Axolotl limb regeneration study reveals how the process is driven by cells with different positional identities
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23 February 2026
Directed Blast
Axolotls (Ambystoma mexicanum) fascinate scientists with their ability to regenerate after injury. A gene called Shh helps to define the pattern of a regrowing limb, first during development then after injury. But it’s not just Shh that shapes the mass of regenerating cells, or blastema. To develop correctly, cells on different sides of the blastema need to communicate to orientate the new limb’s growth. In these slices through axolotl limbs, we see normal asymmetric patterns of muscle (stained red) and cartilage (blue) in a normal limb (lower left) and a regenerated limb (top left) grown from a blastema with intact connections between cells on the top (dorsal) and lower (ventral) sides. When these connections are disrupted (right), regenerating limbs develop more symmetrically. Investigating this relationship between orientation and genetics might guide future approaches to regenerative medicine in humans.
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