The International Journal of Developmental Biology

Int. J. Dev. Biol. 40: 665 - 673 (1996)

Vol 40, Issue 4

Special Issue: Developmental Biology of Urodeles

What mechanisms control neoteny and regulate induced metamorphosis in urodeles?

Published: 1 August 1996

P Rosenkilde and A P Ussing

August Krogh Institute, Zoophysiological Laboratory, University of Copenhagen, Denmark. PROSENKILD@AKI.KU.DK

Abstract

The Mexican axolotl, like a number of other urodele species, is an obligatory neotene, completing its full life cycle without metamorphosis. Metamorphosis can be induced with thyroid hormone, thyroid stimulating hormone, or stimulation of hypothalamic neurons. Thus, neoteny represents a deviation from the standard course of amphibian ontogeny, affecting the thyroid axis at one or more levels. Analysis of the thyroid axis at strategic ontogenic stages and after completed neotenic development suggests that there are a number of deviations, and that the deviations may be temporal and/or quantitative in nature. A surge of thyroxine secretion occurs early in larval life but does not lead to metamorphosis, apparently because the enzyme which deiodinates thyroxine to the active form, triiodothyronine, is not yet present. Later in ontogeny, activity in the thyroid axis is low. Hormone treatment can reactivate the thyroid axis at all levels, but some singularities remain. Inhibition at central nervous or peripheral levels may be involved in axolotl neoteny.

Full text in web format is not available for this article. Please download the PDF version.