Post #4708

How axolotls rely on their 'fight or flight' network to regenerate body parts Biologists have long been fascinated by the ability of salamanders to regrow entire limbs. Now Harvard researchers have solved part of the mystery of how they accomplish this feat—by activating stem cells throughout the body, not just at the injury site. In a paper published in the journal Cell, researchers documented how this body-wide response in axolotl salamanders is triggered by the sympathetic nervous system—the iconic "fight or flight" network. The study raises the possibility that these mechanisms might one day be manipulated to regenerate human limbs and organs. "We've shown the importance of the adrenaline stress signaling hormone in getting cells ready for regeneration," said Duygu Payzin-Dogru, lead author of the new study and a postdoctoral researcher in the Department of Stem Cell and Regenerative Biology (SCRB). "Because adrenaline exists in humans, this tells us we can co-opt some of the things we found in the axolotl to perhaps improve regenerative outcomes in humans. We have some of the same components and just have to figure out the right way to implement them." The new study culminates several years of research by the lab of Jessica Whited, associate professor in SCRB, who studies limb regeneration in axolotls, a species native to Mexico. Axolotls are often examined as model organisms of limb regeneration because they are among the fastest-breeding species of salamanders. Some invertebrates such as planarian flatworms can regrow entire bodies from small bits of tissue. But salamanders are the only vertebrates that can regenerate full limbs. Source:Phys.org @EverythingScience