Structure of the nervous system of Myzostoma cirriferum (Annelida) as revealed by immunohistochemistry and cLSM analyses

Müller, Mónika; Westheide, Wilfried

doi:10.1002/1097-4687(200008)245:2<87::aid-jmor1>3.3.co;2-n

Cited by 27 publications

(43 citation statements)

References 5 publications

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“…In conclusion, myzostomes are platyzoans that exhibit a complicated mixture of annelid-like (Rouse andFauchald 1997a, b, Müller andWestheide 2000), basal spiralian (Haszprunar 1996b, Zrzavý et al 1998), and platyzoan/prosomastigozoan (Mattei and Marchand 1987, 1988, Eeckhaut et al 2000, Zrzavý et al 2001 characters, as well as unique features possibly linked with their parasitic lifestyle. These results suggest that major body-plan characters (segmentation, parapodia) might have been independently lost or gained in different animal phyla (see Eeckhaut et al 2000).…”

Section: Myzostomidamentioning

confidence: 96%

“…The characters supporting annelid origin of the myzostomes (Nielsen 1995, Rouse and Fauchald 19951997a, b, Rouse 1999, Müller and Westheide 2000 are usually either symplesiomorphic (e.g., spiral cleavage, trochophora-like larva, multiciliary epithelial cells) or convergent (e.g., annelid-like chaetae are present in most annelids, myzostomes, echiurids, and some brachiopods, in the ectoproct gizzard armature, and in the cephalopod Kölliker organs; see Lüter andBartolomaeus 1997, Lüter 2000). Myzostomes possess metameric paired organs like protonephridia and parapodia (five pairs), but numbers of so-called "lateral organs" (of uncertain homology), of marginal cirri, and of gut diverticles do not accord with the protonephridial and parapodial numbers.…”

Section: Myzostomidamentioning

confidence: 99%

“…Myzostomes lack epithelial organisation of the musculature, metanephridia, a circulatory system, a true coelom and the eucoelomic anatomy of the gonads (Haszprunar 1996b). The only myzostomid body system which exhibits obvious segmentation traits is their polychaete-like nervous system indicating that the body of Myzostoma is formed by six segments (Müller and Westheide 2000). Importantly, cladistic analysis of the morphology of polychaete families (Rouse and Fauchald 1997a) placed myzostomes either amongst polychaetes with a hypertrophied eversible axial pharynx (Phyllodocida), or, together with spongeparasitic spintherids, at the base of their annelid tree.…”

Section: Myzostomidamentioning

confidence: 99%

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The interrelationships of metazoan parasites: a review of phylum- and higher-level hypotheses from recent morphological and molecular phylogenetic analyses

Zrzavý¹

2001

FOLIA PARASIT

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Abstract. Phylogeny of seven groups of metazoan parasitic groups is reviewed, based on both morphological and molecular data. The Myxozoa (=Malacosporea + Myxosporea) are most probably related to the egg-parasitic cnidarian Polypodium (Hydrozoa?: Polypodiozoa); the other phylogenetic hypotheses are discussed and the possible non-monophyly of the Cnidaria (with the Polypodiozoa-Myxozoa clade closest to the Triploblastica) is suggested. The Mesozoa is a monophyletic group, possibly closely related to the (monophyletic) Acoelomorpha; whether the Acoelomorpha and Mesozoa represent the basalmost triploblast clade(s) or a derived platyhelminth subclade may depend on rooting the tree of the Triploblastica. Position of the monophyletic Neodermata (=Trematoda + Cercomeromorpha) within the rhabditophoran flatworms is discussed, with two major alternative hypotheses about the neodermatan sister-group relationships (viz., the "neoophoran" and "revertospermatan"). The Myzostomida are not annelids but belong among the Platyzoa, possibly to the clade of animals with anterior sperm flagella (=Prosomastigozoa). The Acanthocephala represent derived syndermates ("rotifers"), possibly related to Seison (the name Pararotatoria comb. n. is proposed for Seisonida + Acanthocephala). The crustacean origin of the Pentastomida based on spermatological and molecular evidence (Pentastomida + Branchiura = Ichthyostraca) is confronted with palaeontological views favouring the pre-arthropod derivation of the pentastomids. Phylogenetic position of the nematodes within the Ecdysozoa and evolution of nematode parasitism are discussed, and the lack of relevant information about the enigmatic ectoproctan parasite Buddenbrockia is emphasised.At present, the metazoan relationships are becoming clearer as phylogenetic techniques are applied to morphological and molecular characters, the molecular data grow exponentially, and the "morphological" (i.e., non-sequence) information is refined by using ultrastructural and biochemical methods. In the present paper, recent contributions concerning the phylogenetic position of major parasitic animal groups are discussed. Seven taxa were selected: two "pseudo-protist" groups that evidently belong to the Metazoa and represent the most simplified multicellular animals (Myxozoa, Mesozoa), two traditional metazoan phyla that are now regarded as modified parasitic representatives of more comprehensive groups (Acanthocephala, Pentastomida), one parasitic "annelid" subgroup recently elevated to a phyletic level, unrelated to the Annelida (Myzostomida), and two major parasitic groups whose sister-group relationships and evolution of host-parasite relationships are recently becoming elucidated (Neodermata, Nematoida).This paper is about trees. It should be emphasised here that a tree (cladogram, maximum likelihood tree, distance tree) is not (or should not be) a graphical presentation of author's personal opinion about the course of evolution. The tree represents a series of hypotheses about the character homology (whet...

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Section: Myzostomidamentioning

confidence: 96%

Section: Myzostomidamentioning

confidence: 99%

Section: Myzostomidamentioning

confidence: 99%

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The interrelationships of metazoan parasites: a review of phylum- and higher-level hypotheses from recent morphological and molecular phylogenetic analyses

Zrzavý¹

2001

FOLIA PARASIT

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“…Immunohistochemical methods and confocal laserscanning microscopy were used to study the development of the nervous system in B. viridis (Hessling 2001(Hessling , 2002Hessling and Westheide 2002). This combination of methods has proven to be very informative in the study of neurogenesis and in many cases has revealed previously unreported details in neuronal structures of various invertebrate taxa (see, for example, Harzsch et al 1997;Müller and Westheide 2000). The present study is the first application of these techniques in a species of Echiura with planktotrophic larval development.…”

Section: Introductionmentioning

confidence: 97%

Metameric organisation of the nervous system in developmental stages of Urechis caupo (Echiura) and its phylogenetic implications

Hessling

2002

Zoomorphology

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The phylogenetic position of Echiura is still in continuous debate. The commonly accepted view regards Echiura as a distinct taxon, often classified as phylum, which forms the sister group of the Articulata. The alternative view considers Echiura to be a subtaxon of Annelida, which is supported by numerous shared characters. The correct systematic position of Echiura is inevitably linked to the presence or absence of true segmentation. The apparent lack of segmentation in Echiura is considered to be either primary, thereby supporting their exclusion from Annelida, or alternatively to be the result of reduction. The latter would clearly substantiate their classification as a subtaxon of Annelida. Immunohistochemical methods and confocal laser-scanning microscopy clearly demonstrate a metameric organisation of the nervous system in different larval stages of Urechis caupo, which corresponds to the segmental arrangement of ganglia in "typical" Annelida. This segmental pattern is reflected in the serially repetitive distribution of neurons containing the neurotransmitter serotonin (5-hydroxytryptamine) and also in the corresponding distribution of strictly paired peripheral nerves. Precisely two pairs of peripheral nerves are associated with each of the repetitive units. This metameric pattern also corresponds to the transient annulation of the trunk, which is found in late larval stages. Other characters of the nervous system including the paired origin of the ventral nerve cord, the anterior-posterior development gradient and the presence of a distinct suboesophageal ganglion are also found accordingly in typical Annelida. These results are interpreted as an indication that Echiura are derived from formerly segmented ancestors, and thus support their systematic inclusion within Annelida.

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“…immunoreactivity is known to be widespread in protostome stomatogastric NS, e.g. in Gnathostomulida (Müller and Sterrer 2004), Annelida (Müller and Westheide 2000; and catenulid and rhabditophoran flatworms (Reuter and Halton 2001;Reuter et al 2001a;Kotikova et al 2002), and it is present also in post-metamorphic cnidarians (Grimmelikhuijzen 1983a(Grimmelikhuijzen , 1938b. Both 5-HT-and FMRFamide immunoreactivity was detected in the gut of tornaria larvae of enteropneusts (Nezlin and Yushin 2004), while it is absent in cnidarian, polyclad and lophotrochozoan larvae (Ruppert 1978;Hay-Schmidt 1995;Dickinson et al 1999;Hessling 2002;Voronezhskaya et al 2002;Wanninger and Haszprunar 2003).…”

Section: Discussionmentioning

confidence: 99%

The plastic nervous system of Nemertodermatida

2015

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Nemertodermatida are microscopic marine worms likely to be the sister group to acoels, forming with them the earliest extant branch of bilaterian animals, although their phylogenetic position is debated. The nervous system of Flagellophora cf. apelti, Sterreria spp. and Nemertoderma cf. westbladi has been investigated by immunohistochemistry and confocal microscopy using anti-tubulin, anti-5-HT and anti-FMRFamide antibodies. The nervous system of F. cf. apelti is composed of a large neuropile and a loose brain at the level of the statocysts with several nerve fibres surrounding them and innervating the broom organ. Sterreria spp. shows a commissural-like brain and several neurite bundles going frontad and caudad from this. At the level of the statocysts there is also a thicker aggregation of immunoreactive fibres. The nervous system of N. cf. westbladi consists of a nerve ring lying outside the body wall musculature at the level of the statocyst and a pair of ventro-lateral neurite bundles, from which extend thinner fibres innervating the ventral side of the animal. Numerous bottle-shaped glands were observed, innervated by fibres starting both from the brain and the neurite bundles. The nervous system of the nemertodermatids studied to date displays no common pattern; instead, there is considerable plasticity in the general morphology of the nervous system. In addition, the musculature of Sterreria spp. has been studied by phalloidin staining. It shows diagonal muscles in the anterior quarter of the body and a simple orthogonal grid in the posterior three quarters, being simpler than that of the other nemertodermatids. High-resolution differential interference contrast microscopy permitted to better visualize some morphological characters of the species studied, such as statocysts, sperm and glands and, in combination with anti-tubulin staining, describe in detail the broom organ in F. cf. apelti. Finally, we note an apparent absence of innervation of the gut in Nemertodermatida similar to the condition in Xenoturbella.

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Structure of the nervous system of Myzostoma cirriferum (Annelida) as revealed by immunohistochemistry and cLSM analyses

Cited by 27 publications

References 5 publications

The interrelationships of metazoan parasites: a review of phylum- and higher-level hypotheses from recent morphological and molecular phylogenetic analyses

The interrelationships of metazoan parasites: a review of phylum- and higher-level hypotheses from recent morphological and molecular phylogenetic analyses

Metameric organisation of the nervous system in developmental stages of Urechis caupo (Echiura) and its phylogenetic implications

The plastic nervous system of Nemertodermatida

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