Radioautographic study of melanin synthesis in cells of the pigmented epithelium of the retina in adult tritons following surgical removal of the retina]

The results are given for the autoradiographic study of melanin synthesis in the pigment epithelium cells of eye retina in the adult newts by the incorporation of 3H-dioxyphenylalanine (3H-DOPA). The synthesis of melanin began 4--8 days after the operation in the peripheral parts of the eye and but it was not observed in the central region of the eye fundus even 25 days alter the operation. A suggestion is put forward to the effect of the existence of different mechanisms for the initiation of melanin synthesis in these subpopulations of pigment epithelium.     

Genetic Mechanisms of Cell Transdifferentiation

Studies have been considered, which concern identification of regulatory genes in adult newts and their expression during retinal and lens regeneration. B.L. Astaurov repeatedly urged to join efforts of geneticists and embryologists in studies of the mechanisms underlying biological phenomena. This was also true for studies of regeneration. Such studies became possible only after introduction of molecular biology methods. Studies of the mechanisms underlying regeneration have been recently carried out jointly by geneticists and developmental biologists. This review presented at the conference dedicated to the 100th anniversary of B.L. Astaurov deals with these aspects in studies of regeneration.__________Translated from Ontogenez, Vol. 36, No. 4, 2005, pp. 292–299.Original Russian Text Copyright © 2005 by Mitashov.     

Quantitative Estimation of HRP-Labeled Sensory and Motor Neurons during Nerve-Dependent and Nerve-Independent Periods of Urodele Limb Regeneration

The relationship between urodele regeneration and the possibility of regeneration in mammals is unclear, but the idea of possible regeneration of neural elements in man is being studied because of its potential clinical importance. One of the great challenges is to gain sufficient knowledge about the basic biology of animal regeneration and to use it for the betterment of the mankind. It is known that the initial stages of urodele limb regeneration depend on the presence of intact nerve fibers connected to their cell bodies. The nerve fibers severed at the level of limb amputation regrow and penetrate the blastema, providing blastema cells with indispensable factors. These factors are produced in the perikarya of neurons and transported via their axons to the blastema. Numerous studies have been performed to elucidate the quantitative relationships between nerve fibers and limb regeneration. However, there are no reports dealing with the individual nerve cells at work. The aim of this investigation was to analyze the quantitative participation and qualitative distinctions of different nerve cells innervating the regenerating parts of the urodele limb and their possible roles in the nerve-dependent and nerve-independent periods of regeneration. The cells under study are housed in the dorsal ganglia (sensory neurons) and in the ventral part of the spinal cord gray matter (motor neurons). The direct involvement of these neurons in different regeneration periods was visualized by means of horseradish peroxidase (HRP) labeling. A total of 34 animals (21 experimental and 13 control) were used to study fluctuations in the numbers of labeled nerve cells. The results are summarized as follows: (a) the first nerve cells incorporating HRP within 5 days after amputation are found in the dorsal ganglia, whereas motor neurons in the gray matter are labeled within 7 days; (b) the number of labeled perikarya increases during the nerve-dependent regeneration period (0–21 days after amputation), with the percentage of implicated sensory neurons exceeding that found in the control series; and (c) during the next, nerve-independent period, the number of participating labeled neurons decreases gradually. Such fluctuations in the number of labeled neurons might represent the metabolic status of these cells in their effort to provide the blastema cells with the factors needed at the appropriate time. The current findings support previous observations that the periods of dependence and independence of urodele limb regeneration on the integrated control of brachial nerves reflect changes in the metabolism of individual sensory and motor neurons.     

The comparative characteristics of the effect of retinoic acid on the regeneration of the crystalline lens and the extremity in adult tritons]

Effect of retinoic acid (RA) on morphogenesis and proliferation of regenerating extremity and lens cells was studied using 3H-thymidine autoradiography and morphometry. The 3H-thymidine incorporation into the inner layer of dorsal and ventral iris was 1.5-3 times reduced by the 8th day following the RA administration. The applied RA dose (0.25 mg per animal) exerted no significant effect on the morphogenesis of regenerating lens with the exception of the case of forming an additional lens from dorsal iris. The RA effect on the regeneration of extremity corresponds to available data of literature and manifests itself in the decelerated regeneration and the appearance of additional structures along the proximodistal axis.