Fgf10 mutant newts regenerate normal hindlimbs despite severe developmental defects.

In amniote limbs, Fibroblast Growth Factor 10 (FGF10) is essential for limb development, but whether this function is broadly conserved in tetrapods and/or involved in adult limb regeneration remains unknown. To tackle this question, we established Fgf10 mutant lines in the newt Pleurodeles waltl which has amazing regenerative ability. While Fgf10 mutant forelimbs develop normally, the hindlimbs fail to develop and downregulate FGF target genes. Despite these developmental defects, Fgf10 mutants were able to regenerate normal hindlimbs rather than recapitulating the embryonic phenotype. Together, our results demonstrate an important role for FGF10 in hindlimb formation, but little or no function in regeneration, suggesting that different mechanisms operate during limb regeneration versus development.

Ex vivo expansion of primary cells from limb tissue of Pleurodeles waltl.

Pleurodeles waltl is coming to light as a model animal, especially in regeneration studies, but deep studies on the molecular mechanisms have been limited due to the absence of primary tissue cells for wide usage. Therefore, we aimed to grow primary cells from limb tissue of P. waltl for in vitro experiments. Limb tissues were cut into small pieces and seeded as "explants" on culture dishes coated with fibronectin and gelatin. Compared to the control without coating, both fibronectin and gelatin supported quicker outgrowth of cells from explants and faster cell adhesion, and fibronectin showed significantly better performance than gelatin. Interestingly, the doubling time of cells on fibronectin- and gelatin-coated surfaces was almost the same (42.39 ± 2.79 h vs. 42.91 ± 3.69 h) and was not significantly different from that on non-coated plates (49.64 ± 3.63 h). The cryopreserved cells were successfully recovered and showed a multiplication capacity that was similar to that of fresh cells. Senescent cells were barely detected even after long-term sub-culture (>15 passages). Moreover, enhanced fluorescence of MitoSOX™ Red in cells under H2 O2 exposure confirmed the respondence to chemical stimuli. Collectively, our results show that we are able to grow enough good-quality cells from P. waltl limb tissue for in vitro experiments, and fibronectin coating provides the best biocompatible environment for cell outgrowth and attachment.

Establishment of neural stem cell culture from the central nervous system of the Iberian ribbed newt Pleurodeles waltl.

Urodele amphibians have exceptional regeneration ability in various organs. Among these, the Iberian ribbed newt (Pleurodeles waltl) has emerged as a useful model organism for investigating the mechanisms underlying regeneration. Neural stem cells (NSCs) are an important source of regeneration in the central nervous system (CNS) and their culture method in vitro has been well established. NSCs form spherical cell aggregates called neurospheres and their formation has been demonstrated in various vertebrates, including some urodele species, but not in P. waltl. In this study, we reported neurosphere formation in brain- and spinal cord-derived cells of post-metamorphic P. waltl. These neurospheres showed proliferative activity and similar expression of marker proteins. However, the surface morphology was found to vary according to their origin, implying that the characteristics of the neurospheres generated from the brain and spinal cord could be similar but not identical. Subsequent in vitro differentiation analysis demonstrated that spinal cord-derived neurospheres gave rise to neurons and glial cells. We also found that cells in neurospheres from P. waltl differentiated to oligodendrocytes, whereas those from axolotls were reported not to differentiate to this cell type under standard culture conditions. Based on our findings, implantation of genetically modified neurospheres together with associated technical advantages in P. waltl could reveal pivotal gene(s) and/or signaling pathway(s) essential for the complete spinal cord regeneration ability in the future.

Cas9 ribonucleoprotein complex allows direct and rapid analysis of coding and noncoding regions of target genes in Pleurodeles waltl development and regeneration.

Newts have remarkable ability to regenerate their organs and have been used in research for centuries. However, the laborious work of breeding has hampered reverse genetics strategies in newt. Here, we present simple and efficient gene knockout using Cas9 ribonucleoprotein complex (RNP) in Pleurodeles waltl, a species suitable for regenerative biology studies using reverse genetics. Most of the founders exhibited severe phenotypes against each target gene (tyrosinase, pax6, tbx5); notably, all tyrosinase Cas9 RNP-injected embryos showed complete albinism. Moreover, amplicon sequencing analysis of Cas9 RNP-injected embryos revealed virtually complete biallelic disruption at target loci in founders, allowing direct phenotype analysis in the F0 generation. In addition, we demonstrated the generation of tyrosinase null F1 offspring within a year. Finally, we expanded this approach to the analysis of noncoding regulatory elements by targeting limb-specific enhancer of sonic hedgehog, known as the zone of polarizing activity regulatory sequence (ZRS; also called MFCS1). Disruption of ZRS led to digit deformation in limb regeneration. From these results, we are confident that this highly efficient gene knockout method will accelerate gene functional analysis in the post-genome era of salamanders.

A role for SOX9 in post-transcriptional processes: insights from the amphibian oocyte.

Sox9 is a member of the gene family of SOX transcription factors, which is highly conserved among vertebrates. It is involved in different developmental processes including gonadogenesis. In all amniote species examined thus far, Sox9 is expressed in the Sertoli cells of the male gonad, suggesting an evolutionarily conserved role in testis development. However, in the anamniotes, fishes and amphibians, it is also expressed in the oocyte but the significance of such an expression remains to be elucidated. Here, we have investigated the nuclear localization of the SOX9 protein in the oocyte of three amphibian species, the urodelan Pleurodeles waltl, and two anurans, Xenopus laevis and Xenopus tropicalis. We demonstrate that SOX9 is associated with ribonucleoprotein (RNP) transcripts of lampbrush chromosomes in an RNA-dependent manner. This association can be visualized by Super-resolution Structured Illumination Microscopy (SIM). Our results suggest that SOX9, known to bind DNA, also carries an additional function in the posttranscriptional processes. We also discuss the significance of the acquisition or loss of Sox9 expression in the oocyte during evolution at the transition between anamniotes and amniotes.

Molecular cloning and expression analysis of Pleurodeles waltl complement component C3 under normal physiological conditions and environmental stresses.

C3 is a component of the complement system that plays a central role in immunity, development and tissue regeneration. In this study, we isolated the C3 cDNA of the Iberian ribbed newt Pleurodeles waltl. This cDNA encodes a 1637 amino acid protein with an estimated molecular mass of 212.5 kDa. The deduced amino acid sequence showed that P. waltl C3 contains all the conserved domains known to be critical for C3 function. Quantitative real-time PCR (qRT-PCR) demonstrated that under normal physiological conditions, P. waltl C3 mRNA is expressed early during development because it is likely required for neurulation. Then, its expression increased as the immune system developed. In adults, the liver is the richest source of C3, though other tissues can also contribute. Further analysis of C3 expression demonstrated that C3 transcription increased when P. waltl larvae were exposed to pH or temperature stress, suggesting that environmental modifications might affect this animal's defenses against pathogens.

[Dynamics of body mass and oxygen consumption in the ontogeny of the Spanish ribbed newt (Pleurodeles waltl): 2. Larval stage].

The correlation between characteristics of growth and energy metabolism during the larval stage of development of the Spanish ribbed newt (Pleurodeles waltl) has been studied. During this period, its body mass is found to increase 140 times and the oxygen consumption rate, 77 times. The highest rate of specific body mass increase and oxygen consumption rate are noted in the early larval stage. Later, these characteristics decrease except for a brief period before completion of metamorphosis when the rate specific body mass increase rises. Comparison of the studied characteristics allows us to note a similar pattern in changes of the specific growth rate and the oxygen consumption rate during the premetamorphic development of the Spanish ribbed newt.

Decrease in antibody somatic hypermutation frequency under extreme, extended spaceflight conditions.

Somatic hypermutation diversifies antibody binding sites by introducing point mutations in the variable domains of rearranged immunoglobulin genes. In this study, we analyzed somatic hypermutation in variable heavy-chain (VH) domains of specific IgM antibodies of the urodele amphibian Pleurodeles waltl, immunized either on Earth or onboard the Mir space station. To detect somatic hypermutation, we aligned the variable domains of IgM heavy-chain transcripts with the corresponding VH gene. We also quantified NF-κB and activation-induced cytidine deaminase transcripts. Results were compared with those obtained using control animals immunized on Earth. Our data show that, as in most species of ectotherms, somatic hypermutation in P. waltl exhibits a mutational bias toward G and C bases. Furthermore, we show for the first time that somatic hypermutation occurs in space following immunization but at a lower frequency. This decrease is not due to a decrease in food intake or of the B-cell receptor/antigen interaction or to the absence of the germinal center-associated nuclear protein. It likely results from the combination of several spaceflight-associated changes, such as the severe reduction in T-cell activation, important perturbations of the cytoskeleton, and changes in the distribution of lymphocyte subpopulations and adhesion molecule expression.

Temporal and spatial SOX9 expression patterns in the course of gonad development of the caudate amphibian Pleurodeles waltl.

The SOX family of transcription factors is thought to regulate gene expression in a wide variety of developmental processes. Namely, SOX9 expression is conserved in vertebrate sex determination or differentiation. Nevertheless, information about caudate amphibians is lacking. In this study, we provide data on Pleurodeles waltl, a species that displays a ZZ/ZW genetic mode of sex determination and a temperature-dependent mechanism of female-to-male sex reversal. Phylogenetic analysis of SOX9 P. waltl ortholog reveals that the deduced protein segregates from the group of anuran and could be more closely related to amniote than to anamniote. However, SOX9 lacks the PQA-rich domain present in amniotes. In larvae, SOX9 is expressed in both sexes in gonad-mesonephros complexes as soon as stage 42, before gonad differentiation. At stage 54(60d) at which testis differentiation is already in progress, analyses of isolated gonads reveal a male-enriched expression of SOX9, which was quantified by real-time PCR. At the end of metamorphosis (stage 56), SOX9 shows a nuclear localization only in the testis. In adults, SOX9 is still expressed in testes and ovaries. In the ovary, SOX9 is found in oocytes from stage I to stage VI but it is never detected in the nucleus. Our results suggest that in P. waltl, like in non mammalian vertebrates, SOX9 could play a role during the late phase of gonad differentiation rather than in sex determination. Its role in germ cells of the adult ovary has still to be elucidated.

Molecular characterization of Pleurodeles waltl activation-induced cytidine deaminase.

Activation-induced cytidine deaminase (AID) is involved in immunoglobulin affinity maturation, gene conversion and class switch recombination. This protein is therefore a major actor in the creation of the antibody repertoire. We have isolated, for the first time, the AID mRNA from a urodele amphibian, Pleurodeles waltl. This mRNA encodes 198 amino acids and shares 70% and 76% of similarity with Xenopus laevis and human AID sequences, respectively. All consensus motifs necessary for AID functions are present, suggesting that AID is functional in P. waltl. P. waltl AID is encoded by five exons as in other species. However, in contrast to mammalian AID, no splice variant could be detected in that species. We also noted that AID is predominantly expressed in the spleen, the major secondary lymphoid organ of P. waltl, and that the transcriptional regulation of P. waltl AID is partially different from that found in higher vertebrates. Furthermore, we showed that AID is expressed early during P. waltl embryonic development.

Expression of Ca-binding protein recoverin in normal, surviving, and regenerating retina of Pleurodeles waltl adult triton.

Immunohistochemical study of the expression of recoverin (photoreceptor protein) in the retina of Pleurodeles waltl adult triton was carried out in health, during regeneration after removal, and under conditions of long-lasting detachment. Studies with polyclonal (monospecific) antibodies to recoverin showed that normally it is present in the internal segment, connective cilium, in distal portions of the external segments of cones and rods, and in Landolt clubs of displaced bipolar cells. Detachment of the retina is associated with translocation of recoverin from the photoreceptor processes to perikaryons, and the content of recoverin-positive displaced bipolar cells increases. During regeneration of the retina after its excision via conversion of the pigmented epithelial cells, recoverin is synthesized in the prospective photoreceptor perikaryons and then accumulates in the forming inner segments. Hence, recoverin can serve as a reliable marker in studies of photoreceptor differentiation and functioning during regeneration or survival of the retina.

Female-enriched and thermosensitive expression of steroidogenic factor-1 during gonadal differentiation in Pleurodeles waltl.

In the urodele amphibian Pleurodeles waltl, sex differentiation is genetically controlled, that is, ZZ male vs ZW female, but may be influenced by temperature, which induces a female-to-male sex reversal. We investigated whether steroidogenic factor 1 (SF-1) could be involved in Pleurodeles sex differentiation or in temperature-dependent sex reversal by cloning a Pleurodeles SF-1 cDNA and examining its developmental expression. The 468-amino-acid deduced protein is highly conserved in comparison with other species. In ZZ and ZW control larvae, SF-1 mRNA is detected at the first stage of the thermosensitive period (TSP) in the gonad-mesonephros-interrenal complex (GMI). By the end of TSP at stage 55, SF-1 is expressed in the gonad (Gd) and in the mesonephros-interrenal (MI) both in ZZ and ZW larvae. During this stage, a transient, ZW-specific increase of SF-1 transcription occurs not only in Gd but also in MI, this increase starting earlier in Gd than in MI. Therefore, in P. waltl, an SF-1 upregulation occurs after the onset of the ovarian-specific increase of aromatase mRNA expression. At the end of metamorphosis, the SF-1 transcription level in Gd and MI is nearly the same in both ZZ and ZW larvae. Besides, after long-term heat treatment leading to sex reversal, SF-1 mRNA upregulation is not observed in ZW larvae, in either Gd or MI. However, SF-1 expression is not decreased after a 48-h heat shock applied at the end of the TSP, suggesting that temperature has no inhibitory effect by itself in long-term heat treatment. Estradiol benzoate treatments show that, at the end of the TSP, SF-1 gene transcription could be controlled by the estrogen level. This is in accordance with the female-enriched SF-1 expression and the decreased SF-1 expression following long-term, sex-reversing heat treatment, which is known to decrease aromatase expression and activity. Thus, it is unlikely that SF-1 is directly involved in Pleurodeles temperature-dependent sex reversal.

Effects of a long-term spaceflight on immunoglobulin heavy chains of the urodele amphibian Pleurodeles waltl.

A variety of immune parameters are modified during and after a spaceflight. The effects of spaceflights on cellular immunity are well documented; however, little is known about the effects of these flights on humoral immunity. During the Genesis space experiment, two adult Pleurodeles waltl (urodele amphibian) stayed 5 mo onboard Mir and were subjected to oral immunization. Animals were killed 10 days after their return to earth. IgM and IgY heavy-chain transcripts in their spleens were quantified by Northern blotting. The use of the different VH families (coding for antibody heavy-chain variable domains) in IgM heavy chain transcripts was also analyzed. Results were compared with those obtained with ground control animals and animals reared in classical conditions in our animal facilities. We observed that, 10 days after the return on earth, the level of IgM heavy-chain transcription was normal but the level of IgY heavy-chain transcription was at least three times higher than in control animals. We also observed that the use of the different VH families in IgM heavy-chain transcripts was modified by the flight. These data suggest that the spaceflight affected the antibody response against the antigens contained in the food.

Steroids, aromatase and sex differentiation of the newt Pleurodeles waltl.

In the newt Pleurodeles waltl, genetic sex determination obeys female heterogamety (female ZW, male ZZ). In this species as in most of non-mammalian vertebrates, steroid hormones play a key role in sexual differentiation of gonads. In that context, male to female sex reversal can be obtained by treatment of ZZ larvae with estradiol. Male to female sex reversal has also been observed following treatment of ZZ larvae with testosterone, a phenomenon that was called the "paradoxical effect". Female to male sex reversal occurs when ZW larvae are reared at 32 degrees C during a thermosensitive period (TSP) that takes place from stage 42 to stage 54 of development. Since steroids play an important part in sex differentiation, we focussed our studies on the estrogen-producing enzyme aromatase during normal sex differentiation as well as in experimentally induced sex reversal situations. Our results based on treatment with non-aromatizable androgens, aromatase activity measurements and aromatase expression studies demonstrate that aromatase (i) is differentially active in ZZ and ZW larvae, (ii) is involved in the paradoxical effect and (iii) might be a target of temperature. Thus, the gene encoding aromatase might be one of the master genes in the process leading to the differentiation of the gonad in Pleurodeles waltl.

In vitro effect of metal ions on the activity of two amphibian glyceraldehyde-3-phosphate dehydrogenases: potential metal binding sites.

Glyceraldehyde-3-phosphate dehydrogenase (GAPDH, EC 1.2.1.12) was purified from two amphibian species, Xenopus laevis and Pleurodeles waltl. Comparative studies revealed that the two proteins differ by their subunit molecular masses, pI values and V8 digested peptide maps. The effect of zinc, cadmium and copper ions on GAPDH enzymatic activity has been examined in vitro. A time, metal concentration and metal type dependent inhibition was observed for both enzymes. X. laevis and P. waltl GAPDHs exhibit a much greater sensitivity to copper than to cadmium or zinc ions. Different half-lives and differential sensitivity to various metals was observed between the two enzymes with P. waltl GAPDH being remarkably tolerant to cadmium ions compared to the X. laevis enzyme. In order to understand the differential sensitivity of the two enzymes to metals, we produced 3D models of both X. laevis and P. waltl GAPDH structures based upon known 3D structures of GAPDHs from other species. This necessitated, in a first step, to clone a 900 bp cDNA fragment encoding the nearly full-length P. waltl GAPDH. Spatial motif searches on the homology models indicated potential metal binding sites involving cysteine and histidine residues outside the catalytic sites, existing only in either the X. laevis or the P. waltl GAPDH sequences.

Expression patterns of an Otx2 and an Otx5 orthologue in the urodele Pleurodeles waltl: implications on the evolutionary relationships between the balancers and cement gland in amphibians.

We report the characterization of an Otx2 and an Otx5 orthologue in the urodele Pleurodeles waltl. These two genes, termed PwOtx2 and PwOtx5, share highly conserved expression domains with their gnathostome counterparts at tailbud stages, like the developing forebrain ( PwOtx2), or the embryonic eye and epiphysis ( PwOtx5). As in Xenopus laevis, both are also transcribed in the dorsal lip of the blastopore during gastrulation and in anterior parts of the neural plate during neurulation. In addition, PwOtx5 displays a prominent expression in the developing balancers and the lateral non-neural ectoderm during neurulation, from which they derive. By contrast, PwOtx2 expression remains undetectable in the balancers and their presumptive territory. These data suggest that PwOtx5, but not PwOtx2, may be involved in the differentiation and early specification of balancers. Comparisons of Otx5 expression patterns in P. waltland X. laevis embryos suggest that, as previously shown for Otx2, changes in the regulatory mechanisms controlling Otx5 early expression in the non-neural ectoderm may occur frequently among amphibians. These changes may be related to the rise of cement glands in anurans and of balancers in urodeles. This hypothesis could account for some similarities between the two organs, but does not support a homology relationship between them.

Early development of NADPH diaphorase-expressing neurons in the brain of the urodele amphibian Pleurodeles waltl.

The distribution of nitrergic cells was studied in the brain of the urodele amphibian Pleurodeles waltl during embryonic and larval stages by means of NADPH-diaphorase histochemistry. The first positive neurons were observed at embryonic stage 30 in the ventrolateral area of the caudal rhombencephalon. Subsequently (stage 33b), weakly reactive cells appeared in the isthmic tegmentum, the mesencephalic tegmentum, the hypothalamus, and the nucleus of the solitary tract. At initial larval stages (34-38), two new groups of NADPH-diaphorase-positive cells appeared in the caudal telencephalon (the amygdaloid region) and in the middle reticular nucleus. During the beginning of the active larval life (stages 39-42), reactive cells were found in the granule cell layer of the olfactory bulb and in the telencephalic pallium. As in the adult, the nitrergic cells in the central nervous system are widely distributed during early development, pointing to important roles of nitric oxide through ontogenesis. The sequence of appearance of nitrergic cells suggests an early involvement in reticulospinal control most likely related to locomotor behavior.

Glycan composition of follicle (Sertoli) cells of the amphibian Pleurodeles waltl. A lectin histochemical study.

The glycan composition of the N- and O-linked oligosaccharides of the follicle (Sertoli) cells of the urodele amphibian Pleurodeles waltl testis were identified by lectin histochemistry, performed alone or in combination with enzymatic and chemical deglycosylation methods. The follicle cells were shown to contain: (1) Fuc, Galbeta(1,4)GlcNAc, GalNAc and Neu5Acalpha(2,3)Galbeta(1,4)GlcNAc in both N- and O-linked oligosaccharides; (2) Man in N-linked glycans; and (3) Galbeta(1,3)GalNAc in O-linked sugar chains. The follicle cells at the pre- and postmeiotic stages showed some differences in the UEA-1-positive Fuc characterisation, suggesting differences in the glycan composition. In addition, the sequence Neu5Acalpha(2,6)Gal/GalNAc was shown in the follicle cells only after spermiation, in the sperm-empty lobules of the developing glandular tissue. These results suggest that the follicle cells modify their glycoprotein content, probably for the performance of new roles, as the spermatogenetic cells develop. Thus the follicle cells surrounding male germ cells at different spermatogenetic stages would contain different glycoproteins involved in specific roles during male germ cell proliferation and maturation.

Carbohydrate moieties of the interstitial and glandular tissues of the amphibian Pleurodeles waltl testis shown by lectin histochemistry.

The amphibian testis is a useful model because of its zonal organisation in lobules, distributed along the cephalocaudal axis, each containing a unique germ cell type. Sperm empty lobules form the so-called glandular tissue at the posterior region of the gonad. Androgen production is limited to the cells of the interstitial tissue surrounding lobules with spermatozoa bundles and to the cells of the glandular tissue. In this work, we have studied the distribution of terminal carbohydrate moieties of N- and O-linked oligosaccharides in the interstitial and glandular tissue of the Pleurodeles waltl testis, by means of 14 lectins combined with chemical and enzymatic deglycosylation pretreatment. Some differences in glycan composition between the interstitial and the glandular tissue have been detected. Thus in both tissues, N-linked oligosaccharides contained mannose, Gal(beta1,4)GlcNAc, and Neu5Ac(alpha2,3)Gal(beta1,4)GlcNAc, while O-linked oligosaccharides contained Con A-positive mannose, Gal(beta1,3)GalNAc, Gal(beta1,4)GlcNAc, Neu5Ac(alpha2,3)Gal(beta1,4)GlcNAc, and WGA-positive GlcNAc. Fucose was also detected in both tissues. However, GlcNAc on N-linked oligosaccharides and GalNAc and Neu5Ac(alpha2,6)Gal/GalNAc on both N- and O-linked oligosaccharides were found only in the interstitial tissue. As glandular tissue cells arise from the innermost cells of interstitial tissue that surround lobules, the differences in the glycan composition of interstitial and glandular tissue shown in this work may be related to the start of androgen synthesis when steroid hormone (SH)-secreting cells develop.