Majority of cerebrospinal fluid‐contacting neurons in the spinal cord of <scp>C57Bl/6N</scp> mice is present in ectopic position unlike in other studied experimental mice strains and mammalian species

Gombalová, Zuzana Tonelli; Košuth, Ján; Matiašová, Anna Alexovič; Zrubáková, Jarmila; Žežula, Ivan; Giallongo, Toniella; Giulio, Anna Maria Di; Carelli, Stephana; Tomašková, Lenka; Daxnerová, Zuzana; Ševc, Juraj

doi:10.1002/cne.24909

Cited by 17 publications

(40 citation statements)

References 75 publications

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“…A recent study suggested that ventral PKD2L1 + cells might be the result of ectopic distribution that depends on the animal models or strains tested (Tonelli Gombalová et al, 2020). In agreement with our study, the authors reported the presence of distal PKD2L1 expressing neurons in several animal models as well as in the C57Bl6/J (the mouse line used in our study).…”

Section: Which Cellular Origin and Lineage For Dpkd2l1 Neurons?supporting

confidence: 93%

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pathological dysfunction. Finally, although CSF-cN neurogenesis has been shown to occur only during development they have been shown to retain an incomplete maturity state (Stoeckel et al, 2003;Sabourin et al, 2009;Orts-Del'Immagine et al, 2014 and might be reactivated and take part to plasticity and regenerative processes associated with the ependymal stem cell niche.Most studies focused on ependymal and sub-ependymal PKD2L1 + CSF-cNs (located at less than 50 µm from the CC) however previous observations (Orts-Del'immagine et al, 2012;Djenoune et al, 2014;Orts-Del'Immagine et al, 2014), recently confirmed (Tonelli Gombalová et al, 2020), mentioned the presence of PKD2L1 + cells located more distally from the CC. The developmental origin for these distal PKD2L1 + cells is still unclear but as ependymal cells located along the ventral midline in regions distal from the CC display specific electrophysiological properties of neuronal progenitor (eg.

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confidence: 99%

“…Most studies focused on ependymal and sub-ependymal PKD2L1 + CSF-cNs (located at less than 50 µm from the CC) however previous observations (Orts-Del'immagine et al, 2012;Djenoune et al, 2014;Orts-Del'Immagine et al, 2014), recently confirmed (Tonelli Gombalová et al, 2020), mentioned the presence of PKD2L1 + cells located more distally from the CC. The developmental origin for these distal PKD2L1 + cells is still unclear but as ependymal cells located along the ventral midline in regions distal from the CC display specific electrophysiological properties of neuronal progenitor (eg.…”

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confidence: 99%

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Evidence for PKD2L1-positive neurons present distant from the central canal in the ventromedial spinal cord and Medulla of the adult mouse

Jurčić

Michelle

Trouslard

et al. 2021

Preprint

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Neurons in contact with the cerebrospinal fluid (CSF) are found around the medullo-spinal central canal (CC) in adult mice. These neurons (CSF-cNs), located within or below the ependymal cell layer known as the stem cell niche, present a characteristic morphology with a dendrite projecting to the CC and ending with a protrusion. They are GABAergic, characterized by an immature neuronal phenotype and selectively express PKD2L1, a channel member of the TRP channel superfamily with properties of sensory receptor. Using immunohistological techniques in mice, we characterize a new population of PKD2L1 positive cells that is observed around embryonic day 16 (E16), is present distant from the CC in a zone enriched with astrocytes and ependymal fibers of the ventro-medial spinal cord and medulla. With development, their number appears stable although smaller than that of CSF-cNs and they progressively become more distant from the CC with the reorganization of the CC region. These neurons share both functional and phenotypical properties with CSF-cNs, but they appear subdivided in two groups. One, present along the midline, has a bipolar morphology and extend a long dendrite along ependymal fibers and towards the CC. The second group, localized in more ventro-lateral regions, has a multipolar morphology and no apparent projection to the CC Altogether, we describe a novel population of PKD2L1+ neurons distant from the CC but with properties similar to CSF-cNs that might serve to sense modification in the composition of either CSF or interstitial liquid, a function that will need to be confirmed.

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Section: Which Cellular Origin and Lineage For Dpkd2l1 Neurons?supporting

confidence: 93%

“…

…”

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confidence: 99%

mentioning

confidence: 99%

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Evidence for PKD2L1-positive neurons present distant from the central canal in the ventromedial spinal cord and Medulla of the adult mouse

Jurčić

Michelle

Trouslard

et al. 2021

Preprint

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“…These results suggested that CSF-cNs maintain a relatively primitive cell phenotype and show a strong potential as NSCs during in vitro culture. Petracca and Colleagues showed that CSF-cNs were negative for GFAP in animal tissues, a marker both for astrocyte and neural stem cell (Petracca et al, 2016;Tonelli Gombalova et al, 2020). But in our research, GFAP was expressed in primary culture of CSF-cNs and neurospheres formed by CSF-cNs in cell culture.…”

Section: Discussioncontrasting

confidence: 66%

The Neural Stem Cell Properties of PKD2L1+ Cerebrospinal Fluid-Contacting Neurons in vitro

Wang

Zhang

et al. 2021

Front. Cell. Neurosci.

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Cerebrospinal fluid-touching neurons (CSF-cNs) exist in the region surrounding the central canal of the spinal cord, which locate in the adult neurogenic niche. Previous research showed that CSF-cNs expressed the molecular markers of immature neural cells in vivo. Here, we explored the potential of CSF-cNs as neural stem cell in intro. We first found that PKD2L1+ CSF-cNs, isolating by FACS using the molecular marker PKD2L1 of CSF-cNs, expressed neural stem cells markers like Nestin, Sox2, and GFAP by immunofluorescence staining. PKD2L1+ CSF-cNs were able to form neurospheres and passaged in vitro. Immunofluorescence staining showed that the neurospheres forming by PKD2L1+ CSF-cNs also expressed neural stem cell markers Nestin, Sox2 and GFAP. The neurospheres expressed proliferation markers Ki67 and PCNA by immunofluorescence staining, indicating that the neurospheres forming by PKD2L1+ CSF-cNs were proliferative. The neurospheres, forming by CSF-cNs, had the ability of differentiation into neurons, astrocytes, and oligodendrocytes. Collectively, our data suggested that PKD2L1+ CSF-cNs have the properties of neural stem cells in vitro and may provide a promising approach for the repair of spinal cord injury.

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“…There is no clear connection between CSF-cNs and the glyt2+ cells reported here. While CSF-cNs can be found ectopically (outside of the ependymal layer surrounding the central canal; [17,6]), they are known to be GABAergic across vertebrates [3]. Further, a recent transcriptome analysis of spinal dynophin-lineage cells found a cluster with characteristics of CSF-cNs but comparatively low expression of glyt2 transcript (SLC6A5; Fig.…”

Section: Discussionmentioning

confidence: 99%

Molecular markers of mechanosensation in glycinergic neurons in the avian lumbosacral spinal cord

Stanchak

Miller

Lumsden

et al. 2022

Preprint

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Birds are exceptionally adept at controlling their body position. For example, they can coordinate rapid movements of their body while stabilizing their head. Intriguingly, this ability may rely in part on a mechanosensory organ in the avian lower spinal cord called the lumbosacral organ (LSO). However, molecular mechanotransduction mechanisms have not been identified in the avian spinal cord. Here, we report the presence of glycinergic neurons in the LSO that exhibit immunoreactivity for myosin7a and epsin, molecules essential for function and maintenance of hair cells in the inner ear. Specifically, we find glycinergic cell bodies near the central canal and processes that extend laterally to the accessory lobes and spinal ligaments. These LSO neurons are reminiscent of glycinergic neurons in a recently-described lateral spinal proprioceptive organ in zebrafish that detects spinal bending. The avian LSO, however, is located inside a series of fused vertebrae called the synsacrum, which constrains spinal bending. We suggest the LSO may be a modification and elaboration of a pre-existing mechanosensory spinal network in vertebrates. A mechanistic understanding of its function may be an important clue to understanding the evolution and development of avian locomotion.

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Majority of cerebrospinal fluid‐contacting neurons in the spinal cord of C57Bl/6N mice is present in ectopic position unlike in other studied experimental mice strains and mammalian species

Cited by 17 publications

References 75 publications

Evidence for PKD2L1-positive neurons present distant from the central canal in the ventromedial spinal cord and Medulla of the adult mouse

Evidence for PKD2L1-positive neurons present distant from the central canal in the ventromedial spinal cord and Medulla of the adult mouse

The Neural Stem Cell Properties of PKD2L1+ Cerebrospinal Fluid-Contacting Neurons in vitro

Molecular markers of mechanosensation in glycinergic neurons in the avian lumbosacral spinal cord

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