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You are what you eat: How the pursuit of carbs changed mammals’ genes and saliva

Vials of saliva collected from various mammals, including a pig. Credit: Douglas Levere / University at Buffalo

You are what you eat: How the pursuit of carbs changed mammals’ genes and saliva

A study of 46 mammal species explores the evolutionary history of amylase, a compound that breaks down carbs

By Charlotte Hsu

Starch, a complex carbohydrate, is a vital source of nutrition for many mammals. Humans farm it in the form of rice, wheat, corn, potatoes and oats. Rats comb our garbage piles for scraps of pizza and bread. Wild boars root for tubers.

Now, a new study is providing insight into how the pursuit of starch may have driven evolutionary adaptations in these and other hungry mammals.

The research, conducted on 46 mammal species, focuses on a biological compound called amylase, which is produced by humans and other animals to break down starch.

The study finds that in the course of mammalian evolution, the genetic machinery that teaches the body how to make amylase has been something of a chameleon. It has evolved in different ways in different beasts, and it’s capable of changing rapidly, possibly in accordance with what animals eat.

The study finds that mammals with starchy diets tend to have more copies of the amylase gene, which carries instructions for building amylase, than mammals that consume little starch (at least among the species studied).

The research also presents evidence that evolutionary changes related to amylase — including duplications of the amylase gene and the ability to produce amylase in saliva — may have arisen independently in some different species. Called convergent evolution, this phenomenon often signals a particularly useful adaptation.

Findings were published on May 14 in eLife. Overall, the study paints a colorful picture of the evolutionary history of amylase across mammals, ranging from humans, dogs and house cats to hedgehogs and ring-tailed lemurs, along with baboons that store food in their cheeks.

“Amylase is a case where diet may have the potential to change our genes. This is fascinating,” says Omer Gokcumen, PhD, assistant professor of biological sciences in the University at Buffalo College of Arts and Sciences. “The duplications we see in the amylase gene give a very flexible and rapid way in which gene functions can evolve, and this mechanism of evolution is underappreciated.”

“Past studies have explored the evolution of amylase in select species, such as humans and dogs, but our research takes a broader perspective,” says Stefan Ruhl, PhD, DDS, professor of oral biology in the UB School of Dental Medicine. “We examine dozens of mammalian species from different branches of the evolutionary tree, and we see that when it comes to amylase in saliva, genetics and biology may respond to what we eat.”

The study was led by Gokcumen, Ruhl and first author Petar Pajic, a UB oral biology and biological sciences researcher.

Details on the findings:

Mammals with starchy diets appear to have adapted, genetically, to stomach more carbs: Of the species studied, those with starch in their diets generally have more copies of the amylase gene, which carries instructions for making amylase, than animals like carnivores and herbivores whose strict diets tend to exclude starch. Carb-munching humans, house mice, brown rats, dogs, pigs and boars have lots of copies, while mammals like mountain lions, which subsist on meat, and hedgehogs, which dine on foods such as insects and snails, have few.

This is important because the gene is akin to a mold in a factory: the more units you have, the more amylase you can theoretically produce. As for how the extra copies of the amylase gene evolved, “It’s like the chicken and the egg – we cannot really tell what came first,” Ruhl says. “Starch in the diet may have led to more amylase, and the ability to digest starch may have led to increased starch intake, and so forth.”

The team studying the evolutionary history of amylase in mammals included (from left to right) University at Buffalo researchers Omer Gokcumen, Lubov Neznanova, Stefan Ruhl and Petar Pajic. Credit: Douglas Levere / University at Buffalo

In some cases, close contact with humans — and access to human food — may have spurred an adaptation to starch. The study confirmed past findings from other teams showing that mice and domestic dogs, which live alongside people, have more copies of the amylase gene than their wild cousins (wolves and wild rodents, respectively). The brown rat (Rattus norvegicus) — a species commonly known as the street or sewer rat — also has many copies of the amylase gene.

The genetic expansion of amylase likely occurred independently in multiple species: Based on genetic evidence, the study concluded that mice, rats, dogs, pigs and humans likely acquired some of their extra copies of the amylase gene independently, at separate times in their evolution, rather than inheriting all the copies from a common ancestor. This phenomenon, called convergent evolution, can signal a particularly useful adaptation.

Amylase in saliva is more widespread than previously known (some pet dogs produce it, for example): Most amylase is produced in the pancreas, but some animals also secrete it in saliva. The new research finds that this capability is more common than previously known, and proposes salivary amylase as another adaptation that may have arisen through convergent evolution in some species.

When scientists tested for amylase in the drool of 22 mammalian species, they found it in 15 species, including six species that were not previously known to have amylase in saliva. Perhaps unsurprisingly, baboons and rhesus macaques that store food in cheek pouches for long periods of time were among the most prolific producers of salivary amylase among the mammals tested.

Pet dogs were among the species that were newly identified as salivary amylase producers. While not all dogs have amylase, the research found it in several breeds, such as English cream golden retrievers, Labradors and pitbulls.

“This study provides the most comprehensive picture, to date, on how amylase has evolved in the mammalian lineage at both the genetic level and at the level of protein expression in saliva,” says Pajic, the study’s first author. “From a broader theoretical stance, it also reveals how quickly evolution can happen and how something simple, like the food you eat, may drive otherwise unrelated species to evolve similarly.”

For animals who don’t store food in their cheeks, the evolutionary advantage of having amylase in saliva is unclear. But Ruhl, a leading salivary researcher, says one theory is that it helps animals and humans identify starchy foods as desirable to eat.

“Humans have a lot of salivary amylase, but why?” he says. “Unlike the baboons who predigest food in their cheek pouches, we humans do not keep food in our mouths long enough for any substantial digestion to happen. One idea is that salivary amylase evolved to help our ancestors detect starch: They would not be able to taste it otherwise. Amylase liberates sugar in starch, and this may help animals develop a taste preference for starch-rich foods like potatoes or corn.”

Other hypothesized purposes for salivary amylase include cleaning sticky starch residues from teeth: “Amylase in saliva might act as a kind of biochemical toothbrush nature has provided us with,” Ruhl says with a smile. “It could help to regulate the make-up of the oral microbiome.”

The research — supported by the National Institute of Dental and Craniofacial Research, National Cancer Institute and National Science Foundation — included researchers from UB, the Foundation for Research and Technology in Greece, SUNY Plattsburgh, Cornell University and the Friedrich-Loeffler-Institut in Germany.

source: University at Buffalo

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