Deadly airborne fungus in Oregon set to spread
The new, rare strain has killed 1 in 4 infected, researchers say
By Charles Q. Choiupdated 5:12 p.m. CT, Thurs., April 22, 2010
"It's in the environment, and we're exposed to the environment," researcher Edmond Byrnes III of Duke University Medical Center toldLiveScience. "And the environmental range of this has been expanding."
Potential to spread
While scientists aren't sure how the highly infectious or virulent fungus emerged in Oregon, they caution the new strain now looks set to expand to California and other neighboring areas.
Symptoms can appear two or more months after exposure. Most people never develop symptoms, but those infected may have a cough lasting weeks, sharp chest pain, shortness of breath, headache related to meningitis, fever, nighttime sweats and weight loss. In animals the symptoms are a runny nose, breathing problems, nervous system problems and raised bumps under the skin.
Treatment requires months to years of antifungal medications, and even surgery to remove the large masses of the fungus known as cryptococcomas that can develop in the body. So far it cannot be prevented, as there is no vaccine.
The fungus C. gattii was originally linked with eucalyptus trees in tropical and subtropical climates. It first caused an outbreak in temperate climes on Vancouver Island in 1999 that has now spread into Washington and Oregon, where it infects local trees. This earlier strain, VGIIa/major, has killed nearly 9 percent of 218 patients.
After comparing the genes of the new VGIIc strain from Oregon with others, researchers suggest the new strain most likely arose recently, parallel to the outbreak that began on Vancouver Island. So far it has killed five out of 21 patients analyzed in the United States, a nearly 25 percent mortality rate. Lab studies with immune cells and with live mice revealed it is extremely virulent — that is, it can cause severe disease.
Determining the exact origin of the VGIIc strain has proven difficult. Investigations so far have failed to find it in Oregon soil, water or trees. It may have arrived from abroad or originated locally, researchers said.
Because this fungus had been confined to the tropics until now, researcher Wenjun Li at Duke University speculated that environmental changes might be responsible for the evolution and emergence of these new strains.
"We are trying to put together the evolutionary story of where these types come from by closely studying the genetics of all samples possible," explained researcher Yonathan Lewit at Duke University Medical Center.
It remains uncertain why VGIIc and VGIIa/major are more virulent than other strains. One possibility, given how this fungus can reproduce sexually, new hypervirulent combinations of genes emerged due to sex. The researchers also noted that cell components known as mitochondria in these strains could adopt a distinctive tube shape. Since mitochondria help generate energy in cells, it is possible these strains are more energetic, "but that's just speculation right now," Byrnes said.
When it comes to a public response to outbreaks of these strains, "public health officials in that area have formed a working group with state epidemiologists from all those states in the Pacific Northwest," Byrnes noted. "It's important that public awareness expand on this."
The scientists detailed their findings online April 22 in the journal PLoS Pathogens.