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1. Vestibular afferent responses to microrotational stimuli.

Author

Myers SF and Lewis ER

Subjects
Acoustic Stimulation, Afferent Pathways physiology, Animals, Evoked Potentials, Mathematics, Models, Neurological, Rana catesbeiana, Rotation, Saccule and Utricle physiology, Auditory Pathways physiology, Ear, Inner physiology, Nerve Fibers physiology, Neurons physiology, Vestibular Nerve physiology, Vestibulocochlear Nerve physiology
Abstract

Intracellular microelectrode recording/labelling techniques were used to investigate vestibular afferent responses in the bullfrog, to very small amplitude (less than 0.5 degree p-p) sinusoidal rotations in the vertical plane over the frequency range of 0.063-4 Hz. The axis of rotation was congruent with the axis of the anterior semicircular canal. Robust responses to peak accelerations as low as 0.031 degree/S2 were obtained from units subsequently traced to either the central portion of the anterior canal crista or the striolar region of the utricle. All of these microrotationally sensitive afferent neurons had irregular resting discharge rates and the majority had transfer ratios (relative to rotational velocity) of 1-40 spikes/s per degree/s. Individual utricular afferent velocity transfer ratios were nearly constant over the frequency range of 0.125-4 Hz. Canal units generally displayed decreasing response transfer ratios as stimulus frequencies increased. These findings indicate that although utricular striolar and central crista afferent velocity transfer ratios to microrotations were very similar, utricular striolar afferent neurons were more faithful sensors of very small amplitude rotational velocity in the vertical plane.

Published
1991
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2. Cellular origin and biosynthesis of rat optic nerve proteins: a two-dimensional gel analysis.

Author

Strocchi P, Gilbert JM, Benowitz LI, Dahl D, and Lewis ER

Subjects
Animals, Axonal Transport, Electrophoresis, Polyacrylamide Gel methods, Intermediate Filament Proteins biosynthesis, Male, Microsomes metabolism, Nerve Tissue Proteins genetics, Nerve Tissue Proteins isolation & purification, Polyribosomes metabolism, Rats, Rats, Inbred Strains, Tubulin biosynthesis, Nerve Tissue Proteins biosynthesis, Neuroglia metabolism, Neurons metabolism, Optic Nerve metabolism
Abstract

High resolution 2DGE (two-dimensional gel electrophoresis) was used to characterize neuronal and glial proteins of the rat optic nerve, to examine the phases of intraaxonal transport with which the neuronal proteins are associated, and to identify the ribosomal populations on which these proteins are synthesized. Neuronal proteins synthesized in the retinal ganglion cells were identified by injecting the eye with L-[35S]methionine, followed by 2DGE analysis of fast and slow axonally transported proteins in particulate and soluble fractions. Proteins synthesized by the glial cells were labeled by incubating isolated optic nerves in the presence of L-[35S]methionine and then analyzed by 2DGE. A number of differences were seen between filamentous proteins of neurons and glia. Most strikingly, proteins in the alpha- and beta-tubulin region of the 2D gels of glial proteins were distinctly different than was observed for axonal proteins. As expected, neurons but not glia expressed neurofilament proteins, which appeared among the slow axonally transported proteins in the particulate fraction; significant amounts of the glial filamentous protein, GFA, were also labeled under these conditions, which may have been due to transfer of amino acids from the axon to the glial compartment. The fast axonally transported proteins contained relatively large amounts of high-molecular-weight acidic proteins, two of which were shown to comigrate (on 2DGE) with proteins synthesized by rat CNS rough microsomes; this finding suggests that rough endoplasmic reticulum may be a major site of synthesis for fast transported proteins. In contrast, the free polysome population was shown to synthesize the principal components of slow axonal transport, including tubulin subunits, actin, and neurofilament proteins.

Published
1984
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3. Neuronotrophic activity in brain wounds of the developing rat. Correlation with implant survival in the wound cavity.

Author

Manthorpe M, Nieto-Sampedro M, Skaper SD, Lewis ER, Barbin G, Longo FM, Cotman CW, and Varon S

Subjects
Animals, Animals, Newborn, Cell Survival, Chick Embryo, Ganglia physiology, Ganglia transplantation, Ganglia, Spinal physiology, Ganglia, Sympathetic physiology, Mice, Neurons transplantation, Rats, Rats, Inbred Strains, Spinal Cord physiology, Time Factors, Brain Injuries physiopathology, Neurons physiology
Abstract

Neuronotrophic activity accumulates in a wound cavity created in the entorhinal/occipital cortex of developing rats. These trophic factors support the survival of neurons in monolayer cultures of chick embryo spinal cord, ciliary ganglion, sympathetic ganglion and dorsal root ganglion, as well as of mouse dorsal root ganglion. Trophic activity was very low both in non-injured brain tissue and in the wound cavity 1 day post-lesion, but it increased 15- to 300-fold during the subsequent 2-5 days. Together with the trophic activity in the wound fluid were other substances which interfered with the survival of spinal cord neurons. The neuronotrophic factors appeared to be proteins immunologically distinct from mouse submaxillary nerve growth factor. Fragments of rat embryo corpus striatum placed in the cortical wound cavity immediately after its formation showed very poor subsequent survival and no innervation of the host hippocampus. However, if implantation was delayed by 3 or 6 days with respect to the time at which the receiving cavity was made, the survival was greatly improved and innervation of the host took place. The time course for the accumulation of the trophic factors in the cavity paralleled the delay leading to increased survival of brain grafts. It is suggested that the neuronotrophic activity accumulating in the wound cavity during the delay period may be responsible for the increased survival of the implants.

Published
1983
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4. Studies with spike initiators: linearization by noise allows continuous signal modulation in neural networks.

Author

Yu XL and Lewis ER

Subjects
Animals, Computer Simulation, Electricity, Models, Neurological, Rana catesbeiana, Electric Stimulation methods, Electrophysiology methods, Nerve Net physiology, Nervous System Physiological Phenomena, Neurons physiology
Abstract

Engineers and neuroscientists generally believe that noise is something to be avoided in information systems. In this paper we show that noise, in fact, can be an important element in the translation of neuronal generator potentials (summed inputs) to neuronal spike trains (outputs), creating or expanding a range of amplitudes over which the spike rate is proportional to the generator potential amplitude. Noise converts the basically nonlinear operation of a spike initiator into a nearly linear modulation process. This linearization effect of noise is examined in a simple intuitive model of a static threshold and in a more realistic computer simulation of a spike initiator based on the Hodgkin-Huxley (HH) model. The results are qualitatively similar; in each case larger noise amplitude results in a larger range of nearly-linear modulation. The computer simulation of the HH model with noise shows linear and nonlinear features that we earlier had observed in spike data obtained from the VIIIth nerve of the bullfrog. This suggests that these features can be explained in terms of spike initiator properties, and it also suggests that the HH model may be useful for representing basic spike initiator properties in vertebrates.

Published
1989
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7. An electronic model of neuroelectric point processes

Author

Lewis Er

Subjects
Physics, Neurons, Cell Membrane Permeability, Neural Conduction, Neurophysiology, General Medicine, Electronics, Medical, Membrane Potentials, Mollusca, Oscillometry, Synapses, Animals, Humanities, Cybernetics
Abstract

Eine umfassende Darstellung der Nervenzellmembran wird durch eine Kombination von Hodgkin-Huxley-Beschreibung der elektrisch erregbaren Leitwerte und Eccles-Beschreibung der synaptisch induzierten Leitwerte wiedergegeben. Diese Darstellung wird in einem elektronischen Modell veranschaulicht. Nichtlineare aktive Schaltungen werden benutzt, um Leistungen zu entwickeln, die in ihrer Form mit den zeit- und spannungsabhangigen Leitwerten der Beschreibungen ubereinstimmen. Die Leistungen werden mit Hilfe von Multiplikatoren in aquivalente Leitwerte umgewandelt. Das elektrische Modell enthalt 24 kontrollierbare Parameter, von denen jeder mit einem in der Beschreibung ubereinstimmt. Zur Einstellung der Parameter sollte man eine Strategie benutzen, die soweit wie moglich die Werte von Hodgkin und Huxley (s. Tafel) als Parameter verwendet. Kleine Abweichungen von diesen Werten werden als mindere Storungen der grundliegenden Zusammenstellung betrachtet. Als Beispiel einer systematischen Untersuchung des Einflusses einer Veranderung verschiedener Parameter wurden die Spannungsschwingungen gewahlt. Die Frequenz der ungedampften Schwingungen betragt ungefahr 50 Hertz. Verschiedene andere kleine Anderungen der Parameter konnen Schwingungsfrequenzen von 4 Hertz hervorrufen. Mit grosen Storungen der Grundwerte kann man auch Schwingungsfrequenzen im Werte l Hertz erlangen. Es wird vorgeschlagen, das die kombinierten Eccles- und Hodgkin-Huxley-Beschreibungen die Mehrzahl der neuroelektrischen Vorgange einzelner Nervenzellen darstellen konnten. Dieser Vorschlag wird durch weitere Ergebnisse bestatigt. Die Beobachtung wird jedoch ausgedruckt, das die zusammenfassende Darstellung in wenigstens einem Falle, den Nervenzellen des Hummer-Herznervenknotens, nicht zulanglich ist.

Published
1968

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