Limb Regeneration…In Humans?
From Nature:
Tadpoles can achieve something that humans may only dream of: pull off a tadpole's thick tail or a tiny developing leg, and it'll grow right back — spinal cord, muscles, blood vessels and all. Now researchers have discovered the key regulator of the electrical signal that convinces Xenopus pollywogs to regenerate amputated tails. The results, reported this week in Development, give some researchers hope for new approaches to stimulating tissue regeneration in humans.
Researchers have known for decades that an electrical current is created at the site of regenerating limbs. Furthermore, applying an external current speeds up the regeneration process, and drugs that block the current prevent regeneration. The electrical signals help to tell cells what type to grow into, how fast to grow, and where to position themselves in the new limb.
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But the complex networks needed to construct a complicated organ or appendage are already genetically encoded in all of our cells — we needed them to develop those organs in the first place. "The question is: how do you turn them back on?" Levin says. "When you know the language that these cells use to tell each other what to do, you're a short step away from getting them to do that after an injury."
Should be popular among Aussie surfers...