Researchers have long understood that genetics can play a role in how susceptible people are to contracting cholera, but a team of Harvard scientists is now uncovering evidence of genetic changes that might also help protect some people from contracting the deadly disease.
Based on genetic data gathered from hundreds of people in Bangladesh, a research team made up of Harvard faculty and scientists from the Broad Institute and Massachusetts General Hospital were able to a number of areas in the genome some of which are responsible for certain immune system functions, while others are related to fluid loss that appear to be related to cholera resistance. Later tests showed genetic differences between people who had contracted the disease and those who had been exposed, but did not become ill. Their results are described in a paper published earlier this month in Science Translational Medicine.
"This study is exceptionally exciting for us because it shows the power of this approach," says associate professor of organismic and evolutionary biology Pardis Sabeti, one of two senior co-authors of the paper. "This is the first time we've taken a genomic-wide approach to understanding cholera resistance. But it's a first step, and there is a lot of exploration to go from here. For a disease that's so ancient and widespread there's very little that's known about host immunity."
The hope, Sabeti adds, is that by better understanding why some people appear to be immune, it will help in our efforts to develop vaccines and therapies, so outbreaks like those that occurred in recent years in Haiti and Africa might one-day be avoided.
"It is a very scary disease," she says. "We now have treatments with oral rehydration therapy, but it is still devastating, and in extreme cases, cholera can kill in hours."
"We also haven't been able to develop a particularly effective vaccine," adds Elinor Karlsson, a post-doctoral fellow in organismic and evolutionary biology, the first author of the paper. "The vaccine that's available wears off after a few years, whereas people who are exposed to the disease develop a long-lasting immunityand nobody is quite sure why that is. This research is another way of tackling that problem, and it's a way no one has come at it before."
To understand the genetic differences between those with and without resistance, researchers first gathered genetic data on 42 family groups called "trios" that included a mother, father and child. Using that data, researchers identified more than 300 areas of the genome that appeared to be under pressure due to natural selection, suggesting that genes in those regions might be adapting to deal with the threat of cholera.
"We found 305 areas or about two percent of the genome that appeared to be under selection," Karlsson says. "That's great, but unfortunately, all our tests can tell us is that a region is under selection, it doesn't tell us why."
To find those answers, Karlsson turned to a process called "gene set enrichment" testing to determine whether any particular groups of genes showed up in those regions more often than others.
"We found two strong patterns," Karlsson says. "We found a whole set of genes that are related to a gene called IKBKG, which plays a key role in immunity. But what we found was not the gene itself, but a whole group of genes that regulate IKBKG. We also found a whole set of genes for potassium channels, which are the channels in the walls of our cells that regulate fluid loss.
"What's interesting is that it shows what a huge pressure cholera has been on this population," she added. "You could be selecting for anything in there skin color, hair color or even other diseases but because cholera was a big enough force, we could pick it out just by doing this kind of testing."
Armed with that data, researchers then performed a comparative study examining the specific genetic regions in more than 100 patients who were sick with cholera and others who had been exposed to the disease, but had not become sick. The results, Karlsson said, showed differences between the two groups.
"The region that had the biggest signal that suggested the region was under pressure from natural selection, also had the biggest difference between people who were sick and who were not sick today," Karlsson says.
Going forward, Karlsson adds, researchers hope to conduct wider studies of the genetic differences between people who are susceptible and those who appear to be immune in the hope of identifying precisely which genes are involved, and the pathways involved in resistance.
"We have narrowed it down to a few genes, but the problem is that these are genes that people have not paid a great deal of attention to before," Karlsson says. "There's not a whole lot of description out there about them, so it's hard to know which one might be the best candidate for study."
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