Developmental approaches to the analysis of vertebrate central pattern generators

The isolated spinal cord of the chick embryo is a new preparation for analyzing the neural mechanisms and development of vertebrate motor activity. The embryonic cord can be isolated in vitro during the period of development when antagonist alternation of hindlimb motoneurons matures. The preparation is spontaneously active in vitro generating episodes of motor activity that can be recorded from muscle nerves and the ventral roots. The neural mechanisms responsible for the development and genesis of motor activity are being investigated using intra- and extracellular recording from motoneurons and electrotonic recordings of motoneuron synaptic activity from muscle nerves. The results suggest that alternating motor activity in the isolated chick cord may be generated by a mechanism in which a synaptically induced motoneuronal shunt conductance regulates the time of discharge of flexor and extensor motoneurons.

[1]  A. Velumian Direct evidence for postsynaptic inhibition in the embryonic chick spinal cord. , 1984, Brain research.

[2]  E Henneman,et al.  Postsynatpic population potentials recorded from ventral roots perfused with isotonic sucrose: connections of groups Ia and II spindle afferent fibers with large populations of motoneurons. , 1979, Journal of neurophysiology.

[3]  S. Soffe,et al.  Activity of myotomal motoneurons during fictive swimming in frog embryos. , 1982, Journal of neurophysiology.

[4]  J. Kauer,et al.  Neural control of hatching: fate of the pattern generator for the leg movements of hatching in post-hatching chicks , 1984, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[5]  S. Grillner Control of Locomotion in Bipeds, Tetrapods, and Fish , 1981 .

[6]  K. Saito,et al.  Development of spinal reflexes in the rat fetus studied in vitro. , 1979, The Journal of physiology.

[7]  E Jankowska,et al.  Post‐synaptic potentials in a population of motoneurones following activity of single interneurones in the cat. , 1983, The Journal of physiology.

[8]  P. Stein,et al.  Neurobiology of Vertebrate Locomotion , 1986, Wenner-Gren Center International Symposium Series.

[9]  P. Schwindt,et al.  Active currents in mammalian central neurons , 1983, Trends in Neurosciences.

[10]  P. Stein,et al.  Coordinated motor output in the hindlimb of the 7-day chick embryo. , 1975, Proceedings of the National Academy of Sciences of the United States of America.

[11]  L. Landmesser,et al.  The development of hindlimb motor activity studied in the isolated spinal cord of the chick embryo , 1987, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[12]  J. Eccles,et al.  Synaptic potentials of motoneurones. , 1946, Journal of neurophysiology.

[13]  Michael J. O'Donovan Experimental Analysis of Motor Development in the Chick Embryo , 1986 .

[14]  Intracellular recordings from embryonic chick motoneurones in the isolated perfused spinal cord , 1981, Brain Research.

[15]  E. Barrett,et al.  Separation of two voltage‐sensitive potassium currents, and demonstration of a tetrodotoxin‐resistant calcium current in frog motoneurones. , 1976, The Journal of physiology.

[16]  A. Roberts,et al.  Experiments on the central pattern generator for swimming in amphibian embryos. , 1982, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[17]  Michael J. O'Donovan,et al.  Activation patterns of embryonic chick hind limb muscles recorded in ovo and in an isolated spinal cord preparation. , 1984, The Journal of physiology.

[18]  R. Oppenheim,et al.  The onset and development of descending pathways to the spinal cord in the chick embryo , 1985, The Journal of comparative neurology.

[19]  Development of locomotor mechanisms in the frog. , 1985, Journal of neurophysiology.

[20]  D. Stehouwer,et al.  Development of hindlimb locomotor activity in the bullfrog (Rana catesbeiana) studied in vitro. , 1983, Science.

[21]  A. Bekoff Ontogeny of leg motor output in the chick embryo: A neural analysis , 1976, Brain Research.

[22]  T. Takahashi,et al.  Inhibitory miniature synaptic potentials in rat motoneurons , 1984, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[23]  Jack L. Feldman,et al.  In vitro brainstem-spinal cord preparations for study of motor systems for mammalian respiration and locomotion , 1987, Journal of Neuroscience Methods.