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1.
Mar Environ Res ; 76: 108-13, 2012 May.
Article in English | MEDLINE | ID: mdl-21864892

ABSTRACT

Echinoderms possess unique connective tissues, called mutable collagenous tissues (MCTs), which undergo nervously mediated, drastic and reversible or irreversible changes in their mechanical properties. Connective tissue mutability influences all aspects of echinoderm biology and is a key-factor in the ecological success of the phylum. Due to their sensitivity to endogenous or exogenous agents, MCTs may be targets for a number of common pollutants, with potentially drastic effects on vital functions. Besides its ecological relevance, MCT represents a topic with relevance to several applied fields. A promising research route looks at MCTs as a source of inspiration for the development of novel biomaterials. This contribution presents a review of MCT biology, which incorporates recent ultrastructural, biomolecular and biochemical analyses carried out in a biotechnological context.


Subject(s)
Biotechnology , Connective Tissue/physiology , Echinodermata/cytology , Echinodermata/physiology , Animals , Biomechanical Phenomena
2.
Prog Mol Subcell Biol ; 39: 167-200, 2005.
Article in English | MEDLINE | ID: mdl-17152698

ABSTRACT

The regenerative phenomena that reproduce developmental processes in adult organisms and are regulated by endocrine and neurohumoral mechanisms can provide new sensitive tests for monitoring the effects of exposure to anthropogenic chemicals such as endocrine disrupter (ED) contaminants. These pollutants in fact can be bioaccumulated by the organisms, causing dysfunctions in steroid hormone production/metabolism and activities and inducing dramatic effects on reproductive competence, development and growth in many animals, man included. Current research is exploring the effects of exposure to different classes of compounds well known for their ED activity, such as polychlorinated biphenyls (PCBs), nonylphenols and organotins, on regenerative potential of echinoderms, a relatively unexplored and promising applied approach which offers the unique chance to study physiological developmental processes in adult animals. The selected test species is the crinoid Antedon mediterranea, which represents a valuable experimental model for investigation into the regenerative process from the macroscopic to the molecular level. The present study employs an integrated approach which combines exposure experiments, chemical analysis and biological analysis utilizing classical methods of light (LM) and electron (TEM and SEM) microscopy and immunocytochemistry. The experiments were carried out on experimentally induced arm regenerations in controlled conditions with exposure concentrations comparable to those of moderately polluted coastal zones in order to reproduce common conditions of exposure to environmental contaminants. The results of the exposure tests were analysed in terms of effects at the whole organism, at the tissue and cellular level, and possible sites of action of EDs. Our results show that prolonged exposure to these compounds significantly affects the regenerative mechanisms by inducing appreciable anomalies in terms of regeneration times, overall growth, general morphology and histological and cellular pattern. A concentration/effect relationship could be found for all substances. Interestingly, contrasting results in terms of inhibition or acceleration of regeneration phenomenon were obtained for different chemicals.


Subject(s)
Echinodermata/drug effects , Ecology/methods , Endocrine Disruptors/pharmacology , Endocrine System/metabolism , Environmental Monitoring/methods , Regeneration , Animals , Biomarkers , Echinodermata/metabolism , Models, Animal , Models, Biological , Models, Chemical , Toxicology/methods
3.
Proc Biol Sci ; 270(1522): 1341-7, 2003 Jul 07.
Article in English | MEDLINE | ID: mdl-12965024

ABSTRACT

Invertebrates have frequently been used to help understand the complexities of regulatory gene function and evolution. The bone morphogenetic proteins (BMPs) are a highly conserved group of secreted regulatory factors that play an important part in early embryonic patterning. In the present study we have used the remarkable regenerative potential of crinoid echinoderms to explore the BMPs' site of expression in an adult developmental programme. Our results suggest that a crinoid BMP2/4 homologue is actively involved during the early stages of blastemal regeneration at a time when fundamental patterns are being established. This supports the idea of an evolutionary developmental programme where essential gene families are conserved throughout phylogeny in terms of both expression and function.


Subject(s)
Bone Morphogenetic Proteins/metabolism , Invertebrates/physiology , Regeneration/physiology , Transforming Growth Factor beta/metabolism , Amino Acid Sequence , Animals , Bone Morphogenetic Proteins/chemistry , Bone Morphogenetic Proteins/genetics , Evolution, Molecular , Gene Expression Regulation , Invertebrates/genetics , Molecular Sequence Data , Sequence Alignment , Sequence Homology, Amino Acid , Transforming Growth Factor beta/chemistry , Transforming Growth Factor beta/genetics
4.
Proc Biol Sci ; 269(1502): 1741-7, 2002 Sep 07.
Article in English | MEDLINE | ID: mdl-12350260

ABSTRACT

The phylum Echinodermata is well known for its extensive regenerative capabilities. Although there are substantial data now available that describe the histological and cellular bases of this phenomenon, little is known about the regulatory molecules involved. Here, we use an immunochemical approach to explore the potential role played by putative members of the transforming growth factor-beta (TGF-beta) family of secreted proteins in the arm regeneration process of the crinoid Antedon mediterranea. We show that a TGF-beta-like molecule is present in normal and regenerating arms both in a propeptide form and in a mature form. During regeneration, the expression of the mature form is increased and appears to be accompanied by the appearance of an additional isoform. Immunocytochemistry indicates that TGF-beta-like molecules are normally present in the nervous tissue and are specifically localized in both neural elements and non-neural migratory cells, mainly at the level of the brachial nerve. This pattern increases during regeneration, when the blastemal cells show a particularly striking expression of this molecule. Our data indicate that a TGF-beta-like molecule (or molecules) is normally present in the adult nervous tissues of A. mediterranea and is upregulated significantly during regeneration. We suggest that it can play an important part in the regenerative process.


Subject(s)
Echinodermata/physiology , Regeneration/physiology , Transforming Growth Factor beta/metabolism , Animals , Blotting, Western , Immunohistochemistry , Protein Serine-Threonine Kinases , Receptor, Transforming Growth Factor-beta Type II , Receptors, Transforming Growth Factor beta/metabolism , Signal Transduction
5.
J Exp Biol ; 204(Pt 5): 843-8, 2001 Mar.
Article in English | MEDLINE | ID: mdl-11171408

ABSTRACT

The study of regeneration in armed echinoderm species, including crinoids, ophiuroids and asteroids, is attracting increasing attention. Recent interest has focused on the presence and potential role of growth factors, including members of the nerve growth factor (NGF) and transforming growth factor-beta (TGF-beta) families, in the regenerative process and their possible relationship to the normal developmental (ontogenetic) regulatory cascade. In addition, the expression patterns of the heat-shock family of stress proteins (Hsps) during regeneration are also important. Their role forms part of a normal stress response to the trauma of autotomy in combination with a putative function in tissue remodelling and associated protein turnover during regeneration. The temporal dynamics of the stress response may also be strongly indicative of environmentally adaptive pressures operating on these systems.


Subject(s)
Echinodermata/physiology , Growth Substances/physiology , Heat-Shock Proteins/physiology , Regeneration , Amino Acid Sequence , Animals , Bone Morphogenetic Proteins/physiology , Environment , Extremities/physiology , Humans , Immunohistochemistry , Molecular Sequence Data , Nerve Growth Factor/physiology , Sequence Alignment , Stress, Physiological , Transforming Growth Factor beta/analysis , Transforming Growth Factor beta/chemistry , Transforming Growth Factor beta/physiology
6.
Mar Biotechnol (NY) ; 3(1): 4-15, 2001 Jan.
Article in English | MEDLINE | ID: mdl-14961384

ABSTRACT

All organisms show a common defensive mechanism that results in the expression of conserved heat shock proteins (Hsps). These proteins function in a wide range of stressful conditions. We have monitored their levels in species of regenerating echinoderms with different mechanisms of regeneration and from different geographical locations. The effect of an artificial higher temperature on expression of Hsps was also studied. Two stress proteins (Hsp72 and ubiquitin) that are important in processes such as development and protein degradation were investigated. Using Western blot analysis and immunocytochemistry, we found significant changes in the level (Hsp72) and pattern of conjugation (ubiquitin) that corresponded with the repair phase (early regenerative stages) and with the later growth and regeneration of new tissues. Animals from the intertidal environment showed a distinctly sustained expression pattern of Hsp72 compared with benthic animals which suggests a functionally adaptative and dynamic stress response program.

8.
Microsc Res Tech ; 55(6): 403-26, 2001 Dec 15.
Article in English | MEDLINE | ID: mdl-11782071

ABSTRACT

Crinoids are well known for their striking regenerative potential and can rapidly and completely regenerate arms lost following self-induced or traumatic amputation. Thus they provide a valuable experimental model for investigation of the regenerative process from the macroscopic to the molecular level. In these last years we have studied in detail the overall process of arm regeneration in the comatulid Antedon mediterranea. This phenomenon can be described on the whole as a typical blastemal regeneration in which new structures develop from migratory pluripotential, actively proliferating cells in the presence of presumptive regulatory factors. The overall process can be subdivided into three main phases: a repair phase, an early regenerative phase, and an advanced regenerative phase, whose crucial aspects are related to common fundamental mechanisms such as cell migration and proliferation, intervention of stem cells and/or dedifferentiated cells, contribution of putative growth factors, particularly in terms of specific neurally derived factors, and mechanisms of pattern formation. This article focuses on the main aspects of the phenomenon and gives a brief account of the most recent and relevant results. Our approach employs classical methods of light (LM) and electron (TEM and SEM) microscopy, immunocytochemistry, and histofluorescence on experimentally induced arm regenerations of standard or abnormal type obtained in significantly different experimental conditions, including extreme mutilations (explants) or exposure to pseudo-estrogenic environmental contamination.


Subject(s)
Echinodermata/physiology , Animals , Echinodermata/anatomy & histology , Echinodermata/classification , Echinodermata/ultrastructure , Microscopy, Electron, Scanning , Regeneration/physiology
9.
Anat Embryol (Berl) ; 198(6): 487-504, 1998 Dec.
Article in English | MEDLINE | ID: mdl-9833688

ABSTRACT

Growth of laterarl muscle in the teleost fish Sparus aurata (L.) was examined from hatching to juvenile by a basic morphofunctional approach that takes into account structural and ecophysiological aspects and combines in vivo observations and LM and TEM microscopic analysis. As shown in most teleost fishes, muscle growth proceeds by a double mechanism of hyperplasia and hypertrophy that contribute differentially to the overall development of the lateral muscle, giving rise in each myomere to a typical pattern of structurally and functionally different fibre types (slow-red and fast-white fibres, plus pink intermediate fibres) in a nerve-dependent process. During larval life the muscle growth takes place mainly due to hyperplastic growth at the level of specific proliferative zones of the myomeres, from which slow, pink and white muscle fibres are derived. In those species that reach a large adult size a new typical hyperplastic process disseminated throughout the fast white muscle layer takes place during post-larval life. In contrast, hypertrophic growth occurs in all stages, but is the dominant mechanism of muscle growth only in juvenile and adult. The suitable recruitment of the different fibre types enables the fish to optimize its performances according to specific functional and metabolic requirements related to the swimming behaviour and hydrodynamic regimes. The different mechanisms of growth are here analysed in their detailed structural and ultrastructural aspects in order to interpret their adaptive significance in the light of the fish life cycle, with particular reference to locomotion and feeding behaviour.


Subject(s)
Muscle Development , Muscle, Skeletal/growth & development , Perciformes/physiology , Animals , Female , Larva/growth & development , Male , Muscle Fibers, Skeletal/physiology , Muscle Fibers, Skeletal/ultrastructure , Muscle, Skeletal/ultrastructure , Swimming/physiology
10.
Dev Genes Evol ; 208(8): 421-30, 1998 Oct.
Article in English | MEDLINE | ID: mdl-9799422

ABSTRACT

Crinoid echinoderms can provide a valuable experimental model for studying all aspects of regenerative processes from molecular to macroscopic level. Recently we carried out a detailed study into the overall process of arm regeneration in the crinoid Antedon mediterranea and provided an interpretation of its basic mechanisms. However, the problem of the subsequent fate of the amputated arm segment (explant) once isolated from the animal body and of its possible regenerative potential have never been investigated before. The arm explant in fact represents a simplified and controlled regenerating system which may be very useful in regeneration experiments by providing a valuable test of our hypotheses in terms of mechanisms and processes. In the present study we carried out a comprehensive analysis of double-amputated arm explants (i.e. explants reamputated at their distal end immediately after the first proximal amputation) subjected to the same experimental conditions as the regenerating donor animals. Our results showed that the explants undergo similar regenerative processes but with some significant differences to those mechanisms described for normal regenerating arms. For example, whilst the proximal-distal axis of arm growth is maintained, there are differences in terms of the recruitment of cells which contribute to the regenerating tissue. As with normal regenerating arms, the present work focuses on (1) timing and modality of regeneration in the explant; (2) proliferation, migration and contribution of undifferentiated and/or dedifferentiated/transdifferentiated cells; (3) putative role of neural growth factors. These problems were addressed by employing a combination of conventional microscopy and immunocytochemistry. Comparison between arm explants and regenerating arms of normal donor adults indicates an extraordinary potential and regenerative autonomy of crinoid tissues and the cellular plasticity of the phenomenon.


Subject(s)
Echinodermata/physiology , Regeneration , Animals , Cell Division , Echinodermata/cytology , Echinodermata/metabolism , Immunohistochemistry , Microscopy, Electron , Transforming Growth Factor beta/metabolism
11.
Cell Tissue Res ; 289(2): 363-74, 1997 Aug.
Article in English | MEDLINE | ID: mdl-9211839

ABSTRACT

The overall process of arm regeneration in the crinoid Antedon mediterranea is a typical epimorphic process (blastemal regeneration). This can be subdivided into three main phases: a repair phase, an early regenerative phase, and an advanced regenerative phase. The crucial problem of the identification of cell lineages responsible for both repair and regenerative processes has been approached by monitoring cell proliferation during the advanced regenerative phase using light-microscopic and ultrastructural immunocytochemical methods to detect the incorporation of the thymidine analogue bromodeoxyuridine (BrdU) into regenerating tissues. Various treatment protocols and BrdU incubation times have been employed and provided information not only on the sources, sites of proliferation, and recruitment times of the new cells, but also on the cell lineage involved and subsequent fate (differentiation and/or migration) of the labelled cells. Our results are consistent with the following conclusions: (1) The arm regeneration process is due to a massive intervention of active proliferating cells identifiable as migratory, morphologically undifferentiated cells (amoebocytes and coelomocytes). (2) The preferential proliferation sites of these cells are the terminal blastema, the coelomic epithelium, and the brachial nerve of both the regenerating arm and the stump, even far from the amputation. (3) The two main cell components contributing to the regenerate have different origins: the blastemal cells and all the cell lineages derived from the amoebocytes; the coelomic cells from the migratory coelomocytes, in their turn derived from proliferation of the coelomic epithelium. (4) The blastemal regeneration of Antedon is due to a combined recruitment of pluripotent elements, implying the intervention of presumptive stem cells (amoebocytes) and the transdifferentiation/dedifferentiation of differentiated elements of the coelomic epithelium.


Subject(s)
Bromodeoxyuridine/metabolism , Echinodermata/metabolism , Animals , Echinodermata/anatomy & histology , Regeneration
12.
Eur J Cell Biol ; 71(3): 293-302, 1996 Nov.
Article in English | MEDLINE | ID: mdl-8929568

ABSTRACT

To investigate the role of dynamic changes in actin cytoskeleton in cellular response to oxidative stress, we have analyzed the state of actin polymerization and synthesis in human alveolar cells exposed to paraquat, an oxidant agent. Cellular content of monomeric actin was assayed by DNase I inhibition. It decreased significantly in treated cells and depended on paraquat concentration. Paraquat treatment of cells caused an increase of the filamentous pool of actin and a parallel decrease of the monomeric one. Such shift was shown to be irreversible. SDS-PAGE of cytoskeletal fractions was performed under reducing and non-reducing conditions. No cross-linking of actin monomers to form large aggregates appeared to be related to the observed paraquat-induced increase of the filamentous actin pool. Morphological analyses by indirect immunofluorescence and ultrastructural examination confirmed the presence of microfilaments in treated cells. Conventional bundles of filaments were not observed, but numerous single filaments appeared dispersed within the cytoplasm. Pulse-chase experiments showed a strong increase of de novo synthesis of actin in treated cells, whereas actin degradation rate remained unaffected. In conclusion, the different approaches lead to a concordant picture of cellular response to oxidant stress at the level of the actin filament system. Actin pools are modified: the overall number of filaments increases, whereas the monomeric species decreases. As a result of the shift of actin from the monomeric pool to the filamentous one, the de novo synthesis of actin is increased.


Subject(s)
Actins/metabolism , Herbicides/pharmacology , Paraquat/pharmacology , Pulmonary Alveoli/metabolism , Electrophoresis, Polyacrylamide Gel , Fluorescent Dyes/metabolism , Humans , Phalloidine/metabolism , Pulmonary Alveoli/cytology , Pulmonary Alveoli/drug effects , Rhodamines/metabolism , Tumor Cells, Cultured
13.
J Muscle Res Cell Motil ; 7(6): 568-78, 1986 Dec.
Article in English | MEDLINE | ID: mdl-3805259

ABSTRACT

The peculiar functional structure of the Z-line in the obliquely striated muscles of some feather stars is described. It is known that cross-striated muscles are characterized by linear and continuous Z-bands, and obliquely striated muscles by disconnected, obliquely aligned Z-elements. Owing to this discontinuous organization, the sarcomere can perform wide active lengthenings, shortenings, and even 'super-elongations' in the helical fibres. In contrast, the obliquely striated fibres of crinoids show markedly continuous and homogeneous oblique Z-lines; such a structure is not compatible with 'super-performances' like sliding and shearing of the sarcomere elements, but instead could allow functions comparable to those characteristic of a cross-striated muscle (quick, short movements, mechanically amplifiable by bone levers). This odd situation, only interpretable in terms of evolutionary constraint, could be considered opposite and symmetrical to that of cross-striated 'super-contracting' muscles, where the Z-line is exceptionally fragmented to allow the sarcomere to super-contract. The possible architecture of a significant parameter such as the Z-line, which determines muscle fibre potential capacities, is analysed in detail: through qualitative-quantitative evaluation of electron micrographs, supported by statistical analysis of the data; and by computer simulations. The data obtained suggest that the most realistic conformation of the whole Z-complex in these muscles consists of a multiple system of continuous, ribbon-like helical planes running in parallel along the fibre from end to end and regularly cutting it with a constant thickness. The proposed model seems morphologically compatible with the experimentally verified situations and functionally compatible with the mechanical requirements for a normal contraction and for a balanced distribution of the involved strengths.


Subject(s)
Echinodermata/anatomy & histology , Muscles/ultrastructure , Animals , Computer Simulation , Microscopy, Electron , Muscle Contraction
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