麻豆淫院

The mere presence of a dead counterpart elicits strong responses across species. For example, many insects such as bees and ants will instinctively remove dead members from the hive, seemingly to keep the nest clear of any potential pathogens. Research from a team at the University of Michigan describes a similar aversion to decedents among the roundworm C. elegans.

They've discovered that the presence of dead members of their species has profound behavioral and physiological effects, leading the worms to reproduce more quickly, shortening their lifespans.

"We felt this was quite a unique opportunity to start diving into what is happening mechanistically that enables C. elegans to detect a dead conscript and then what drives their reaction," said Matthias Truttmann, Ph.D., of the Department of 麻豆淫院iology at U-M Medical School, senior author on the paper, in Cell Reports.

The first author was graduate student and Truttmann lab member Mirella Hernandez-Lima.

Truttmann's lab studies the maintenance of proper protein function in aging. C. elegans, due to its relatively short lifespans, is an ideal model for studying life and life extension.

Their recent study arose from an observation that worms in a dish would move as far away as possible from deceased counterparts. The team wondered how the worms鈥攚ho do not have eyes鈥攄etermined that their plate-mates were dead and whether there could be a universal death signal emitted by corpses.

To test this, they introduced either worm corpses or fluid from the broken-down cells of worm corpses to different feeding areas on a plate. They observed that C. elegans showed strong avoidance behavior for both. Furthermore, they found that death perception led to reduced fitness in exposed worms and a short-term increase in egg laying.

The team then systematically tested the worms' sensory neurons to determine which were necessary for the perception of death. They found two neurons that respond to olfactory information, AWB and ASH鈥攅ssentially the worms could smell death.

Specifically, the team identified two metabolites, AMP and histidine, which are normally found inside of cells, were the death cues for C. elegans.

"The neurons we identified are well known to be involved in behavioral responses to a variety of environmental cues," said Truttmann. "We have now found that they also detect a couple of intracellular metabolites that are not typically found in the environment. If they are around, it indicates that a cell has died, popped open, and that something has gone wrong."

The presence of cellular metabolites where they should not be could very well be an evolutionarily maintained signal of death, says Truttmann. He points to a recent finding in humans that cells undergoing apoptosis (cell death) release metabolites that result in transcriptional changes in neighboring tissue.

How the detection of this signal ultimately translates into altered health and behavior requires further research.