AbstractBackground: Among vertebrat

Abstract
Background: Among vertebrates lens regeneration is most pronounced in newts, which have the ability to
regenerate the entire lens throughout their lives. Regeneration occurs from the dorsal iris by transdifferentiation of
the pigment epithelial cells. Interestingly, the ventral iris never contributes to regeneration. Frogs have limited lens
regeneration capacity elicited from the cornea during pre-metamorphic stages. The axolotl is another salamander
which, like the newt, regenerates its limbs or its tail with the spinal cord, but up until now all reports have shown
that it does not regenerate the lens.
Results: Here we present a detailed analysis during different stages of axolotl development, and we show that
despite previous beliefs the axolotl does regenerate the lens, however, only during a limited time after hatching.
We have found that starting at stage 44 (forelimb bud stage) lens regeneration is possible for nearly two weeks.
Regeneration occurs from the iris but, in contrast to the newt, regeneration can be elicited from either the dorsal
or the ventral iris and, occasionally, even from both in the same eye. Similar studies in the zebra fish concluded
that lens regeneration is not possible.
Conclusions: Regeneration of the lens is possible in the axolotl, but differs from both frogs and newts. Thus the
axolotl iris provides a novel and more plastic strategy for lens regeneration.
Keywords: Lens, Regeneration, Axolotl, Plasticity
Background
Salamanders, especially newts, are capable of regenerating
tissues, organs and even body parts, such as limbs and
tails throughout their adult lives [1,2]. Among all tissues
that can be regenerated, the lens is a special case. In contrast
to removal of a part of limb or tail (total removal disallows
regeneration), the lens can be removed in its
entirety. It has also been shown that newts can regenerate
the lens very faithfully no matter how many repeated lentectomies
are performed or the age of the animal [3].
Notably, the lens regenerates by another tissue, the pigment
epithelial cells of the iris by the process of transdifferentiation.
There is, however, a restriction: The lens can
only be regenerated from the dorsal iris. Even though the
ventral iris can be induced experimentally to regenerate a
lens, normally it never contributes to the process [4]. This
restriction can be very instructive when it comes to investigating
the mechanisms underlying the process.
The only other vertebrates that have been shown to
regenerate the lens are frogs and some fish. In frogs, the
process has been studied well and it has been established
that regeneration occurs only in pre-metamorphic stages
and that the lens is derived from the cornea by transdifferentiation
[5]. After metamorphosis, the ability for lens
regeneration ceases. Another salamander, the neonate
axolotl, is also capable of regenerating limbs and tails as is
the newt. However, in a paper by Stone in 1967 it was
concluded that this species is not able to regenerate the
lens, even though no staging details were provided [6]. We
have decided to revisit this issue and have undertaken a
detailed study starting with larvae at stage 44. At this stage
the eye tissues including the lens have been well differentiated,
while other body parts (such as limbs) are beginning
to form [7]. We find that starting at this stage
* Correspondence: ptsonis1@udayton.edu
1Department of Biology and Center for Tissue Regeneration and
Engineering, University of Dayton, 300 College Park, Dayton, OH 45469-2320,
USA
Full list of author information is available at the end of the article
Suetsugu-Maki et al. BMC Biology 2012, 10:103
http://www.biomedcentral.com/1741-7007/10/103
© 2012 Suetsugu-Maki et al; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative
Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and
reproduction in any medium, provided the original work is properly cited.