January 11, 2010
Ongoing Human Evolution Could Explain Recent Rise In Certain Disorders
Scientists call for integrating evolutionary perspectives into medical curricula
The subtle but ongoing pressures of human evolution could explain the seeming rise of disorders such as autism, autoimmune diseases, and reproductive cancers, researchers write in the Proceedings of the National Academy of Sciences. Certain adaptations that once benefited humans may now be helping such ailments persist in spite of "“ or perhaps because of "“ advancements in modern culture and medicine.
Ellison's co-authors are Stephen Stearns of Yale University, Randolph Nesse of the University of Michigan, and Diddahally Govindaraju of the Boston University School of Medicine. The research was first presented at the Arthur M. Sackler Colloquium, co-sponsored by the National Academy of Science and the Institute of Medicine.
Colloquium presentations described in the current paper include research suggesting that:
* Autism and schizophrenia may be associated with the over-expression of paternally or maternally derived genes and influences, a hypothesis advanced by Bernard Crespi of Simon Fraser University.
* Maternal and paternal genes engage in a subtle tug-of-war well into childhood with consequences for childhood development, as posited by David Haig, George Putnam Professor of Organismic and Evolutionary Biology at Harvard.
* Humans may be susceptible to allergies, asthma, and autoimmune diseases because of increased hygiene, according to Kathleen Barnes of Johns Hopkins University. Without being exposed to intestinal worms and parasites, as our ancestors were, our immune systems are hypersensitive.
* Natural selection still influences our biology, despite advances in modern culture and medicine. Stearns found that natural selection favors heavier women and reduces the age at which a woman has her first child.
In the final presentation of the colloquium, researchers called for the integration of evolutionary perspectives into medical school curricula, to help future physicians consider health problems from an evolutionary perspective.
"We're trying to design ways to educate physicians who will have a broader perspective and not think of the human body as a perfectly designed machine," says Ellison. "Our biology is the result of many of evolutionary trade-offs, and understanding these histories and conflicts can really help the physician understand why we get sick and what we might do to stay healthy."
Previous work in evolutionary medicine helped explain why disease is so prevalent and difficult to prevent "“ because natural selection favors reproduction over health, biology evolves more slowly than culture, and pathogens evolve more quickly than humans.
"I think that the main take-home point is that evolution and medicine really do have things to say to each other, and some of these insights actually reduce suffering and save lives," says Stearns.
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