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Catching the blood cell bus gives fatal yeast infection a clean getaway
September 09, 2008Yeast fungus cells that kill thousands of AIDS patients every year escape detection by our bodies' defences by hiding inside our own defence cells, and hitch a ride through our systems before attacking and spreading, scientists heard today (Tuesday 9 September 2008) at the Society for General Microbiology's Autumn meeting being held this week at Trinity College, Dublin.
Cells of the Cryptococcus yeast responsible for one of the three most life-threatening infections that commonly attack HIV infected patients, causing cryptococcal meningitis, are using a previously unknown way to avoid detection, according to scientists from the University of Birmingham, UK.
"We have shown that these airborne yeast cells can hide inside our bodies' own white blood cells, called macrophages, and then use them as vehicles to travel around inside our bodies, using them just like a bus," said Miss Hansong Ma of the University of Birmingham. "The yeast cells then escape from inside the macrophages when they arrive at the right destination - but importantly, they do this without killing the macrophage, which would trigger alarm bells."
When a host's cells are invaded by bacteria, fungi or viruses the invaders usually use the opportunity to multiply inside the cells and escape by bursting out, killing the host and releasing thousands of copies of the pathogen to attack other cells. The death of the host cell releases debris and by-products which usually triggers our bodies into mounting an immune response, causing inflammation.
"This new method of remaining inside the host cells means that the pathogen can spread more efficiently round our bodies and is protected from the natural defences in our bloodstream that would normally kill the yeast or other invader," said Hansong Ma. "Yeast cells avoid killing or damaging the macrophages. They leave by a method that we call 'vomocytosis'; the yeast cells are acting like spies rather than terrorists, and go unnoticed, giving them more time to establish an infection."
Although the use of antiretroviral drugs is cutting the number of AIDS patients with Cryptococcus infections there is still a major epidemic in Southeast Asia and Africa. Up to 30% of AIDS patients there are infected, and up to 44% will die from the disease within 8 weeks. Even in the USA or European countries like France where antiretroviral drug treatments are readily available, one in ten infected patients will die.
"We badly need to better understand the interaction between hosts, viruses and attacking pathogens like the yeast fungus to help us find new drug targets and so design new ways to treat these patients," said Hansong Ma.
"We used time-lapse microscope photography to identify this new escape mechanism, and watched the yeast cells escaping into the fluid surrounding cells or, remarkably, directly into other host cells through cell-to-cell transmission, continuing to avoid detection by using this extremely rapid vomocytosis," said Hansong Ma. "Worryingly, this enables the cryptococci to avoid antifungal drugs and other treatments as well as our normal immune system, and may allow the yeast to become latent, achieving a long-term infectious state which could then be spread even further, to other individuals, without anyone realising."
Society for General Microbiology
When a host's cells are invaded by bacteria, fungi or viruses the invaders usually use the opportunity to multiply inside the cells and escape by bursting out, killing the host and releasing thousands of copies of the pathogen to attack other cells. The death of the host cell releases debris and by-products which usually triggers our bodies into mounting an immune response, causing inflammation.
"This new method of remaining inside the host cells means that the pathogen can spread more efficiently round our bodies and is protected from the natural defences in our bloodstream that would normally kill the yeast or other invader," said Hansong Ma. "Yeast cells avoid killing or damaging the macrophages. They leave by a method that we call 'vomocytosis'; the yeast cells are acting like spies rather than terrorists, and go unnoticed, giving them more time to establish an infection."
Although the use of antiretroviral drugs is cutting the number of AIDS patients with Cryptococcus infections there is still a major epidemic in Southeast Asia and Africa. Up to 30% of AIDS patients there are infected, and up to 44% will die from the disease within 8 weeks. Even in the USA or European countries like France where antiretroviral drug treatments are readily available, one in ten infected patients will die.
"We badly need to better understand the interaction between hosts, viruses and attacking pathogens like the yeast fungus to help us find new drug targets and so design new ways to treat these patients," said Hansong Ma.
"We used time-lapse microscope photography to identify this new escape mechanism, and watched the yeast cells escaping into the fluid surrounding cells or, remarkably, directly into other host cells through cell-to-cell transmission, continuing to avoid detection by using this extremely rapid vomocytosis," said Hansong Ma. "Worryingly, this enables the cryptococci to avoid antifungal drugs and other treatments as well as our normal immune system, and may allow the yeast to become latent, achieving a long-term infectious state which could then be spread even further, to other individuals, without anyone realising."
Society for General Microbiology
Yeast Cells Current Events and Yeast Cells News RSSKnockouts in human cells point to pathogenic targets
Whitehead researchers have developed a new type of genetic screen for human cells to pinpoint specific genes and proteins used by pathogens, according to their paper in Science.
Gerton Lab determines the composition of centromeric chromatin
The Stowers Institute's Gerton Lab has provided new evidence to clarify the structure of nucleosomes containing Cse4, a centromere-specific histone protein required for proper kinetochore function, which plays a critical role in the process of mitosis. The work, conducted in yeast cells, was published in the most recent issue of Molecular Cell.
Landmark study sheds new light on human chromosomal birth defects
Using yeast genetics and a novel scheme to selectively remove a single protein from the cell division process called meiosis, a cell biologist at The Florida State University found that when a key molecular player known as Pds5 goes missing, chromosomes fail to segregate and pair up properly, and birth defects such as Down syndrome can result.
UCSF researchers program cells to be remote-controlled by light
UCSF researchers have genetically encoded mouse cells to respond to light, creating cells that can be trained to follow a light beam or stop on command like microscopic robots.
RNA interference found in budding yeasts
Some budding yeast species have the ability to silence genes using RNA interference (RNAi). Until now, most researchers thought that no budding yeasts possess the RNAi pathway because Saccharomyces cerevisiae, the protoypical model budding yeast does not.
Mounting a multi-layered attack on fungal infections
Unravelling a microbe's multilayer defence mechanisms could lead to effective new treatments for potentially lethal fungal infections in cancer patients and others whose natural immunity is weakened.
New information about DNA repair mechanism could lead to better cancer drugs
Researchers at Washington University School of Medicine in St. Louis have shed new light on a process that fixes breaks in the genetic material of the body's cells.
Discovery of the cell's water gate may lead to new cancer drugs
The flow of water into and out from the cell may play a crucial role in several types of cancer. Scientists at the University of Gothenburg have now found the gate that regulates the flow of water into yeast cells.
Saved by junk DNA
VIB researchers linked to K.U.Leuven and Harvard University show that stretches of DNA previously believed to be useless 'junk' DNA play a vital role in the evolution of our genome.
Using high-precision laser tweezers to juggle cells
Researchers at the University of Gothenburg, Sweden, have developed a new method to study single cells while exposing them to controlled environmental changes.
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