Intercalary regeneration of symmetrical thighs in the axolotl,Ambystoma mexicanum

Intercalary regeneration of stylopodial and zeugopodial skeletal elements takes place in axolotl limbs composed of normal wrist blastemas autografted or homografted to double half-anterior or half-posterior thighs. Analysis of the morphological pattern of the skeleton and, in homografts, of pigmentation pattern, shows that the intercalated elements are derived from the host double half-thigh. Intercalary regeneration from double half-posterior thighs is expected since they normally can undergo complete proximal-distal regeneration, but is not necessarily expected from double half-anterior thighs, since they normally do not regenerate more distal segments. These results demonstrate that (1) cells of double half-anterior thighs are not inherently incapable of undergoing distal transformation, (2) cells of a distal blastema grafted to a more proximal level do not form patterns proximal to their level of origin, and (3) there is an inhibitory interaction between blastema cells derived from double half-anterior thighs that is expressed after simple amputation, but not when these cells are in contact with a more distal, normal blastema. Using these and other data, a three-dimensional boundary model of limb regeneration is proposed.