USA scientist receives $2.3 million grant renewal for flea pathogen research
“Our ultimate goal for this research is to make clear the biological and molecular mechanisms that are critical to rickettsial transmission by fleas so we can better understand the epidemiology of flea-borne rickettsial diseases and identify novel points of intervention,” Macaluso said.
By Casandra Andrews
candrews@health.southalabama.edu
A $2.3 million grant renewal from the National Institutes of Health will help scientist Kevin Macaluso, Ph.D., and his colleagues at the Frederick P. Whiddon College of Medicine at the University of South Alabama, ultimately improve diagnosis and treatment of diseases transmitted by fleas and other insects.
There are no vaccines available to prevent rickettsial infections and antibiotics are not recommended for prevention of such diseases.
Rickettsial infections, such as Rocky Mountain spotted fever, are bacterial diseases that can produce mild to severe, flu-like symptoms and are transmitted through the bites of arthropods such as fleas and ticks. If untreated, the toll of the disease on humans can be severe. In the United States, there are about 5,500 rickettsial infection cases reported each year to the Centers for Disease Control and Prevention. That number is likely much larger because the majority of cases typically go unreported.
Macaluso, Locke Distinguished Chair and a professor in the department of microbiology and immunology at the Whiddon College of Medicine, said the grant is essential for his lab’s continued work.
“Our ultimate goal for this research is to make clear the biological and molecular mechanisms that are critical to rickettsial transmission by fleas so we can better understand the epidemiology of flea-borne rickettsial diseases and identify novel points of intervention,” Macaluso said.
Recent discoveries, including the transmission of flea-borne pathogens in the absence of a rickettsemic host and the identification of multiple rickettsial agents co-circulating in flea populations have guided the research to determine if overlapping rickettsial agents circulating in flea populations influence the transmission one another.
The assembly of the cat flea genome, which Macaluso and other collaborators first published details about in June 2020, also allows for investigation of the flea-derived factors that facilitate or prevent Rickettsia transmission.
Rickettsia felis originally was identified in the United States as a human pathogen in 1991 and now is associated with human infection in North and South America, Europe, Africa, Asia, and Oceania.