UNIVERSITY PARK, Pa. — Carabid beetles produce caustic chemicals they spray to defend themselves against predators, and the compound that protects their bodies from these toxic substances shows promise for use in bioengineering or biomedical applications, according to Penn State researchers.
The family Carabidae represents an extremely diverse line of insects, with almost 40,000 species. One of the traits that allows them to thrive is a unique gland system. It manufactures, stores and propels toxic chemicals — such as formic acid, phenolics and concentrated hydrogen peroxide — to ward off insect, amphibian and even small mammalian predators that want to eat the beetles.
Located in the abdomen, the pygidial glands consist of defensive-chemical-producing lobes, which are connected to a muscularized reservoir chamber via a long collecting duct. In most carabid beetles, this reservoir opens with a duct at the tip of the abdomen. The tissues that comprise the gland system and contain the defensive chemicals have long been a mystery to entomologists.
"We had no idea what these tissues were made of," said Tanya Renner, assistant professor of entomology, whose research group in the College of Agricultural Sciences recently discovered that the elastomeric protein resilin allowed carabid beetles to be the chemists of the insect world. "They produce more than 250 different compounds to protect themselves."
No previous studies suggested how the insects are able to avoid damage to gland components caused by potential stress generated from reservoir-pump contractions or the corrosive effects of the defensive chemicals they contain. However, using an investigative process pioneered in previous Penn State entomological research — autofluorescence-based laser scanning microscopy — researchers found the answer.