Tomas Bollner scite author profile

Bollner, T., Holmberg, K., Olsson, R. 1986. A rostra1 sensory mechanism in Oikopleura dioica (Appendicularia). (Department of Zoology, University of Stockholm, Sweden.)-Acta zoof. (Stockh.) 67, 235-241.The ventral sense organ, below the mouth, is composed of 30 primary sensory cells situated in a row perpendicular to the long axis of the animal. Each cell carries one long and slender, modified cilium which arises from ap apical pocket in the cell. The sensory cells project 15 axons at each side of the pharynx to the brain, which is rostrally paired and terminates in bulb-like swellings. Each of these bulbs contains four cell bodies, which, according to their fine structure, as well as the synaptic connections with receptor and brain fibers, belong to three different types. It is suggested that the sense organ is a chemosensor and that its remarkable similarity to the vertebrate mechanisms for olfaction makes it probable that the appendicularian Oikopleura dioica possesses a 'protochordate' counterpart to the craniate olfactory apparatus.

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Regeneration and post-metamorphic development of the central nervous system in the protochordate Ciona intestinalis: a study with monoclonal antibodies

Bollner

Howalt

Thorndyke

et al. 1995

Cell Tissue Res

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In this study, we use three monoclonal antibodies that recognise antigens present in the central nervous system of the ascidian Ciona intestinalis to study regeneration and post-metamorphic development of the neural ganglion. We have also used bromodeoxyuridine labelling to study generation of the neuronal precursor cells. The first antibody, CiN 1, recognises all neurones in the ganglion, whereas the second, CiN 2, recognises only a subpopulation of the large cortical neurones. Western blotting studies show that CiN 2 recognises two membrane-bound glycoproteins of apparent Mr 129 and 100 kDa. CiN 1 is not reactive on Western blots. Immunocytochemical studies with these antibodies show that CiN 1-immunoreactive neurone-like cells are present at the site of regeneration as early as 5-7 days post-ablation, a sub-population of CiN 2-immunoreactive cells being detected by 9-12 days post-ablation. The third antibody, ECM 1, stains extracellular matrix components and recognises two diffuse bands on Western blots of whole-body and ganglion homogenates. The temporal and spatial pattern of appearance of CiN 1 and CiN 2 immunoreactivity both during post-metamorphic development and in regeneration occurs in the same sequence in both processes. Studies with bromodeoxyuridine show labelled nuclei in some neurones in the regenerating ganglion. Plausibly these originate from the dorsal strand, an epithelial tube that reforms by cell proliferation during the initial phases of regeneration. A second population of cells, the large cortical neurones, do not incorporate bromodeoxyuridine and thus must have been born prior to the onset of regeneration. This latter finding indicates a mechanism involving trans-differentiation of other cell types or differentiation of long-lived totipotent stem cells.

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17α-Ethinyl estradiol affects anxiety and shoaling behavior in adult male zebra fish (Danio rerio)

et al. 2011

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Investigation of the contribution from peripheral GnRH-like immunoreactive ‘neuroblasts’ to the regenerating central nervous system in the protochordateCiona intestinalis

Bollner

Beesley

Thorndyke

1997

Proc. R. Soc. Lond. B

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The neural ganglion of the ascidian iona intestinalis regenerates in its entirety within a few weeks of ablation. Here we investigate the role of gonadotropin-releasing hormone-like immunoreactive (GnRHli) cells in regeneration. Immunocytochemical studies show that in addition to a previously described plexus of GnRH-like neurones located in association with the dorsal strand, the normal adult brain contains GnRH-li neurones. These are predominantly localized to the ventral cortical rind at the posterior of the ganglion. Following ablation, non-process bearing GnRH-li cells appear in the regenerating area within two days. By day 8 post-ablation, process bearing GnRH-li cells are detected close to the regenerating brain. The number of these cells increases at later stages. GnRH-li cells are first detected within the regenerating brain at 14 days post-ablation and their number subsequently increases. These cells are initially concentrated along the ventral surface of the regenerating brain near to the dorsal strand. Double labelling studies with bromodeoxyuridine show that none of the GnRH-li cells are labelled at any stage of regeneration. The data are consistent with a sub-population of the new neurones being derived from GnRH-li neuroblasts born prior to ablation, which migrate from the dorsal strand complex into the regenerating ganglion. * Author for correspondence : (m.thorndyke!rhbnc.ac.uk).

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Pattern of substance P‐ and cholecystokinin‐like immunoreactivity during regeneration of the neural complex in the ascidian Ciona intestinalis

Bollner

Beesley

Thorndyke

1992

J of Comparative Neurology

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The neural ganglion of ascidians exhibits a novel and rapid pattern of regeneration whereby within approximately 28-35 days of total ablation an entirely new neural complex is formed. In normal adults, neuronal cell bodies expressing substance P- (SP-Li), neurokinin A-(NKA-Li), CCK/gastrin- (CCK-Li), and insulin-like immunoreactivity exhibit a clearly defined pattern of localization in the cortical rind of the ganglion with characteristic long processes arising from the perikarya running throughout the neuropile. CCK-Li cell bodies are particularly concentrated close to the points of exit of the main nerve trunks. We have used antisera raised against these peptides to monitor the process of regeneration up to postoperative (pa) day 35. Only SP and CCK antisera produced positive staining in the regenerating tissue. Immunoreactive cell bodies first appear following 14 days pa. At this time CCK-Li neurons are more abundant than SP-Li neurons and in contrast to the pattern found in the normal adult ganglion, immunoreactive cell bodies are located both peripherally and centrally in the core of the ganglion and processes were rarely seen. Later stages exhibited an increasing number of SP-Li neurons and at 35 days pa SP-Li cell bodies clearly predominate. CCK-Li neurons typically become clustered close to the points of emergence of the anterior nerve roots. The early expression of CCK-Li and SP-Li molecules during regeneration is considered in terms of their potential role in development and cell proliferation in the newly forming ganglion.

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Tomas Bollner

A Rostral Sensory Mechanism in Oikopleura dioica (Appendicularia)

Regeneration and post-metamorphic development of the central nervous system in the protochordate Ciona intestinalis: a study with monoclonal antibodies

17α-Ethinyl estradiol affects anxiety and shoaling behavior in adult male zebra fish (Danio rerio)

Investigation of the contribution from peripheral GnRH-like immunoreactive ‘neuroblasts’ to the regenerating central nervous system in the protochordateCiona intestinalis

Pattern of substance P‐ and cholecystokinin‐like immunoreactivity during regeneration of the neural complex in the ascidian Ciona intestinalis

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