Organisation of the Zebrafish Spinal Cord: Distribution of Motoneuron Denfrites and 5-HT containing Cells

Raamsdonk, W. van; Bosch, T.J.; Smit-Onel, M.J.; Maslam, Suharti

doi:10.1076/ejom.34.2.65.13021

Cited by 23 publications

(15 citation statements)

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“…In larval zebrafish, the major serotonergic innervation of the spinal cord originates from the raphe region, which stretches from the caudal midbrain to the anterior medulla oblongata, and there are also intraspinal neurons positive for 5-HT (McLean and Fetcho, 2004;Brustein and Drapeau, 2005). This innervation pattern persists into adulthood (Van Raamsdonk et al, 1996;Kaslin and Panula, 2001), suggesting that 5-HT responsible for the modulation of the locomotor activity may arise from intraspinal neurons as well as supraspinal projections from the raphe.…”

Section: Endogenous Release Of 5-ht In Zebrafishmentioning

confidence: 90%

“…In the spinal cord of both larval and adult zebrafish, 5-HT innervation arises from descending raphe projections and intraspinal neurons (Van Raamsdonk et al, 1996;Kaslin and Panula, 2001;McLean and Fetcho, 2004). At the larval stage, 5-HT does not affect the frequency of the spontaneous swimming and only decreases the quiescent period between consecutive swimming episodes (Brustein and Drapeau, 2005).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Serotonergic Modulation of Locomotion in Zebrafish—Endogenous Release and Synaptic Mechanisms

Gabriel¹,

Mahmood²,

Kyriakatos³

et al. 2009

J. Neurosci.

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Section: Endogenous Release Of 5-ht In Zebrafishmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Serotonergic Modulation of Locomotion in Zebrafish—Endogenous Release and Synaptic Mechanisms

Gabriel¹,

Mahmood²,

Kyriakatos³

et al. 2009

J. Neurosci.

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“…Our data show that the P. waltl spinal cord itself contains serotonergic perikarya, which send their axons in a plexus located on the ventrolateral surface. Intraspinal serotonergic neurons have also been found in fish (Parent and Northcutt, 1982;Ritchie and Leonard, 1982;Van Raamsdonk et al, 1996), Urodela (Gruberg and Harris, 1981;Jovanovic et al, 1996), turtle (Kiehn et al, 1992), and young opossum (DiTirro et al, 1983) but not in chameleon (Bennis et al, 1990). In mammals, 5-HT-containing intraspinal neurons were detected following pharmacological pretreatment to increase the level of 5-HT expression (Lamotte et al, 1982), whereas other studies have reported that serotonergic innervation is derived only from supraspinal structures (Kojima and Sano, 1983).…”

Section: Physiological Effect Of 5-htmentioning

confidence: 95%

Serotonergic systems in the spinal cord of the amphibian urodele Pleurodeles waltl

Branchereau

Delvolvé

et al. 2000

J. Comp. Neurol.

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“…It is unclear to what degree the cellular specificity of synaptic contacts of descending axons with the spinal motor system (Fetcho, 1992a;Van Raamsdonk et al, 1996) is reestablished. It is likely that a relatively crude reconnection with the spinal intrinsic circuitry is sufficient to produce meaningful motor output after a spinal lesion (McClellan, 1998;Bernhardt, 1999a).…”

Section: Regenerating Spinal Axons Change Their Pathway To the Gray Mmentioning

confidence: 99%

Regenerating descending axons preferentially reroute to the gray matter in the presence of a general macrophage/microglial reaction caudal to a spinal transection in adult zebrafish

Becker

2001

J of Comparative Neurology

104

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We analyzed pathway choices of regenerating, mostly supraspinal, descending axons in the spinal cord of adult zebrafish and the cellular changes in the spinal cord caudal to a lesion site after complete spinal transection. Anterograde tracing (by application of the tracer rostral to the spinal lesion site) showed that significantly more descending axons (74%) regenerated in the spinal gray matter of the caudal spinal cord than would be expected from random growth. Retrograde tracing (by application of the tracer caudal to the spinal lesion site) showed that, rostral to the lesion, most of these axons (80%) extended into the major white matter tracts. Thus, ventral descending tracts often were devoid of labeled axons caudal to a spinal lesion but contained many axons rostral to the lesion in the same animals, indicating a pathway switch of descending axons from the white matter to the gray matter. Ascending axons of spinal neurons were not observed regrowing to the rostral tracer application site; therefore, they most likely did not contribute to the axonal populations analyzed. A macrophage/microglia response within 2 days of spinal cord transection, along with phagocytosis of myelin, was observed caudal to the transection by immunohistochemistry and electron microscopy. Nevertheless, caudal to the lesion, descending tracts in the white matter were filled with myelin debris during the time of axonal regrowth, at least up to 6 weeks postlesion. We suggest that the spontaneous regeneration of axons of supraspinal origin after spinal cord transection in adult zebrafish may be due in part to the axons' ability to negotiate novel pathways in the spinal cord gray matter.

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Organisation of the Zebrafish Spinal Cord: Distribution of Motoneuron Denfrites and 5-HT containing Cells

Cited by 23 publications

References 0 publications

Serotonergic Modulation of Locomotion in Zebrafish—Endogenous Release and Synaptic Mechanisms

Serotonergic Modulation of Locomotion in Zebrafish—Endogenous Release and Synaptic Mechanisms

Serotonergic systems in the spinal cord of the amphibian urodele Pleurodeles waltl

Regenerating descending axons preferentially reroute to the gray matter in the presence of a general macrophage/microglial reaction caudal to a spinal transection in adult zebrafish

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