Is a mollusc an evolved bent metatrochophore? A histochemical investigation of neurogenesis in <i>Mytilus</i> (Mollusca: Bivalvia)

Raineri, Margherita

doi:10.1017/s0025315400039023

Cited by 28 publications

(31 citation statements)

References 27 publications

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“…Velar innervation had been thought to originate from the cerebral ganglia (Arkett et al 1987;Carter 1926Carter , 1928Mackie et al 1976), but more recently it has been shown that axons may actually emerge from cells of the apical organ in some of the Opisthobranchia (Kempf et al 1997;Marois and Carew 1997a-c) and I. obsoleta (Prosobranchia; see Lin and Leise 1996a, b). In addition, velar innervation has also been reported from cells that may comprise an apical organ in M. edulis (Bivalvia; see Croll et al 1997;Kulakovskiy and Flyachinskaya 1994;Raineri 1995;Raineri and Ospovat 1994). Although the origin of velar innervation could not be determined in C. fornicata from this present study, it is likely that such extensive innervation arises from the apical cells since fibers were observed in velar regions prior to the first cells of the cerebral or pedal ganglia.…”

Section: Innervation Of the Velummentioning

confidence: 53%

“…An apical organ has been reported in some of the Gastropoda (Bonar 1977(Bonar , 1978Chia and Koss 1984;Kempf et al 1991Kempf et al , 1997Lin and Leise 1996a, b;Marois and Carew 1997c;Moor 1983;Page 1993;Raineri 1995;Raineri and Ospovat 1994) and the Bivalvia (Raineri 1995;Raineri and Ospovat 1994) as well as many other swimming invertebrate larvae (see for example, Hay- Schmidt 1990a-c, 1995Lacalli 1981Lacalli , 1994. In many molluscs (Bonar 1978;Chia and Koss 1984;Kempf et al 1997;Leise 1996;Marois and Carew 1997a, b) and other invertebrates (see Lacalli 1994), the apical organ possesses flask-or vase-shaped cells with protruding cilia at the epithelial surface.…”

Section: Apical Organmentioning

confidence: 98%

“…The FMRFamide-LIR and serotonin-LIR cells in these various species appeared in early stages prior to the first cells of the cerebral ganglia. Neuronal elements located outside the region of the future adult central nervous system (CNS) have also been identified in early larval stages from the Bivalvia using techniques to localize acetylcholinesterase, catecholamines, and serotonin (Croll et al 1997;Kulakovskiy and Flyachinskaya 1994;Raineri 1995;Raineri and Ospovat 1994). The presence of such early elements suggests the possibility that the Mollusca possess larval nervous systems which appear early in development and can become relatively extensive, but that have gone largely unrecognized in the past.…”

Section: A Introductionmentioning

confidence: 99%

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Histochemical localization of FMRFamide, serotonin and catecholamines in embryonic Crepidula fornicata (Gastropoda, Prosobranchia)

Dickinson¹,

Nason

Croll³

1999

Zoomorphology

132

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Recent reports indicate that neuronal elements develop in early larval stages of some Gastropoda from the Pulmonata and Opisthobranchia prior to the appearance of any ganglia of the future adult central nervous system (CNS). The present study describes similar early neuronal elements in Crepidula fornicata. A posterior FMRFamide-like immunoreactive (LIR) cell with anteriorly projected fibers was observed in the trochophore stage. Additional FMRFamide-LIR and serotonin-LIR cells and fibers were found in the apical organ in the trochophore and early veliger stages. FMRFamide-LIR and serotonin-LIR projections to the velum and foot were also detected at this time. As the veliger developed, peripheral FMRFamide-LIR and later catecholaminergic cells were located in the foot region. Also during this stage, catecholaminergic cells and processes were observed near the mouth. In addition, this study tentatively identified the first serotonin-and FMRFamide-LIR cells and fibers within the developing ganglia of the adult CNS, which appeared in close proximity to the earlier developing elements. These observations are consistent with the hypothesis that, in addition to its presumed role in the control of larval behaviors, the larval nervous system guides the development of the adult CNS. Larvae from the class Bivalvia and other invertebrate phyla also have neuronal elements marked by the presence of FMRFamide, serotonin, and catecholamines, and, therefore, this study may provide additional insights into phylogenetic relationships of the Gastropoda with other representatives of the Mollusca and different invertebrate phyla.& b d y :

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Section: Innervation Of the Velummentioning

confidence: 53%

Section: Apical Organmentioning

confidence: 98%

Section: A Introductionmentioning

confidence: 99%

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Histochemical localization of FMRFamide, serotonin and catecholamines in embryonic Crepidula fornicata (Gastropoda, Prosobranchia)

Dickinson¹,

Nason

Croll³

1999

Zoomorphology

132

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“…The few studies that have focused on bivalves to date have examined only restricted developmental stages and/or employed histochemical staining techniques with limited resolution and questionable speciWcity (Ospovat et al 1989;Koolakovsky and Phlyachinskaya 1993;Raineri and Ospovat 1994;Raineri 1995). Although 5-HT-containing neuronal elements have been observed in the apical region of the bivalves Mytilus edulis (Linné 1758) (Croll et al 1997;Flyachinskaya 2000) and Spisula solidissima (Dillwyn 1817) (Kreiling et al 2001), the exact locations of these cells in the larval apical organ versus the cerebral ganglia are unclear.…”

Section: Introductionmentioning

confidence: 99%

“…On one hand, bivalves are generally considered more closely related phylogenetically to gastropods than to polyplacophorans (see Taylor 1996), while on the other hand, the nervous system of the trochophore of M. edulis has been suggested to closely resemble that of a larval annelid (Raineri 1995;Nielsen 2001). The anatomy of the adult annelid nervous system, however, more closely resembles (at least superWcially) that of polyplacophorans, rather than bivalves (Bullock and Horridge 1965;Beklemishev 1969).…”

Section: Introductionmentioning

confidence: 99%

Neuronal development in larval mussel Mytilus trossulus (Mollusca: Bivalvia)

et al. 2008

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Although our understanding of neuronal development in Trochozoa has progressed substantially in recent years, relatively little attention has been paid to the bivalve molluscs in this regard. In the present study, the development of FMRFamide-, serotonin-and catecholamine-containing cells in the mussel, Mytilus trossulus, was examined using immunocytochemical and histoXuorescent techniques. Neurogenesis starts during the trochophore stage at the apical extreme with the appearance of one FMRFamide-like immunoreactive (lir) and one serotonin-lir sensory cell. Later, Wve FMRFamide-lir and Wve serotonin-lir apical sensory cells appear, and their basal Wbres form an apical neuropil. Fibres of two lateral FMRFamide-lir apical cells grow posteriorly and at the time that they reach the developing foot, the Wrst FMRFamide-lir neurons of the pedal ganglia also appear. Subsequently, FMRFamide-lir Wbres grow further posteriorly and reach the caudal region where neurons of the developing visceral ganglia then begin to appear. In contrast, the Wve apical serotonin-lir neurons do not appear to project outside the apical neuropil until the late veliger stage. Catecholamine-containing cells are Wrst detected in the veliger stage where they appear above the oesophagus, and subsequently in the velum, foot, and posterior regions. Though neural development in M. trossulus partly resembles that of polyplacophorans in the appearance of the early FMRFamidergic elements, and of scaphopods in the appearance of the early serotonergic elements, the scenario of neural development in M. trossulus diVers considerably from that of other Trochozoa (bivalves, gastropods, polyplacophorans, scaphopods and polychaetes) studied to date.

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Trochophora larvae: Cell‐lineages, ciliary bands, and body regions. 1. Annelida and Mollusca

2004

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The trochophora concept and the literature on cleavage patterns and differentiation of ectodermal structures in annelids (''polychaetes'') and molluscs are reviewed. The early development shows some variation within both phyla, and the cephalopods have a highly modified development. Nevertheless, there are conspicuous similarities between the early development of the two phyla, related to the highly conserved spiral cleavage pattern. Apical and cerebral ganglia have almost identical origin in the two phyla, and the cell-lineage of the prototroch is identical, except for minor variations between species. The cell-lineage of the metatrochs is almost unknown, but the telotroch of annelids and the ''telotroch'' of the gastropod Patella originate from the 2d-cell, as does the gastrotroch in the few species which have been studied. The segmented annelid body, i.e. the region behind the peristome, develops through addition of new ectoderm from a ring of 2d-cells just in front of the telotroch. This whole region is thus derived from 2d-cells. Conversely, the mollusc body is covered by descendants of cells from both the C and D quadrants and a growth zone is not apparent. This supports the notion that the molluscs are not segmented like the annelids, and that the repeated structures seen in polyplacophorans and monplacophorans do not represent a segmentation homologous to that of the annelids.

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Is a mollusc an evolved bent metatrochophore? A histochemical investigation of neurogenesis in Mytilus (Mollusca: Bivalvia)

Cited by 28 publications

References 27 publications

Histochemical localization of FMRFamide, serotonin and catecholamines in embryonic Crepidula fornicata (Gastropoda, Prosobranchia)

Histochemical localization of FMRFamide, serotonin and catecholamines in embryonic Crepidula fornicata (Gastropoda, Prosobranchia)

Neuronal development in larval mussel Mytilus trossulus (Mollusca: Bivalvia)

Trochophora larvae: Cell‐lineages, ciliary bands, and body regions. 1. Annelida and Mollusca

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