statewide study include Egizi and Ashley Goncalves, a Rutgers graduate.

Rutgers University

Related Bacterium Articles from Brightsurf:

Root bacterium to fight Alzheimer's
A bacterium found among the soil close to roots of ginseng plants could provide a new approach for the treatment of Alzheimer's.

Tuberculosis bacterium uses sluice to import vitamins
A transport protein that is used by the human pathogen Mycobacterium tuberculosis to import vitamin B12 turns out to be very different from other transport proteins.

Bacterium makes complex loops
A scientific team from the Biosciences and Biotechnology Institute of Aix-Marseille in Saint-Paul lez Durance, in collaboration with researchers from the Max Planck Institute of Colloids and Interfaces in Potsdam and the University of Göttingen, determined the trajectory and swimming speed of the magnetotactic bacterium Magnetococcus marinus, known to move rapidly.

Researchers show how opportunistic bacterium defeats competitors
The researchers discovered that Stenotrophomonas maltophilia uses a secretion system that produces a cocktail of toxins and injects them into other microorganisms with which it competes for space and food.

Genetic typing of a bacterium with biotechnological potential
Researchers at Kanazawa University describe in Scientific Reports the genetic typing of the bacterium Pseudomonas putida.

How the strep bacterium hides from the immune system
A bacterial pathogen that causes strep throat and other illnesses cloaks itself in fragments of red blood cells to evade detection by the host immune system, according to a study publishing December 3 in the journal Cell Reports.

The cholera bacterium can steal up to 150 genes in one go
EPFL scientists have discovered that predatory bacteria like the cholera pathogen can steal up to 150 genes in one go from their neighbors.

Exploiting green tides thanks to a marine bacterium
Ulvan is the principal component of Ulva or 'sea lettuce' which causes algal blooms (green tides).

The cholera bacterium's 3-in-1 toolkit for life in the ocean
The cholera bacterium uses a grappling hook-like appendage to take up DNA, bind to nutritious surfaces and recognize 'family' members, EPFL scientists have found.

Excellent catering: How a bacterium feeds an entire flatworm
In the sandy bottom of warm coastal waters lives Paracatenula -- a small worm that has neither mouth, nor gut.

Read More: Bacterium News and Bacterium Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.