The evolution of regeneration: adaptive or inherent?

If regeneration were adaptive, it would have arisen autonomously by natural selection from non-regenerative antecedents. Unless each episode coincidentally reinvented the same method of regeneration independently, one would expect the various lineages to differ basically from each other, which they do not. On the other hand, if regeneration were inherent to metazoan life, a derivative of embryogenesis, its various expressions should be as much like each other as they resemble the development of embryonic appendage buds, which they do. It follows that the uneven distribution of regeneration must have been due to its extinction here and there, not as a negative adaptation by natural selection but as a pleiotropic epiphenomenon linked to more useful adaptations with which it was incompatible. In vertebrate evolution, these adaptations have included the transition from aquatic to terrestrial habitats and the modification of poikilothermic to homeothermic metabolism. The former advance rendered the regeneration of weight-bearing limbs impractical; the latter favored rapid wound healing and scar formation which effectively precluded blastema formation. If the latent capacity for regeneration persists in non-regenerative appendages, as would seem to be the case, then the restoration of its overt expression should be possible if the mechanisms of its inhibition could be discovered and eventually rendered ineffectual.

[1]  C W M PRATT,et al.  The plane of fracture of the caudal vertebrae of certain lacertilians. , 1946, Journal of anatomy.

[2]  F. Jacob,et al.  Evolution and tinkering. , 1977, Science.

[3]  C. S. Thornton,et al.  Five Cases of Atypical Regeneration in the Adult Frog , 1945 .

[4]  T. Morgan The Scientific Basis of Evolution , 1932 .

[5]  R. Goss The physiology of growth , 1978 .

[6]  L. Vitt,et al.  Adaptive Strategies and Energetics of Tail Autonomy in Lizards , 1977 .

[7]  D. Elder Why is regenerative capacity restricted in higher organisms? , 1979, Journal of theoretical biology.

[8]  R. Goss,et al.  The regeneration of fins and fin rays in Fundulus heteroclitus. , 1957, The Journal of experimental zoology.

[9]  O. Reichman Evolution of Regeneration Capabilities , 1984, The American Naturalist.

[10]  R. Korneluk,et al.  Tissue regeneration in the amputated forelimb of Xenopus laevis froglets , 1984 .

[11]  M. Coates New Palaeontological Contributions to Limb Ontogeny and Phylogeny , 1991 .

[12]  G. B. Wislocki,et al.  The occurrence and function of nerves in the growing antlers of deer , 1946, The Journal of comparative neurology.

[13]  L. Walford,et al.  Bioenergetics and Growth , 1947 .

[14]  E. Kollar,et al.  Tooth induction in chick epithelium: expression of quiescent genes for enamel synthesis. , 1980, Science.

[15]  G. Wagner,et al.  Evolutionary modification of regenerative capability in vertebrates: a comparative study on teleost pectoral fin regeneration. , 1992, The Journal of experimental zoology.

[16]  Joel W. Hedgpeth,et al.  The physiology of Crustacea , 1962 .

[17]  E. Korschelt Regeneration und Transplantation , 2010, Nature.

[18]  S. R. Scadding Limb regeneration in adult amphibia , 1981 .

[19]  J. Huxley Evolution: The Modern Synthesis , 1943 .

[20]  S. Simpson Studies on regeneration of the lizard's tail. , 1970, American zoologist.

[21]  Frank Walter Lane,et al.  Kingdom of the octopus : the life history of the Cephalopoda , 1974 .

[22]  A. Smith,et al.  Regeneration of the Amputated Amphibian Limb: Retardation by Hemicholinium-3 , 1970, Science.

[23]  Bruce M. Carlson,et al.  Regeneration of digits and forelimbs in the Kenyan reed frog Hyperolius viridiflavus ferniquei , 1975, Journal of morphology.

[24]  A. Weismann,et al.  The Germ-Plasm: A Theory of Heredity , 1981 .

[25]  J. Dent Limb regeneration in larvae and metamorphosing individuals of the South African clawed toad , 1962, Journal of morphology.

[26]  R. Goss,et al.  Tissue Interactions in the Regeneration of Rabbit Ear Holes , 1972 .

[27]  M. Lange On the regeneration and finer structure of the arms of the cephalopods , 1920 .

[28]  D. Bliss CHAPTER 17 – AUTOTOMY AND REGENERATION , 1960 .

[29]  W. S. Parker Aspects of the Ecology of a Sonoran Desert Population of the Western Banded Gecko, Coleonyx variegatus (Sauria, Eublepharinae) , 1972 .

[30]  C. L. Turner The rate of morphogenesis and regeneration of the gonopodium in normal and castrated males of Gambusia affinis. , 1947, The Journal of experimental zoology.

[31]  A. Comfort Ageing : the biology of senescence , 1964 .

[32]  Sybil W. Holtzer The inductive activity of the spinal cord in urodele tail regeneration , 1956 .

[33]  R. Goode,et al.  The regeneration of limbs in adult anurans. , 1967, Journal of embryology and experimental morphology.

[34]  L. Passano,et al.  THE ROLE OF THE Y-ORGAN IN CRAB PROECDYSIS AND LIMB REGENERATION. , 1963, Comparative biochemistry and physiology.

[35]  H. Barr Regeneration and Natural Selection , 1964, The American Naturalist.

[36]  R. Goss Prospects of regeneration in man. , 1980, Clinical orthopaedics and related research.

[37]  M. Singer,et al.  Influence of sensory neurons isolated from central nervous system on maintenance of taste buds and regeneration of barbels in the catfish, Ameiurus nebulosus. , 1953, The American journal of physiology.

[38]  Richard J. Goss,et al.  Deer Antlers: Regeneration, Function and Evolution , 1983 .

[39]  D. Stocum Limb regeneration: A call to arms (and Legs) , 1991, Cell.

[40]  C. L. Yntema Regeneration in sparsely innervated and aneurogenic forelimbs of Amblystoma larvae. , 1959, The Journal of experimental zoology.

[41]  S. R. Scadding Phylogenic distribution of limb regeneration capacity in adult Amphibia , 1977 .

[42]  H. Cravens,et al.  Thomas Hunt Morgan : the man and his science , 1980 .

[43]  R. Goss,et al.  Epidermal downgrowths in regenerating rabbit ear holes , 1975, Journal of morphology.

[44]  E. Peacock Wound contraction and scar contracture. , 1978, Plastic and reconstructive surgery.

[45]  R. Finch The influence of the nerve on lower jaw regeneration in the adult newt, Triturus viridescens , , 1969, Journal of morphology.