Natures wonders: epigenetic programming of ants (Introduction)

by David Turell , Tuesday, November 12, 2019, 19:02 (1627 days ago) @ David Turell

A new study shows how different castes of ants are genetically programmed:

https://phys.org/news/2019-11-team-epigenetic-pathway-social-behavior.html

"Similar to humans, the behavior of Florida carpenter ants is not set in stone—their roles, whether it is protecting the colony or foraging for food, are determined by signals from the physical and social environment early in their life. But questions remain about how long they are vulnerable to epigenetic changes and what pathways govern social behavior in ants.

"...researchers in the Perelman School of Medicine at the University of Pennsylvania discovered that a protein called CoRest, a neural repressor that is also found in humans, plays a central role in determining the social behavior of ants. The results, published today in Molecular Cell, also revealed that worker ants called Majors, known as "brawny" soldiers that protect colonies, can be reprogrammed to perform the foraging role—generally reserved for their sisters, the Minor ants—up to five days after they emerge as an adult ant. However, the reprogramming is ineffective at the 10-day mark, revealing how narrow the window of epigenetic plasticity is in ants.

***

"Ants provide ideal models to study social behavior because each colony is comprised of thousands of individuals—the queen, who carries out all the egg-laying, and all of her highly-related offspring workers—with nearly identical genetic makeup, much like human twins. However, the sister workers possess distinct physical traits and behaviors based on caste. For example, Major workers have large heads and powerful mandibles that help protect their colonies, while Minor workers are much smaller and assume the responsibility of searching for food and caring for the brood (developing "baby" ants).

"In a previous revelatory study, published in Science in 2015, researchers in Berger's lab showed it's possible to reprogram, or directly alter, the caste-specific behavior in Major workers by injecting them with a single dose of a histone-altering chemical. Although the size of the ants didn't change, their identities did—the Major workers wandered away from the colony and began to forage for food.

"In this study, researchers injected the same histone-altering chemical, a histone deacetylase inhibitor called trichostatin A (TSA), in ant brains at specific points in early adulthood: zero, five and 10 days after they emerged. They found that many genes that are normally only turned on in the Minor workers were also turned on in the reprogrammed Major workers, and these changes persisted well after the short half-life of the drug. Surprisingly, neither the behavioral reprogramming nor the gene expression similarities occurred in Major workers injected after 5 days of age.

"More importantly, researchers saw that the protein CoRest, which is found widely throughout animals and mammals, was upregulated in the reprogrammed Major workers. They conducted epigenomic profiling, and found that when Major workers are reprogrammed, CoRest repressed enzymes that degrade Juvenile Hormone (JH), a hormone which is naturally elevated in the Minor workers but normally degraded in Major workers. Additionally, researchers found that CoRest represses these genes in natural Minor workers—but not natural Major workers—and that this epigenetic control of JH levels was responsible for the natural behavioral differences between Major and Minor workers. Taken together, the results reveal mirrored patterns in natural Minor foragers and reprogrammed Major workers: high CoRest, high JH levels, and low JH degradation.

"'Given how highly related workers of different castes are to one another, we've always suspected that the epigenome plays a big role in their huge behavioral differences," said the study's lead author Karl M. Glastad, Ph.D., a postdoctoral researcher in the Berger lab. "However, this is the first study where the actual mechanism has been identified, from epigenome, through hormonal signaling, and finally to behavior.'"

Comment: No question. Ants are genetically programmed for their individual caste tasks. With God in charge of evolution, He well can be the designer/programmer.