News Release

Researchers build most comprehensive tree of life for malaria parasites

New work suggests that the deadliest species of human-infecting malaria should be renamed -- but it likely won't happen soon

Peer-Reviewed Publication

American Museum of Natural History

Malaria under Microscope

image: In this microscopic image, two different genera of malaria parasite interact within a bird host. view more 

Credit: © AMNH/S. Galen

A new study led by the American Museum of Natural History puts forth the most comprehensive tree of life for malaria parasites to date. Known for being a devastating scourge of human health, with five species known to infect humans, there are more than 500 described species of malaria that infect mammals, birds, and reptiles. Among the researchers' findings, which were published today in the journal Royal Society Open Science, is that the diverse malaria parasite genus Plasmodium (which includes those species that infect humans) is composed of several distantly related evolutionary lineages, and, from a taxonomic standpoint, many species should be renamed.

"Many problems related to diseases that afflict humans involve the capacity of infectious organisms to evolve and adapt," said co-author Susan Perkins, a curator in the Museum's Division of Invertebrate Zoology and a principal investigator in the Museum's Sackler Institute for Comparative Genomics. "We won't be able to fully understand human-infecting malaria parasites--and possibly, develop unique ways to fight them--until we know more about their evolutionary history."

Mapping the relationships of malaria parasites is challenging on multiple levels. Many of these parasites are rare and difficult to sample, and tailored to infect specific species, such as a single type of green-blooded skink in New Guinea or bats in remote forests of Africa. Malaria parasites also have peculiar DNA: while most organisms have a relatively even proportion of the four chemical bases (A, C, T, and G) that make up the genome, these parasites' DNA is heavily biased toward A (adenine) and T (thymine) couples, with as much as 80 percent of their genome consisting of just these two bases. However, this bias is not uniform across the diversity of these parasites and not accounting for these disparate ratios can result in skewed results. The researchers, led by Spencer Galen, a comparative biology Ph.D.-degree student in the Museum's Richard Gilder Graduate School, found a way to correct for this phenomenon. Working closely with Museum research fellow Janus Borner, who developed new genetic markers for the group while at the University of Hamburg, they were able to include malaria species from deep evolutionary lineages--like those infecting deer, turtles, bats, and numerous species of birds--that were missing from previous analyses. The resulting tree, which sampled 58 malaria species from eight of the currently recognized genera and included DNA sequence data from more than 20 genes, is the most comprehensive of its kind.

The team's most surprising finding was that the genus Plasmodium consists of several groups that are not each other's closest relatives, and therefore, from a taxonomic standpoint, many species should be renamed. Importantly, this affects Plasmodium falciparum, the deadliest species of malaria for humans. Because it is in a separate group from the so-called "type species" that defines Plasmodium, P. falciparum should receive a new name--but it's not so simple.

"If we worked on a group of fishes or beetles, we would just split them up and put them into new genera," Perkins said. "But to do this based on our tree would involve changing the name of the most deadly protozoan parasite in the world, and there's too much inertia working against us. We have to be bad taxonomists in this case and let it continue to be called Plasmodium."

The researchers do recommend the scientists adopt a new parlance for this group. Instead of referring to Plasmodium broadly, they recommend that scientists should be more specific and use the subgeneric names. This is because the evolutionary tree shows that not all of these parasites are transmitted by mosquitos or replicate inside red blood cells--the two key defining characteristics of Plasmodium. Additionally, other parasites that defy this definition are intermingled with the human parasites and the model species used to study the disease in the lab, including those that infect mice.

The study also weighs in on a long-standing debate about how many times malaria parasites jumped into major vertebrate groups, in particular mammals, via blood-feeding insect vectors.

"The specifics surrounding vertebrate colonization by malaria parasites have been pretty heavily debated," Galen said. "We found support for the idea that malaria parasites jumped to mammals just once."

The research confirms previous work tying the origin of malaria parasites to birds (likely including some dinosaurs). The parasites then made a jump to mammals followed by a secondary colonization of birds as well as reptiles. The study also supports work showing that bats were a major driver in the dramatic diversification of malaria parasite lineages. The authors suggest that there is much more work to be done, and possibly more name changes needed. In 2016, Perkins and others reported malaria parasites from white-tailed deer. The current study shows that these and others that infect hoofed mammals should get a new name. A malaria parasite isolated from a turkey vulture in California was also unlike anything else that has been found in birds and is likely a new genus, too.

"Malaria parasites are far more diverse than most people realize, and the picture we're painting shows yet another level of complexity," Galen said. "We really need a widespread assessment of malaria parasite taxonomy."

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Other authors on this study include Ellen Martinsen from the Smithsonian Conservation Biology Institute, Juliane Schaer from Humboldt University, Christopher Austin from Louisiana State University, and Christopher West from the Wildlife Program of the Yurok Tribe in Klamath, CA.

This was work was supported by the National Science Foundation grant # DEB-1145984 and DEB-1146033. Janus Borner is supported by a PRIME fellowship from the German Academic Exchange Service (DAAD).

Royal Society Open Science paper: http://rsos.royalsocietypublishing.org/lookup/doi/10.1098/rsos.171780

AMERICAN MUSEUM OF NATURAL HISTORY

The American Museum of Natural History, founded in 1869, is one of the world's preeminent scientific, educational, and cultural institutions. The Museum encompasses 45 permanent exhibition halls, including those in the Rose Center for Earth and Space and the Hayden Planetarium, as well as galleries for temporary exhibitions. It is home to the Theodore Roosevelt Memorial, New York State's official memorial to its 33rd governor and the nation's 26th president, and a tribute to Roosevelt's enduring legacy of conservation. The Museum's five active research divisions and three cross-disciplinary centers support approximately 200 scientists, whose work draws on a world-class permanent collection of more than 34 million specimens and artifacts, as well as specialized collections for frozen tissue and genomic and astrophysical data, and one of the largest natural history libraries in the world. Through its Richard Gilder Graduate School, it is the only American museum authorized to grant the Ph.D. degree. Beginning in 2015, the Richard Gilder Graduate School also began granting the Master of Arts in Teaching (MAT) degree, the only such freestanding museum program. Annual visitation has grown to approximately 5 million, and the Museum's exhibitions and Space Shows are seen by millions more in venues on six continents. The Museum's website, mobile apps, and MOOCs (massive open online courses) extend its scientific research and collections, exhibitions, and educational programs to additional audiences around the globe. Visit amnh.org for more information.

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