Nerve cells of Xenoturbella bocki (phylum uncertain) and Harrimania kupfferi (Enteropneusta) are positively immunoreactive to antibodies raised against echinoderm neuropeptides

Thomas Stach; Samuel Dupont; Olle Israelson; Geraldine Fauville; Hiroaki Nakano; Tobias Kånneby; Mike Thorndyke

doi:10.1017/S0025315405012725

Abstract

The phylogenetic position of Xenoturbella spp. has been uncertain since their discovery in 1949. It has been recently suggested that they could be related to Ambulacraria within Deuterostomia. Ambulacraria is a taxon that has been suggested to consist of Hemichordata and Echinodermata. The hypothesis that X. bocki was related to Ambulacraria as well as the hypothesis of a monophyletic Ambulacraria is primarily based on the analysis of DNA sequence data. We tested both phylogenetic hypotheses using antibodies raised against SALMFamide 1 and 2 (S1, S2), neuropeptides isolated from echinoderms, on X. bocki and the enteropneust Harrimania kupfferi. Both species showed distinct positive immunoreactivity against S1 and S2. This finding supports the Ambulacraria-hypothesis and suggests a close phylogenetic relationship of X. bocki to Ambulacraria. In particular, the presence of immunoreactivity against S2 can be interpreted as a synapomorphy of Enteropneusta, Echinodermata, and Xenoturbella spp.

Crossref Citations

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Bourlat, Sarah J. Juliusdottir, Thorhildur Lowe, Christopher J. Freeman, Robert Aronowicz, Jochanan Kirschner, Mark Lander, Eric S. Thorndyke, Michael Nakano, Hiroaki Kohn, Andrea B. Heyland, Andreas Moroz, Leonid L. Copley, Richard R. and Telford, Maximilian J. 2006. Deuterostome phylogeny reveals monophyletic chordates and the new phylum Xenoturbellida. Nature, Vol. 444, Issue. 7115, p. 85.

Perseke, Marleen Hankeln, Thomas Weich, Bettina Fritzsch, Guido Stadler, Peter F. Israelsson, Olle Bernhard, Detlef and Schlegel, Martin 2007. The mitochondrial DNA of Xenoturbella bocki: genomic architecture and phylogenetic analysis. Theory in Biosciences, Vol. 126, Issue. 1, p. 35.

Israelsson, O. 2007. Ultrastructural aspects of the ‘statocyst’ of Xenoturbella (Deuterostomia) cast doubt on its function as a georeceptor. Tissue and Cell, Vol. 39, Issue. 3, p. 171.

Telford, Maximilian J. 2008. Xenoturbellida: The fourth deuterostome phylum and the diet of worms. genesis, Vol. 46, Issue. 11, p. 580.

Fritzsch, Guido Böhme, Manja U. Thorndyke, Mike Nakano, Hiroaki Israelsson, Olle Stach, Thomas Schlegel, Martin Hankeln, Thomas and Stadler, Peter F. 2008. PCR survey of Xenoturbella bocki Hox genes. Journal of Experimental Zoology Part B: Molecular and Developmental Evolution, Vol. 310B, Issue. 3, p. 278.

Squires, Leah N. Rubakhin, Stanislav S. Wadhams, Andinet Amare Talbot, Kristen N. Nakano, Hiroaki Moroz, Leonid L. and Sweedler, Jonathan V. 2010. Serotonin and its metabolism in basal deuterostomes: insights fromStrongylocentrotus purpuratusandXenoturbella bocki. Journal of Experimental Biology, Vol. 213, Issue. 15, p. 2647.

Rieger, Verena Perez, Yvan Müller, Carsten H. G. Lipke, Elisabeth Sombke, Andy Hansson, Bill S. and Harzsch, Steffen 2010. Immunohistochemical analysis and 3D reconstruction of the cephalic nervous system in Chaetognatha: insights into the evolution of an early bilaterian brain?. Invertebrate Biology, Vol. 129, Issue. 1, p. 77.

Shu, D.-G. Conway Morris, S. Zhang, Z.-F. and Han, J. 2010. The earliest history of the deuterostomes: the importance of the Chengjiang Fossil-Lagerstätte. Proceedings of the Royal Society B: Biological Sciences, Vol. 277, Issue. 1679, p. 165.

Nielsen, Claus 2010. After all: Xenoturbella is an acoelomorph!. Evolution & Development, Vol. 12, Issue. 3, p. 241.

Perseke, Marleen Golombek, Anja Schlegel, Martin and Struck, Torsten H. 2013. The impact of mitochondrial genome analyses on the understanding of deuterostome phylogeny. Molecular Phylogenetics and Evolution, Vol. 66, Issue. 3, p. 898.

Achatz, Johannes G. Chiodin, Marta Salvenmoser, Willi Tyler, Seth and Martinez, Pedro 2013. The Acoela: on their kind and kinships, especially with nemertodermatids and xenoturbellids (Bilateria incertae sedis). Organisms Diversity & Evolution, Vol. 13, Issue. 2, p. 267.

Nakano, Hiroaki 2015. What is Xenoturbella?. Zoological Letters, Vol. 1, Issue. 1,

Haszprunar, Gerhard 2016. Review of data for a morphological look on Xenacoelomorpha (Bilateria incertae sedis). Organisms Diversity & Evolution, Vol. 16, Issue. 2, p. 363.

Nakano, Hiroaki Miyazawa, Hideyuki Maeno, Akiteru Shiroishi, Toshihiko Kakui, Keiichi Koyanagi, Ryo Kanda, Miyuki Satoh, Noriyuki Omori, Akihito and Kohtsuka, Hisanori 2017. A new species of Xenoturbella from the western Pacific Ocean and the evolution of Xenoturbella . BMC Evolutionary Biology, Vol. 17, Issue. 1,

Dittmann, Isabel L. Zauchner, Thomas Nevard, Lucy M. Telford, Maximilian J. and Egger, Bernhard 2018. SALMFamide2 and serotonin immunoreactivity in the nervous system of some acoels (Xenacoelomorpha). Journal of Morphology, Vol. 279, Issue. 5, p. 589.

Thiel, Daniel Franz-Wachtel, Mirita Aguilera, Felipe Hejnol, Andreas and Wray, Gregory 2018. Xenacoelomorph Neuropeptidomes Reveal a Major Expansion of Neuropeptide Systems during Early Bilaterian Evolution. Molecular Biology and Evolution, Vol. 35, Issue. 10, p. 2528.

Nakano, Hiroaki and Miyazawa, Hideyuki 2019. A New Species of Orthonectida That ParasitizesXenoturbella bocki: Implications for Studies onXenoturbella. The Biological Bulletin, Vol. 236, Issue. 1, p. 66.

Nakano, Hiroaki 2019. Evo-Devo: Non-model Species in Cell and Developmental Biology. Vol. 68, Issue. , p. 251.

Philippe, Hervé Poustka, Albert J. Chiodin, Marta Hoff, Katharina J. Dessimoz, Christophe Tomiczek, Bartlomiej Schiffer, Philipp H. Müller, Steven Domman, Daryl Horn, Matthias Kuhl, Heiner Timmermann, Bernd Satoh, Noriyuki Hikosaka-Katayama, Tomoe Nakano, Hiroaki Rowe, Matthew L. Elphick, Maurice R. Thomas-Chollier, Morgane Hankeln, Thomas Mertes, Florian Wallberg, Andreas Rast, Jonathan P. Copley, Richard R. Martinez, Pedro and Telford, Maximilian J. 2019. Mitigating Anticipated Effects of Systematic Errors Supports Sister-Group Relationship between Xenacoelomorpha and Ambulacraria. Current Biology, Vol. 29, Issue. 11, p. 1818.

Robertson, Helen E. Sebé-Pedrós, Arnau Saudemont, Baptiste Loe-Mie, Yann Zakrzewski, Anne-C. Grau-Bové, Xavier Mailhe, Marie-Pierre Schiffer, Philipp Telford, Maximilian J. and Marlow, Heather 2024. Single cell atlas of Xenoturbella bocki highlights limited cell-type complexity. Nature Communications, Vol. 15, Issue. 1,

Article contents

Nerve cells of Xenoturbella bocki (phylum uncertain) and Harrimania kupfferi (Enteropneusta) are positively immunoreactive to antibodies raised against echinoderm neuropeptides

Abstract

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Nerve cells of Xenoturbella bocki (phylum uncertain) and Harrimania kupfferi (Enteropneusta) are positively immunoreactive to antibodies raised against echinoderm neuropeptides

Abstract

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