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Literature DB >> 31179403

The rhythm section: An update on spinal interneurons setting the beat for mammalian locomotion.

Abstract

To initiate and support locomotion, rhythm generating neurons in the spinal central pattern generator convert descending input into a rhythmic signal which is conveyed to downstream neurons, leading to the recruitment of motor neurons and activation of muscles. Although two genetically-defined neuronal populations have been linked to rhythm generation, a single all-inclusive rhythm generating population has yet to be identified. Here, we consolidate recent work aimed at identifying rhythm generating neurons, summarize the evidence for the involvement of two neuronal populations in rhythm generation, describe the challenges in identifying a marker for rhythm generating neurons, and discuss potential directions to take in integrating spinal rhythm generating neurons into recently identified speed-dependent locomotor circuits.

Entities: Chemical Disease Gene Species

Keywords: interneurons; locomotion; rhythm generation; spinal cord

Year: 2019 PMID： 31179403 PMCID： PMC6550992 DOI： 10.1016/j.cophys.2019.01.004

Source DB: PubMed Journal: Curr Opin Physiol ISSN： 2468-8673

72 in total

1. Genetic identification of spinal interneurons that coordinate left-right locomotor activity necessary for walking movements.

Authors: Guillermo M Lanuza; Simon Gosgnach; Alessandra Pierani; Thomas M Jessell; Martyn Goulding
Journal: Neuron Date: 2004-05-13 Impact factor: 17.173

2. Analysis of embryonic motoneuron gene regulation: derepression of general activators function in concert with enhancer factors.

Authors: Soo-Kyung Lee; Linda W Jurata; Junichi Funahashi; Esmeralda C Ruiz; Samuel L Pfaff
Journal: Development Date: 2004-06-16 Impact factor: 6.868

3. Deletions of rhythmic motoneuron activity during fictive locomotion and scratch provide clues to the organization of the mammalian central pattern generator.

Authors: Myriam Lafreniere-Roula; David A McCrea
Journal: J Neurophysiol Date: 2005-05-04 Impact factor: 2.714

4. Modelling spinal circuitry involved in locomotor pattern generation: insights from deletions during fictive locomotion.

Authors: Ilya A Rybak; Natalia A Shevtsova; Myriam Lafreniere-Roula; David A McCrea
Journal: J Physiol Date: 2006-09-28 Impact factor: 5.182

5. On the nature of the fundamental activity of the nervous centres; together with an analysis of the conditioning of rhythmic activity in progression, and a theory of the evolution of function in the nervous system.

Authors: T G Brown
Journal: J Physiol Date: 1914-03-31 Impact factor: 5.182

6. Electrical coupling between locomotor-related excitatory interneurons in the mammalian spinal cord.

Authors: Christopher A Hinckley; Lea Ziskind-Conhaim
Journal: J Neurosci Date: 2006-08-16 Impact factor: 6.167

7. Conditional rhythmicity of ventral spinal interneurons defined by expression of the Hb9 homeodomain protein.

Authors: Jennifer M Wilson; Robert Hartley; David J Maxwell; Andrew J Todd; Ivo Lieberam; Julia A Kaltschmidt; Yutaka Yoshida; Thomas M Jessell; Robert M Brownstone
Journal: J Neurosci Date: 2005-06-15 Impact factor: 6.167

8. Noncholinergic excitatory actions of motoneurons in the neonatal mammalian spinal cord.

Authors: George Z Mentis; Francisco J Alvarez; Agnes Bonnot; Dannette S Richards; David Gonzalez-Forero; Ricardo Zerda; Michael J O'Donovan
Journal: Proc Natl Acad Sci U S A Date: 2005-05-09 Impact factor: 11.205

9. Mammalian motor neurons corelease glutamate and acetylcholine at central synapses.

Authors: Hiroshi Nishimaru; Carlos Ernesto Restrepo; Jesper Ryge; Yuchio Yanagawa; Ole Kiehn
Journal: Proc Natl Acad Sci U S A Date: 2005-03-21 Impact factor: 11.205

10. Locomotor-like rhythms in a genetically distinct cluster of interneurons in the mammalian spinal cord.

Authors: Christopher A Hinckley; Robert Hartley; Linying Wu; Andrew Todd; Lea Ziskind-Conhaim
Journal: J Neurophysiol Date: 2004-10-20 Impact factor: 2.714

12 in total

1. Movement is governed by rotational neural dynamics in spinal motor networks.

Authors: Henrik Lindén; Peter C Petersen; Mikkel Vestergaard; Rune W Berg
Journal: Nature Date: 2022-10-12 Impact factor: 69.504

2. The role of V3 neurons in speed-dependent interlimb coordination during locomotion in mice.

Authors: Han Zhang; Natalia A Shevtsova; Simon M Danner; Ying Zhang; Ilya A Rybak; Dylan Deska-Gauthier; Colin Mackay; Kimberly J Dougherty
Journal: Elife Date: 2022-04-27 Impact factor: 8.713

3. Spinal cord injury alters spinal Shox2 interneurons by enhancing excitatory synaptic input and serotonergic modulation while maintaining intrinsic properties in mouse.

Authors: D Leonardo Garcia-Ramirez; Ngoc T B Ha; Steve Bibu; Nicholas J Stachowski; Kimberly J Dougherty
Journal: J Neurosci Date: 2021-05-13 Impact factor: 6.167

4. Flexor and Extensor Ankle Afferents Broadly Innervate Locomotor Spinal Shox2 Neurons and Induce Similar Effects in Neonatal Mice.

Authors: Erik Z Li; D Leonardo Garcia-Ramirez; Kimberly J Dougherty
Journal: Front Cell Neurosci Date: 2019-10-09 Impact factor: 5.505