Scientists have discovered a unique mechanism that drives the spread of a deadly infection.
Cryptococcosis is a rare and deadly fungal infection that affects the lung and brain and usually only occurs in people with impaired immunity.
However, one strain of the fungus - known as the Pacific Northwest strain of Cryptococcus gattii - has gained the ability to infect otherwise healthy individuals.
Cryptococcus gattii was considered a tropical fungus primarily found in places like Brazil, New Guinea and Australia, but it was found to be the cause of the Pacific Northwest Outbreak of Cryptococcosis in the US and Canada which began in 1999 and has seen hundreds of humans and animals being infected.
The infection affects the lungs first, because it is acquired by inhaling fungal spores. In the absence of therapy, and sometimes despite it, the infection quickly spreads to the brain and other organs with often fatal consequences.
Those infected with the disease have to undergo antifungal drug therapy that can last months - but those drugs often fail to curtail the disease and instead surgery is required to remove the infection from the lungs and central nervous system.
Lead author said: "It is vital that new drugs are developed to combat this disease, and in order to do that we need to find out how the disease spreads.
"Four years ago researchers demonstrated that the high virulence of this Cryptococcosis gattii strain results from its remarkable ability to grow rapidly within human white blood cells which relies on a unique 'division of labor'.
"To achieve this, individual fungal cells must work together to coordinate their behavior, but how they do this has, up until now, been unknown."
Now researchers published in Nature Communications that this 'division of labor' can be triggered over large cellular distances and is mediated through the release of microscopic fluid-filled "bags" called extracellular vesicles.
The senior author said: "These vesicles act like 'carrier pigeons', transferring messages between the fungi and helping them to coordinate their attack on the host cell.
Isolated vesicles released by virulent strains are taken up by infected host macrophages and trafficked to the phagosome, where they trigger the rapid intracellular growth of non-outbreak fungal cells that would otherwise be eliminated by the host.
"This is a previously unknown phenomenon in infectious disease, but also provides us with a potential opportunity to develop new drugs that work by interrupting this communication route during an infection."
A new mechanism that can cause the spread of deadly infection
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