![]() The discovery of the protein as well as the difference between strains is important, Boothroyd adds. But when the type II parasite enters, the mitochondria don’t gather around. In 2014 in PLOS Biology, Pernas, Boothroyd and colleagues reported that when a type I or type III Toxoplasma parasite invades a cell, the mitochondria circle the vacuole. But why the mitochondria were there wasn’t clear.Īs a graduate student in the lab of microbiologist John Boothroyd of Stanford University School of Medicine, Pernas questioned two existing assumptions: that all three main strains of Toxoplasma interact with mitochondria in the same way, and that the key protein underpinning this relationship had already been found. Early imaging showed a ring of the host cell’s mitochondria surrounding the parasite’s vacuole. When Toxoplasma infects a mammalian cell, it uses part of the cell’s membrane to wrap itself in a little sac, called a vacuole. Her discoveries are at the forefront of a new focus in microbiology: viewing the host-pathogen relationship as a “competition for nutrients,” says cell biologist Navdeep Chandel of Northwestern University in Chicago. Studying the vying for nutrients in the cell “will teach us really interesting biology about how the cell senses the presence of a parasite metabolically, and how the cell is able to metabolically respond,” Pernas says - knowledge that could lead to new therapies. The parasite and mitochondria fight over fuel, Pernas has found. By studying how mitochondria respond to a parasitic infection, Pernas has begun to probe the ways access to nutrients in the cell - which both the cell and the parasite need - shapes an infection.Ī vacuole containing a Toxoplasma parasite is surrounded by mitochondria (indicated by arrows). Known as the cell’s energy producers, mitochondria also take part in activities related to immunity and cell death. Pernas, now age 30 and a postdoctoral fellow at the University of Padova in Italy, has upended previous thinking about how this parasite interacts with its host, specifically its interplay with mitochondria. (Pregnant women are warned not to handle kitty litter because the parasite can be found in cat feces.) But the disease can be serious, damaging the eyes and brain, in those with weakened immune systems and in fetuses. “It is able to infect basically any warm-blooded animal.” The parasite causes toxoplasmosis, not a terribly bothersome disease for people with a healthy immune system. Toxoplasma “has an unparalleled mammalian host range,” Pernas says. ![]() ![]() Her parasite of choice eventually became Toxoplasma gondii, which is estimated to infect one-third of humans. “It’s been a singular obsession,” she says. Since then, she’s taken every opportunity to study parasites. This predicament inspired her to learn about the disease, caused by Plasmodium parasites. One of the dangers players could encounter was malaria, “and I got malaria a lot,” Pernas says. One of her favorite pastimes as a 9-year-old was playing The Amazon Trail, an educational computer game set near the South American river. Lena Pernas’ love of parasites began in childhood, when she was plagued with many virtual infections.
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