Pheromones enhance sex, slow aging -- in worms

The paper, published online July 23 in Nature, reports that a mixture of molecules called ascarosides, which extend life span in C. elegans worms, also acts as a sex pheromone, thereby connecting the two seemingly disparate life processes of aging and reproduction. This small, normally soil-dwelling nematode is used as a model organism for many diseases as well as aging because its biology is in some regards similar to that of higher organisms, including humans.

While these results are unique to this worm, the study offers new directions for exploring the aging process in humans, says senior author Frank Schroeder, assistant professor at the Boyce Thompson Institute for Plant Research at Cornell. Jagan Srinivasan, a postdoctoral researcher at the California Institute of Technology, is the paper's lead author.

"We won't find the exact same signaling pathway from C. elegans in other organisms," said Schroeder, "but we [humans] have similar genes doing similar things, and one might think that influencing them in analogous ways might have an effect on slowing aging."

Most C. elegans are hermaphrodites -- having both male and female sex organs -- although there are a few rare males. The hermaphrodites use the pheromone to attract males; however, when they release large amounts of pheromone into their surroundings, nearby larvae enter a so-called dauer stage: Their skin thickens, they become highly stress tolerant, they stop eating and stop developing, remaining in a suspended state for months. While C. elegans normally live only a few weeks, these dauer larvae can stay dormant for many months to survive periods of food scarcity or overpopulation. Thus, the release of sex pheromone by the nematodes might increase reproductive success while at the same time slowing down development of the offspring, said Schroeder.

He noted organisms with high reproductive rates usually have short life spans, but the pheromone in the nematodes plays a dual role in both increasing reproduction and extending life.

Schroeder and colleagues isolated and identified the mixture of ascarosides, molecules similar to sugars, in the pheromone. Each ascaroside by itself had only a small effect on the worms, but when two or three were mixed together, they amplified each others' effects dramatically. In addition, certain ascarosides proved to contain properties for attracting mates while other ascarosides triggered the dauer stage.

Schroeder specializes in the study of small molecules in plants, animals and microorganisms that play significant roles in sending signals within and between organisms and that may lead to useful drugs.

Provided by Cornell University

Sex and lifespan linked in worms: A family of sugar-like molecules controls both
A group of scientists who set out to study sex pheromones in a tiny worm found that the same family of pheromones also controls a stage in the worms' life cycle, the long-lived dauer larva.
Entomologists play matchmakers for cerambycid beetles
(PhysOrg.com) -- Cerambycid beetles, also known as long-horned beetles, can cause severe damage to standing trees, logs and lumber. How then might they be promptly detected and their numbers swiftly controlled? Two entomologists have devised a solution based on how male and female cerambycid beetles communicate with, and attract, each other.
Researchers Discover Dual-Use Sexual Attraction and Population-Control Chemicals in Nematodes
(PhysOrg.com) -- Organisms ranging from humans to plants to the lowliest bacterium use molecules to communicate. Some chemicals trigger the various stages of an organism's development, and still others are used to attract members of the opposite sex. Researchers at the California Institute of Technology have now found a rare kind of signaling molecule in the nematode worm Caenorhabditis elegans that serves a dual purpose, working as both a population-control mechanism and a sexual attractant.
Researchers find dual-use sexual attraction and population-control chemicals in nematodes
Organisms ranging from humans to plants to the lowliest bacterium use molecules to communicate. Some chemicals trigger the various stages of an organism's development, and still others are used to attract members of the opposite sex. Researchers at the California Institute of Technology have now found a rare kind of signaling molecule in the nematode worm Caenorhabditis elegans that serves a dual purpose, working as both a population-control mechanism and a sexual attractant.
Olfactory Fine-Tuning Helps Fruit Flies Find Their Mates
Fruit flies fine-tune their olfactory systems by recalibrating the sensitivity of different odor channels in response to changing concentrations of environmental cues, a new study has shown. Disable this calibration system, and flies have trouble finding a mate, the researchers found.
One missing gene leads to fruitless mating rituals
Male fruit flies missing a gene for one particular odor receptor become clueless in matters of love, scientists at Duke University Medical Center have discovered.
New research could lead to no scent, no sex for the Japanese beetle
No scent. No sex. If a male Japanese beetle is unable to detect the sex pheromone released by a female, he won't be able to locate her and reproduce.
Enzyme Discovery Could Lead to No Scent, No Sex for Japanese Beetle
If a male Japanese beetle is unable to detect the sex pheromone released by a female, he won't be able to locate her and reproduce. UC Davis researchers have discovered how a key enzyme interacts with those pheromones in the beetle's sophisticated olfactory system, a finding that may lead to important applications for controlling this damaging, invasive pest.

Pheromones enhance sex, slow aging -- in worms

Related stories:

News discussion: