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1. Novel budding mode in Polyandrocarpa zorritensis: a model for comparative studies on asexual development and whole body regeneration

Author

Scelzo, Marta, Alié, Alexandre, Pagnotta, Sophie, Lejeune, Camille, Henry, Pauline, Gilletta, Laurent, Hiebert, Laurel, Mastrototaro, Francesco, Tiozzo, Stefano, Ballarin, L, Burighel, P., Zaniolo, G., Laboratoire de Biologie du Développement de Villefranche sur mer (LBDV), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut de la Mer de Villefranche (IMEV), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Observatoire océanologique de Villefranche-sur-mer (OOVM), Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS), SAS PIGM'Azur, SAS PIGM'AZUR, Università degli studi di Bari Aldo Moro (UNIBA), Dipartimento di Biologia, Universita degli Studi di Padova, GRAMAT (DAM/GRAMAT), Direction des Applications Militaires (DAM), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Università degli studi di Bari Aldo Moro = University of Bari Aldo Moro (UNIBA), Università degli Studi di Padova = University of Padua (Unipd), Centre Commun de Microscopie Appliquée (CCMA), Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015 - 2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015 - 2019) (COMUE UCA), Instituto de Biociências, Universidade Federal de São Paulo, and Dipartimento di Biologia, Università degli Studi di Bari

Subjects
0106 biological sciences, Ascidians, Zooid, Ascidian, Evolution, [SDV]Life Sciences [q-bio], lcsh:Evolution, Apoptosis, Colonial life cycle, Tunicate, 010603 evolutionary biology, 01 natural sciences, Styelidae, 03 medical and health sciences, Botryllus, lcsh:QH359-425, Genetics, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, Budding, biology, Research, Regeneration (biology), Non-embryonic development, biology.organism_classification, [SDV.BDD.EO]Life Sciences [q-bio]/Development Biology/Embryology and Organogenesis, Epidermis (zoology), Blastogenesis, Evolutionary biology, Vasal budding, Developmental biology, Developmental Biology
Abstract

Background In tunicates, the capacity to build an adult body via non-embryonic development (NED), i.e., asexual budding and whole body regeneration, has been gained or lost several times across the whole subphylum. A recent phylogeny of the family Styelidae revealed an independent acquisition of NED in the colonial species Polyandrocarpa zorritensis and highlighted a novel budding mode. In this paper, we provide the first detailed characterization of the asexual life cycle of P. zorritensis. Results Bud formation occurs along a tubular protrusion of the adult epidermis, the stolon, in a vascularized area defined as budding nest. The bud arises through a folding of the epithelia of the stolon with the contribution of undifferentiated mesenchymal cells. This previously unreported mode of bud onset leads to the formation of a double vesicle, which starts to develop into a zooid through morphogenetic mechanisms common to other Styelidae. The budding nest can also continue to accumulate nutrients and develop into a round-shaped structure, designated as spherule, which represents a dormant form able to survive low temperatures. Conclusions To understand the mechanisms of NED and their evolution, it is fundamental to start from a robust phylogenetic framework in order to select relevant species to compare. The anatomical description of P. zorritensis NED provides the foundation for future comparative studies on plasticity of budding and regeneration in tunicates. Electronic supplementary material The online version of this article (10.1186/s13227-019-0121-x) contains supplementary material, which is available to authorized users.

Published
2019
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2. Evolutionary conservation of the placodal transcriptional network during sexual and asexual development in chordates

Author

Gasparini, F, Degasperi, V, Shimeld, SM, Burighel, P, and Manni, L

Abstract

Background: An important question behind vertebrate evolution is whether the cranial placodes originated de novo, or if their precursors were present in the ancestor of chordates. In this respect, tunicates are of particular interest as they are considered the closest relatives to vertebrates. They are also the only chordate group possessing species that reproduce both sexually and asexually, allowing both types of development to be studied to address whether embryonic pathways have been co-opted during budding to build the same structures. Results: We studied the expression of members of the transcriptional network associated with vertebrate placodal formation (Six, Eya, and FoxI) in the colonial tunicate Botryllus schlosseri. During both sexual and asexual development, each transcript is expressed in branchial fissures and in two discrete regions proposed to be homologues to groups of vertebrate placodes. Discussion: Results reinforce the idea that placode origin predates the origin of vertebrates and that the molecular network involving these genes was co-opted in the evolution of asexual reproduction. Considering that gill slit formation in deuterostomes is based on similar expression patterns, we discuss possible alternative evolutionary scenarios depicting gene co-option as critical step in placode and pharynx evolution. Developmental Dynamics 242:752-766, 2013. © 2013 Wiley Periodicals, Inc.

Published
2016

3. IN MEMORIAM ARMANDO SABBADIN 1920 - 2016

Author

Ballarin, L, Burighel, P, Cima, F, Manni, L, and Zaniolo, G

Subjects
lcsh:Biology (General), education, lcsh:QH301-705.5, health care economics and organizations, humanities
Abstract

Invertebrate Survival Journal, Vol 13 No 1 (2016)

Published
2016

7. Gut ultrastructure of the appendicularian Oikopleura dioica(Tunicata)

Author

Burighel, Paolo, Brena, Carlo, Martinucci, Gian Bruno, and Cima, Francesca

Abstract

Abstract. The appendicularians, planktonic tunicates, possess a specialized, external filtering system that captures food particles <1 μm in size. In this work the alimentary canal of Oikopleuradioica has been studied by serial sections of whole animals and ultrastructure. The gut includes a dorsal esophagus, a bilobed saccular stomach, and a curved intestine, divided into vertical, mid‐, and distal intestine (or rectum). No multicellular glands or cellular proliferative centers were found. Three main cell types were recognized, ciliated microvillar cells, globular cells and gastric band cells, with specializations reflecting different physiological roles in the various regions. Ciliated microvillar cells, the most diffuse, are considered to be involved in food propulsion, fecal pellet formation, absorption, and nutrient storage. Pinocytotic features and vacuoles suggest that absorption of macromolecules and intracellular digestion occur in the globular cells of the stomach and rectum. The large gastric band cells of the left lobe have typical features of intense protein synthesis and probably produce enzymes for extracellular digestion. Diffuse interdigitations of many cells enormously increase the plasmalemma surface and may be involved in liquid/ion exchange. Despite the apparent structural simplicity of the gut epithelium, O. dioicaefficiently processes food to fulfill the energy requirements of its exceptionally rapid life‐cycle.

Published
2001
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8. The peripheral nervous system of an ascidian, Botryllus schlosseri, as revealed by cholinesterase activity

Author

Burighel, Paolo, Sorrentino, Marina, Zaniolo, Giovanna, Thorndyke, Michael C., and Manni, Lucia

Abstract

Abstract. In this study we present the first detailed description of the motor component of the peripheral nervous system of an ascidian showing its three‐dimensional organization and the spatial relationships between nerves and contiguous organs. Nerves of the oozooid and blastozooid of the colonial ascidian Botryllus schlosseriwere analyzed using a histochemical method for detecting cholinesterase activity in whole‐mount preparations and in sections for light and electron microscopy. Except for the neural gland and gonads, all tissues are well innervated by cholinesterase‐reactive neurites. Each blastozooid of the colony possesses an individual nerve plexus which is not in continuity with that of adjacent zooids. The innervation of the mantle, oral and cloacal siphons, branchial basket, heart, and gut are described. Most organs possess a complex network of nerves often with multiple origins from different pathways. A sophisticated pattern is described for the first time in the gut, which receives innervation from the endostyle, the roof of the branchial basket, and the posterior mantle. Dilated axonal regions but no obvious cell bodies were recognized in the peripheral nervous system revealed by cholinesterase activity. The localization of nerves is discussed together with a consideration of their physiological role.

Published
2001
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9. Cytoskeleton Alterations by Tributyltin (TBT) in Tunicate Phagocytes

Author

Cima, Francesca, Ballarin, Loriano, Bressa, Giuliano, and Burighel, Paolo

Abstract

The effects of tributyltin chloride (TBT) on cytoskeletal components, as possible cell targets of toxicity, were examined on cultured hemocytes of the colonial ascidianBotryllus schlosseriby means of indirect immunofluorescence. The immunotoxic effect of 10 μM TBT (sublethal concentration) consists of (1) inhibition of yeast phagocytosis, Ca2+ATPase activity, and respiratory burst; (2) increase in intracellular Ca2+concentration; and (3) alterations in cell morphology. After 60 min, TBT-exposed amebocytes become spherical, withdrawing their long pseudopodia, and lose motility. Their microfilaments assemble in clusters around the peripheric cytoplasm, indicating massive disassembly, with the exception of unaltered adhesion plaques. Analogously, their microtubules reveal extensive disaggregation, being scattered in the cytoplasm and not recognizable as single filaments, whereas the microtubule organizing center (MTOC) is still visible. Treatment together with 20 μg/ml calmodulin (CaM) can partially restore the cytoskeleton architecture. These results suggest a relationship between TBT and Ca2+homeostasis in ascidian hemocytes. By interfering with Ca2+ATPase activity through CaM inhibition, either directly or indirectly, TBT induces an excess of intracellular Ca2+accumulation, which first causes internal disorganization of cytoskeletal proteins and consequently inhibition of phagocytosis, beginning from chemotaxis and particle adhesion.

Published
1998
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10. Tight and gap junctions in the intestinal tract of tunicates (urochordata): A freeze-fracture study

Author

Lane, Nancy J., Dallai, R., Burighel, P., and Martinucci, G. B.

Abstract

The intestinal tracts from seven different species of tunicates, some solitary, some colonial, were studied fine-structurally by freeze-fracture. These urochordates occupy an intermediate position phylogenetically between the vertebrates and the invertebrates. The various regions of their gut were isolated for examination and the junctional characteristics of each part investigated. All the species examined exhibited unequivocal vertebrate-like belts of tight-junctional networks at the luminal border of their intestinal cells. No septate junctions were observed. The tight junctions varied in the number of their component strands and the depth to which they extended basally, some becoming loose and fragmented towards that border. The junctions consisted of ridges or rows of intramembranous particles (IMPs) on the P face, with complementary, but offset, E face grooves into which IMPs sometimes fractured. Tracer studies show that punctate appositions, the thin-section correlate of these ridge/groove systems, are sites beyond which exogenous molecules do not penetrate. These junctions are therefore likely to represent permeability barriers as in the gut tract of higher chordates. Associated with these occluding zonular junctions are intermediate junctions, which exhibit no identifiable freeze-fracture profile, and macular gap junctions, characterized by a reduced intercellular cleft in thin section and by clustered arrays of P face particles in freeze-fractured replicas; these display complementary aggregates of E face pits. The diameters of these maculae are rarely very large, but in certain species (for example, Ciona), they are unusually small. In some tissues, notably those of Diplosoma and Botryllus, they are all of rather similar size, but very numerous. In yet others, such as Molgula, they are polygonal with angular outlines, as might be indicative of the uncoupled state. In many attributes, these various junctions are more similar to those found in the tissues of vertebrates, than to those in the invertebrates, which the adult zooid forms of these lowly chordates resemble anatomically.

Published
1986
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11. Toxicity of Organotin Compounds on Embryos of a Marine Invertebrate (Styela plicata;Tunicata)

Author

Cima, Francesca, Ballarin, Loriano, Bressa, Giuliano, Martinucci, Gianbruno, and Burighel, Paolo

Abstract

In order to clarify the interaction mechanism between organotin compounds and organisms, the effects of these compounds on the development of a benthonic filter-feeding invertebrate were studied. Embryos of the ascidianStyela plicatawere obtained in laboratory by cross-fertilization and their development was followedin vivoafter incubation with 0.1, 1, and 10 μMorganotin compounds for various exposure times. Moreover, embryos selected at opportune stages after incubation with 10 μMtributyltin (TBT) or triphenyltin (TPT) for 1 hr were observed at the electron microscope to recognize cell alterations. Results indicate that organotins significantly affect all stages of ascidian development in a dose- and time-dependent manner and the most sensitive stages are gastrula and neurula. These compounds are able to block development, giving rise to anomalous embryos with irreversible effects. The order of inhibition appears to be strongly dependent on the organotin liposolubility: TBT > dibutyltin (DBT) > monobutyltin (MBT) and TPT gt; tricyclohexyltin (TCHT). The mitosis block of blastomeres in the early stages may be related to an inhibition of the microtubule polymerization. Observations with light and electron microscopes reveal globe-shaped blastomeres with large intercellular spaces in the morula and gastrula stages, suggesting a toxic damage with alteration of the cytoskeleton. Moreover, the occurence of electron-dense precipitates of organotins in the inner membrane of mitochondria and morphological changes of their cristae suggest an inhibitory effect on oxidative phosphorylation which is conspicuous in the gastrula stage. In this stage, the size of the electron-dense aggregates grow from 50–70 to 110–170 nm, while at the same time the alteration of the cristae increases.

Published
1996
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12. The spherule cells of Holothuria polii Delle Chiaie, 1823, (Aspidochirata, Holothuroidea) during brown body formation: an ultrastructural study

Author

Patrizia Pagliara, Candia Carnevali, M. D., Burighel, P., Ballarin, L., Pagliara, Patrizia, Candia Carnevali, M. D., Burighel, P., and Ballarin, L.

Subjects
spherule cell, brown bodies, exocytosis, Holothuria, Holothuria, spherule cells, exocytosis, ultrastructure, Brown bodie
Abstract

Spherule cells are specific types of coelomocytes found in both the coelomic fluids and the connective tissues of many echinoderm groups and are characterised by large membrane-bound inclusions which completely fill their cytoplasm. In holothurians they are present in massive number in the coelomic fluids and are employed in brown body formation. Brown bodies are products of encapsulation and mainly consist of phagocytic amoebocytes and spherule cells: they surround foreign particles too large to be ingested by circulating phagocytes. During brown body formation, phagocytic amoebocytes flatten out over the surface of foreign particles to form unpigmented nodules which eventually aggregate into a single brown body in which many spherule cells are entrapped. Morphological modifications of spherule cells were studied in Holothuria polii following the induction of brown body formation by intracoelomic injection of sheep erythrocytes. Our ultrastructural observations provide evidence that the granules undergo typical exocytosis after previous disorganisation of their content and suggest a specific secretory activity for the spherule cells. The possible functional role of the secreted vacuolar material in brown body formation is discussed.

13. Sexual and asexual development: two distinct programs producing the same tunicate

Author

Kowarsky, Mark, Anselmi, Chiara, Hotta, Kohji, Burighel, Paolo, Zaniolo, Giovanna, Caicci, Federico, Rosental, Benyamin, Neff, Norma F., Ishizuka, Katherine J., Palmeri, Karla J., Okamoto, Jennifer, Gordon, Tal, Weissman, Irving L., Quake, Stephen R., Manni, Lucia, and Voskoboynik, Ayelet

Abstract

Colonial tunicates are the only chordate that possess two distinct developmental pathways to produce an adult body: either sexually through embryogenesis or asexually through a stem cell-mediated renewal termed blastogenesis. Using the colonial tunicate Botryllus schlosseri, we combine transcriptomics and microscopy to build an atlas of the molecular and morphological signatures at each developmental stage for both pathways. The general molecular profiles of these processes are largely distinct. However, the relative timing of organogenesis and ordering of tissue-specific gene expression are conserved. By comparing the developmental pathways of B. schlosseriwith other chordates, we identify hundreds of putative transcription factors with conserved temporal expression. Our findings demonstrate that convergent morphology need not imply convergent molecular mechanisms but that it showcases the importance that tissue-specific stem cells and transcription factors play in producing the same mature body through different pathways.

Published
2021
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15. The spherule cells of Holothuria polii Delle Chiaie, 1823 (Aspidochirota, Holothuroidea) during brown body formation: An ultrastructural study

Author

Pagliara, P., M.Daniela Candia Carnevali, Burighel, P., and Ballarin, L.

Subjects
Inclusion Bodies, Microscopy, Electron, Erythrocytes, Foreign-Body Reaction, Sea Cucumbers, Settore BIO/05 - Zoologia, Animals, Exocytosis
Abstract

Spherule cells are specific types of coelomocytes found in both the coelomic fluids and the connective tissues of many echinoderm groups and are characterised by large membrane-bound inclusions which completely fill their cytoplasm. In holothurians they are present in massive number in the coelomic fluids and are employed in brown body formation. Brown bodies are products of encapsulation and mainly consist of phagocytic amoebocytes and spherule cells: they surround foreign particles too large to be ingested by circulating phagocytes. During brown body formation, phagocytic amoebocytes flatten out over the surface of foreign particles to form unpigmented nodules which eventually aggregate into a single brown body in which many spherule cells are entrapped. Morphological modifications of spherule cells were studied in Holothuria polii following the induction of brown body formation by intracoelomic injection of sheep erythrocytes. Our ultrastructural observations provide evidence that the granules undergo typical exocytosis after previous disorganisation of their content and suggest a specific secretory activity for the spherule cells. The possible functional role of the secreted vacuolar material in brown body formation is discussed.

16. Cytology, Histology and Histochemistry

Author

Accordi, F., primary, Albanese, M. P., additional, Cannata, F., additional, Calabho', C., additional, Ponar, L. Acosta, additional, Alfei, L., additional, Bertoncello, G., additional, Pace, C., additional, Gelosi, E., additional, Parvopassu, F., additional, Baccetti, B., additional, Gibbons, B., additional, Gibbons, J., additional, Bairati, A., additional, Cheli, F., additional, de Biasi, S., additional, Vitellaro‐Zuccarello, L., additional, Bianchi, S., additional, di Cosmo, A., additional, Brizzi, R., additional, Delfino, G., additional, Calloni, C., additional, Cetta, G., additional, Civinini, A., additional, Castrucci, B., additional, Facciola, C., additional, Zerunian, S., additional, Mastrolia, L., additional, Conti‐Devirgiliis, L., additional, Dini, L., additional, Russo‐Caia, S., additional, Coppellotti, O., additional, Trito, P., additional, Guidolin, L., additional, Piccinni, E., additional, Corso, G., additional, Pala, M., additional, Casu, S., additional, Dallai, R., additional, Yin, Wen‐Ying, additional, Xue', Luxen, additional, de Eguileor, M., additional, di Lernia, L., additional, Lanzavecchia, G., additional, Paoletti, A., additional, Valvassori, R., additional, Faraldi, G., additional, Borgiani, L., additional, Farina, L., additional, Tagliafierro, G., additional, Ferri, D., additional, Liquori, G. E., additional, Fratello, B., additional, Sabatini, M. A., additional, Bianchi, F., additional, Sonetti, D., additional, Giambruni, A., additional, Verni, F., additional, Grandi, G., additional, Barbieri, R., additional, Colombo, G., additional, Grigolo, A., additional, Sacchi, L., additional, de Piceis Polver, P., additional, Cima, L., additional, Dealessi, F., additional, Laudani, U., additional, Guarnieri, P., additional, Irato, P., additional, Longo, G., additional, Viscuso, R., additional, de Luca, V., additional, Sottile, L., additional, Margotta, V., additional, Gibertini, G., additional, Bevilacqua, P., additional, Orticelli, G., additional, Martinucci, G. B., additional, Zaniolo, G., additional, Burighel, P., additional, Gallo, V. P., additional, de Pascalis, M., additional, Ventola, F., additional, Mezzasalma, V., additional, di Stefano, L., additional, Tognon, G., additional, Ghiretti‐Magaldi, A., additional, Milanesi, C., additional, Zatta, P., additional, Nano, P., additional, Bernocchi, G., additional, Gerzeli, G., additional, Nigro, M., additional, Gremigni, V., additional, Ottaviani, E., additional, Vergine, C., additional, Parrinello, N., additional, Arizza, V., additional, Canicatti', C., additional, Pascolini, R., additional, di Rosa, I., additional, Pica, A., additional, Corte, F. Della, additional, Pigini, E., additional, Miceli, C., additional, Luporini, P., additional, Raffioni, S., additional, Ravera, F., additional, Pestarino, M., additional, Rivola, V., additional, Miyake, A., additional, Mazzini, M., additional, Bigliardi, E., additional, Saita, A., additional, Comazzi, M., additional, Vallesi, A., additional, Loporini, P., additional, Viseuso, R., additional, Giuffrida, A., additional, Zaccone, G., additional, Fasulo, S., additional, Lioata, A., additional, Locascio, P., additional, and Ainis, L., additional

Published
1986
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17. Phagocyte dynamics in the blastogenetic cycle of the colonial ascidian Botryllus schlosseri: Cell senescence, segregation and clearance after efferocytosis.

Author

Cima F, Burighel P, Brunelli N, Ben Hamo O, and Ballarin L

Subjects
Animals, Respiratory Burst, Efferocytosis, Urochordata immunology, Urochordata physiology, Phagocytes immunology, Phagocytes physiology, Cellular Senescence, Phagocytosis, Reactive Oxygen Species metabolism, Apoptosis
Abstract

In the colonial ascidian Botryllus schlosseri, phagocytes are involved in the clearance of apoptotic cells and corpses during the periodical generation changes or takeovers (TOs) that assure the renewal of the colonial zooids. The persistent respiratory burst associated with efferocytosis, leads to the induction of senescence. Indeed, giant, senescent phagocytes are abundant in the colonial circulation at TO, whereas, in the other phases of the colonial blastogenetic cycle, they colonise the ventral islands (VIs), a series of mesenchymal niches located in the lateral lacunae of the mantle, on both sides of the subendostylar sinus. VI phagocytes produce reactive oxygen species probably as a consequence of the massive phagocytosis of effete cells. VIs are progressively dismantled with the progress of the blastogenetic phases and phagocytes are released in the peribranchial chamber via transepithelial expulsion to be definitely expelled with the outflowing water through the cloacal siphon., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2025
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18. Sixty years of experimental studies on the blastogenesis of the colonial tunicate Botryllus schlosseri.

Author

Manni L, Anselmi C, Cima F, Gasparini F, Voskoboynik A, Martini M, Peronato A, Burighel P, Zaniolo G, and Ballarin L

Subjects
Animals, Regeneration, Reproduction, Stem Cells cytology, Urochordata anatomy & histology, Urochordata genetics, Life Cycle Stages, Research, Urochordata embryology
Abstract

In the second half of the eighteenth century, Schlosser and Ellis described the colonial ascidian Botryllus schlosseri garnering the interest of scientists around the world. In the 1950's scientists began to study B. schlosseri and soon recognized it as an important model organism for the study of developmental biology and comparative immunology. In this review, we summarize the history of B. schlosseri studies and experiments performed to characterize the colony life cycle and bud development. We describe experiments performed to analyze variations in bud productivity, zooid growth and bilateral asymmetry (i.e., the situs viscerum), and discuss zooid and bud removal experiments that were used to study the cross-talk between consecutive blastogenetic generations and vascular budding. We also summarize experiments that demonstrated that the ability of two distinct colonies to fuse or reject is controlled by a single polymorphic gene locus (BHF) with multiple, codominantly expressed alleles. Finally, we describe how the ability to fuse and create chimeras was used to show that within a chimera somatic and germline stem cells compete to populate niches and regenerate tissue or germline organs. Starting from the results of these 60 years of study, we can now use new technological advances to expand the study of B. schlosseri traits and understand functional relationships between its genome and life history phenotypes., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2019
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19. Differentiation and Induced Sensorial Alteration of the Coronal Organ in the Asexual Life of a Tunicate.

Author

Manni L, Anselmi C, Burighel P, Martini M, and Gasparini F

Subjects
Animals, Biological Evolution, Mechanoreceptors cytology, Urochordata cytology, Cell Differentiation, Mechanoreceptors physiology, Urochordata physiology
Abstract

Tunicates, the sister group of vertebrates, possess a mechanoreceptor organ, the coronal organ, which is considered the best candidate to address the controversial issue of vertebrate hair cell evolution. The organ, located at the base of the oral siphon, controls the flow of seawater into the organism and can drive the "squirting" reaction, i.e., the rapid body muscle contraction used to eject dangerous particles during filtration. Coronal sensory cells are secondary mechanoreceptors and share morphological, developmental, and molecular traits with vertebrate hair cells. In the colonial tunicate Botryllus schlosseri, we described coronal organ differentiation during asexual development. Moreover, we showed that the ototoxic aminoglycoside gentamicin caused morphological and mechanosensorial impairment in coronal cells. Finally, fenofibrate had a strong protective effect on coronal sensory cells due to gentamicin-induced toxicity, as occurs in vertebrate hair cells. Our results reinforce the hypothesis of homology between vertebrate hair cells and tunicate coronal sensory cells.

Published
2018
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21. Evolutionary diversification of secondary mechanoreceptor cells in tunicata.

Author

Rigon F, Stach T, Caicci F, Gasparini F, Burighel P, and Manni L

Subjects
Animals, Hair Cells, Auditory ultrastructure, Mouth cytology, Mouth ultrastructure, Phylogeny, Urochordata classification, Urochordata genetics, Urochordata ultrastructure, Biological Evolution, Mechanoreceptors ultrastructure, Urochordata cytology
Abstract

Background: Hair cells are vertebrate secondary sensory cells located in the ear and in the lateral line organ. Until recently, these cells were considered to be mechanoreceptors exclusively found in vertebrates that evolved within this group. Evidence of secondary mechanoreceptors in some tunicates, the proposed sister group of vertebrates, has recently led to the hypothesis that vertebrate and tunicate secondary sensory cells share a common origin. Secondary sensory cells were described in detail in two tunicate groups, ascidians and thaliaceans, in which they constitute an oral sensory structure called the coronal organ. Among thaliaceans, the organ is absent in salps and it has been hypothesised that this condition is due to a different feeding system adopted by this group of animals. No information is available as to whether a comparable structure exists in the third group of tunicates, the appendicularians, although different sensory structures are known to be present in these animals., Results: We studied the detailed morphology of appendicularian oral mechanoreceptors. Using light and electron microscopy we could demonstrate that the mechanosensory organ called the circumoral ring is composed of secondary sensory cells. We described the ultrastructure of the circumoral organ in two appendicularian species, Oikopleura dioica and Oikopleura albicans, and thus taxonomically completed the data collection of tunicate secondary sensory cells. To understand the evolution of secondary sensory cells in tunicates, we performed a cladistic analysis using morphological data. We constructed a matrix consisting of 19 characters derived from detailed ultrastructural studies in 16 tunicate species and used a cephalochordate and three vertebrate species as outgroups., Conclusions: Our study clearly shows that the circumoral ring is the appendicularian homologue of the coronal organ of other tunicate taxa. The cladistic analysis enabled us to reconstruct the features of the putative ancestral hair cell in tunicates, represented by a simple monociliated cell. This cell successively differentiated into the current variety of oral mechanoreceptors in the various tunicate lineages. Finally, we demonstrated that the inferred evolutionary changes coincide with major transitions in the feeding strategies in each respective lineage.

Published
2013
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22. Muscle differentiation in a colonial ascidian: organisation, gene expression and evolutionary considerations.

Author

Degasperi V, Gasparini F, Shimeld SM, Sinigaglia C, Burighel P, and Manni L

Subjects
Actins genetics, Actins metabolism, Animals, Gene Expression Regulation, Developmental, Muscle Proteins genetics, Muscle Proteins metabolism, Muscles metabolism, Muscles ultrastructure, Phylogeny, Troponin T genetics, Troponin T metabolism, Urochordata embryology, Urochordata ultrastructure, Embryo, Nonmammalian embryology, Urochordata genetics, Urochordata metabolism
Abstract

Background: Ascidians are tunicates, the taxon recently proposed as sister group to the vertebrates. They possess a chordate-like swimming larva, which metamorphoses into a sessile adult. Several ascidian species form colonies of clonal individuals by asexual reproduction. During their life cycle, ascidians present three muscle types: striated in larval tail, striated in the heart, and unstriated in the adult body-wall., Results: In the colonial ascidian Botryllus schlosseri, we investigated organisation, differentiation and gene expression of muscle beginning from early buds to adults and during zooid regression. We characterised transcripts for troponin T (BsTnT-c), adult muscle-type (BsMA2) and cytoplasmic-type (BsCA1) actins, followed by in situ hybridisation (ISH) on sections to establish the spatio-temporal expression of BsTnT-c and BsMA2 during asexual reproduction and in the larva. Moreover, we characterised actin genomic sequences, which by comparison with other metazoans revealed conserved intron patterns., Conclusion: Integration of data from ISH, phalloidin staining and TEM allowed us to follow the phases of differentiation of the three muscle kinds, which differ in expression pattern of the two transcripts. Moreover, phylogenetic analyses provided evidence for the close relationship between tunicate and vertebrate muscle genes. The characteristics and plasticity of muscles in tunicates are discussed.

Published
2009
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23. External amebocytes guard the pharynx entry in a tunicate (Ascidiacea).

Author

Cima F, Ballarin L, Gasparini F, and Burighel P

Subjects
Acid Phosphatase metabolism, Agglutinins chemistry, Animals, Antigens, CD metabolism, Apyrase metabolism, Cells, Cultured, Esterases metabolism, Hemocytes metabolism, Hydrolysis, Lysosomes metabolism, Lysosomes ultrastructure, Microscopy, Electron, Narcissus chemistry, Organic Chemicals chemistry, Phagocytes metabolism, Pharynx metabolism, Pharynx ultrastructure, Seawater, Urochordata metabolism, Vacuoles metabolism, Vacuoles ultrastructure, Hemocytes ultrastructure, Phagocytes ultrastructure, Urochordata cytology
Abstract

In the present report, we describe the identification of unusual free amebocytes, completely exposed to seawater, which inhabit the inner surface of the oral and atrial siphons of the compound ascidian Botryllus schlosseri (Urochordata). The origin and biological role of these cells were studied by cytochemical and ultrastructural analysis. These amebocytes are mononucleate cells, with numerous round granules, varying in content, and long filopodia, which contact the cuticle protrusions of the tunic in the siphon. Histochemical, histoenzymatic and immunohistochemical assays were carried out under light microscopy on sections and on living and fixed cultured hemocytes. Results showed that the phagocytic blood cells and the free amebocytes of the siphons shared: (i) affinity for the alpha-mannose specific agglutinin of Narcissus pseudonarcissus (NPA), (ii) occurrence of hydrolytic activities of acid phosphatase and non-specific esterases inside lysosomal vesicles and large vacuoles, (iii) membrane labeling with the lipophilic dye PKH26 specific for phagocytic cells, (iv) anti-CD39 immunocytochemical labeling specific for lysosomes of mammalian macrophages. All histochemical data support the hypothesis that these cells are 'sentinel cells' belonging to the hyaline amebocyte population of the phagocytic differentiation line of the immunocytes, since they can also recognize and phagocytize carmine experimentally administered as target particles.

Published
2006
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24. Pitx genes in Tunicates provide new molecular insight into the evolutionary origin of pituitary.

Author

Christiaen L, Burighel P, Smith WC, Vernier P, Bourrat F, and Joly JS

Subjects
Amino Acid Sequence, Animals, Ciona intestinalis embryology, Cloning, Molecular, DNA, Complementary chemistry, DNA, Complementary genetics, Embryo, Nonmammalian metabolism, Embryonic Development, Gene Expression Regulation, Developmental, In Situ Hybridization, Molecular Sequence Data, Phylogeny, Sequence Alignment, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Urochordata embryology, Ciona intestinalis genetics, Evolution, Molecular, Homeodomain Proteins genetics, Pituitary Gland metabolism, Urochordata genetics
Abstract

We have initiated a project aimed at documenting molecular and cellular changes underlying the emergence of the hypothalamo-hypophyseal axis in Chordates. Considering the phylogenetic position of Tunicates and the 'pan-hypophyseal' expression pattern of Pitx genes in Vertebrate pituitary, we searched for a Pitx-related homeobox gene in the ascidian Ciona intestinalis, and identified Ci-Pitx (ona intestinalis uitary homeobo gene). We also isolated Cs-Pitx and Bs-Pitx, the Ci-Pitx respective counterparts of Ciona savignyi and Botryllus schlosseri, two other Tunicate species. Ci-Pitx mRNA encodes a putative protein exhibiting the diagnostic K50-Paired-class homeodomain and a conserved C-terminal Aristaless domain. Embryonic expression pattern of Ci-Pitx revealed a conserved expression domain in the anterior neural ridge and subsequently in the pharyngeal primordium, defined in Vertebrates as the stomodeal ectomere, which encompasses the presumptive pituitary territory. This shows that expression at early steps of pituitary development is a feature of Pitx-related genes that was already present in the last common ancestor of Chordates.

Published
2002
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