Embryoid bodies from mouse stem cells express oxytocin receptor, Oct-4 and DAZL

Oxytocin is a nine amino acid peptide involved in a wide spectrum of physiological functions; predominantly those concerning reproduction and differentiation are of interest. Oxytocin receptors are expressed at early developmental stages of mammals, suggesting that oxytocin might be involved in the determination of the germ stem cell line, at the very early stages of mammalian development. In this respect, the proximate aim of the present study was to confirm and further analyze the existence of oxytocin receptors at a very early level of cell commitment, that is, the determination of germ cells derived from embryoid bodies. To achieve our purpose we have cultured mouse embryonic stem cells under conditions inducing formation of embryoid bodies. In this work, ES cells were allowed to aggregate in a novel medium, “Stefanidis medium” from day 0 to day 14 until formed EBs. RNA was isolated from EBs and using RT-PCR we showed that EBs expressed Oct-4, OTR, OT, and DAZL. To demonstrate simultaneous expression immunocytochemistry was preformed, in which EBs showed strong immunoreactivity for both, OTR and DAZL molecular markers. We found that 35% of the cells displayed OTR, using flow cytometry. In addition, this novel medium showed to increase OTR mRNA. We propose, that at least in murine induced embryoid bodies there is simultaneous expression of oxytocin receptors and germ cell markers (DAZL) in many cells (expressing Oct-4). We thus conclude that, the oxytocin might indeed be a molecule playing a leading role in germ cell determination.     

Vitamin A promotes DNA synthesis and mitosis in blastemas of Triturus alpestris

Vitamin A palmitate orally administered to young, post-metamorphic Triturus alpestris (Amphibia-Urodela), for 4 and 7 days after bilateral forelimb amputation at the middle of the zeugopodium, enhanced the mean DNA content of the blastema cells. Moreover, the number of cells in mitosis was nearly twice as high in vitamin A treated animals than in control ones.     

Retinoic acid does not induce formation of cilia on the surface of wound epithelial cells in axolotls

It has been reported that vitamin A palmitate induces the production of cilia on the epidermal cells of the regenerating axolotl limb, and the formation of crevices in the epidermal surface. The aim of the present investigation was to reexamine under well defined conditions the potential of retinoids to evoke the above described metaplastic changes. In order to achieve our purpose we administered axolotls with retinoic acid for 2, 4, 6, 8, and 10 days after limb amputation. The young regenerates were inspected by scanning electron microscopy (SEM). The data obtained showed that the external layer of the wound epithelium and of the stump epidermis as well was quite normal without any sign of cilia formation. In some cases, crevices were observed even in control animals.     

Transdifferentiation Potential of Ciliary and Pigment Epithelial Cells in Lower Vertebrates and Mammals

Cellular composition of the peripheral region of the eye in amphibians and mammals as well as embryonic fissure in amphibians was studied. Different distributions of proliferating cells in retinal pigment epithelium have been revealed in adult amphibians (newt, axolotl, and Xenopus). Single cells incorporated [³H]thymidine in the newt and Xenopus; 0.4% cells, in the axolotl. An embryonic fissure was observed in the eye of the axolotl. Pigment epithelial cells in the embryonic palpebral region actively proliferated: about 20% cells incorporated [³H]thymidine. Proliferating cells were also localized in the ciliary marginal zone of the retina in all studied amphibians, particularly, in the axolotl. In newborn hamsters, [³H]thymidine-labeled cells have been revealed in the pigment epithelium as well as in the outer pigmented and inner unpigmented layers of the ciliary body. Proliferative activity of the peripheral regions of the eye is due to eye growth in adult amphibians and newborn hamsters. After retinectomy, the retina is regenerated from the cells of the growth ciliary marginal zone in all amphibians, pigment epithelial cells in the newt, and pigment epithelial cells of the embryonic fissure in the axolotl. Heterogeneous composition of the pigment epithelium in the newt and axolotl reflects high transdifferentiation potential of these regions. Structural comparison of the peripheral region of the eye in amphibians and mammals demonstrate that the ciliary body of mammals containing stem cells is homologous to the ciliary marginal zone of amphibians containing multipotent cells.     

Effect of vitamin A on wound epidermis during forelimb regeneration in adult newts.

The effects of vitamin A on blastemal epidermis were studied during the early postamputational period of forelimb regeneration in Triturus alpestris. Vitamin A was administered through oral intubation at a dose of 250 IU per gram of body weight per day. The results were evaluated by morphometry, histology, and autoradiography. After 7, 11 and 14 days of treatment, several alterations were observed in the wound epidermis: a) reversal of keratinization; fewer keratinized cells were counted in sections from vitamin A-treated limbs; b) decrease in the incorporation of tritiated thymidine, as judged by estimation of labeling indices; c) increased mitotic activity in the cells of the stratum germinativum, and in the middle layer of the epithelial cells, as well. The significance of these cellular effects is discussed against the relevant literature.     

Autoradiographic evaluation of vitamin A effects on Triturus alpestris blastema cells

Autoradiographic studies on Triturus alpestris regenerates treated with vitamin A palmitate for 4, 7, 11 and 14 days after amputation, reveal a considerable diminution in the percentage of cells duplicating DNA, as judged by measurements of labelling indices. Based on previous observations, that vitamin A promotes DNA-synthesis, mitosis and growth of regenerates, we conclude that the lower labelling indices calculated are due to an acceleration of S-phase processes, resulting in a concomitant reduction in its duration.     

Vitamin A induced bilateral asymmetries in triturus forelimb regenerates

After amputation of both forelimb of young, postmetamorphic Triturus alpestris through the middle of the zeugopod, the left and right regenerates grew asynchronously. As a result of oral administration of vitamin A palmitate (250 IU/gbw/day), from the 4th to the 13th dpa, the growth rate of the right regenerates was relatively higher than that of the left ones. Moreover, the percentage of skeletal abnormalities as well as proximodistal duplications (proximalizations), induced by vitamin A, was nearly twice as high in the right regenerates as compared to their left counterparts.     

Immunostimulation exacerbates the biological effects of chemical carcinogens

The reciprocal relation between the high regenerative ability of various animal species and the low incidence of haphazard or experimentally induced malignant tumours in these animal species is well documented. Equally well documented is the repeated observation that the decline in regenerative potential coincides with an increase in the incidence of cancers, a fact which, on an evolutionary scale, parallels with the development of a sophisticated immune system. The combination of the above observations led to the hypothesis that at least parts of an immune reaction might promote tumour development, and indeed, many experiments specifically designed to answer this question support this prediction. However, this “immunostimulation theory of tumour development” is neither explained in a satisfactory fashion nor universally adopted. The aim of the present investigation was to approach this issue by exploiting the dual, spectacular ability of urodele amphibians to regenerate a lot of organs and to make a stand to carcinogenesis. To this end, urodele amphibians of the species Triturus cristatus were immunologically challenged by intra-abdominal injections of sheep serum, they had then both their hind limbs amputated, and crystals of MNNG (N-Methyl-N″-nitro-N-nitrosoguanidine) were implanted into the stumps. The results show that the effects of MNNG on the immunostimulated animals display significant quantitative augmentation with respect to non-immunized controls. This augmentation consists in higher animal mortality, extension of the dedifferentiating stump tissue and concomitant retardation of limb restoration, and increase in the incidence of abnormal regenerates.     

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.