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  • 1
    Electronic Resource
    Electronic Resource
    Intersegmental interneurons serving larval and pupal mechanosensory reflexes in the moth Manduca sexta (1992)
    Springer
    Journal of comparative physiology 171 (1992), S. 195-205 
    Details
    ISSN: 1432-1351
    Keywords: Insect nervous system ; Metamorphosis ; Identified interneuron
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Summary 1. Intersegmental interneurons (INs) that participate in the larval bending reflex and the pupal gin trap closure reflex were identified in the isolated ventral nerve cord of Manduca sexta. INs 305, 504, and 703 show qualitatively different responses in the pupa than in the larva to electrical stimulation of sensory neurons that are retained during the larval-pupal transition to serve both reflexes. Action potentials produced by current injected into the 3 interneurons excite motor neurons that are directly involved in the larval and pupal reflexes. The excitation of the motor neurons is not associated with EPSPs at a fixed latency following action potentials in the interneurons, and thus there do not seem to be direct synaptic connections between the interneurons and the motor neurons. 2. IN 305 (Fig. 2) has a lateral soma, processes in most of the dorsal neuropil ipsilateral to the soma, and a crossing neurite that gives rise to a single contralateral descending axon. IN 305 is excited by stimulation of the sensory nerve ipsilateral to its soma in the larva and the pupa. Stimulation of the sensory nerve contralateral to its soma produces an inhibitory response in the larva, but a mixed excitatory/inhibitory response to the identical stimulus in the pupa. 3. IN 504 (Fig. 3) has a lateral soma, processes throughout most of the neuropil ipsilateral to the soma, and a crossing neurite that bifurcates to give rise to a process extending to the caudal limit of the neuropil and an ascending axon. IN 504 is excited by stimulation of the sensory nerve ipsilateral to its soma in both larvae and pupae, while the response to stimulation of the sensory nerve contralateral to its soma is inhibitory in the larva but mixed (excitatory/inhibitory) in the pupa. 4. IN 703 has a large antero-lateral soma, a neurite that extends across to the contralateral side giving rise to processes located primarily dorsally in both ipsilateral and contralateral neuropils, and two axons that ascend and descend in the connectives contralateral to the soma (Fig. 4). IN 703 responds to stimulation of the sensory nerves on either side of the ganglion, but the form of the response changes during the larval-pupal transition. In the larva, the response consists of very phasic (0–2 spikes) excitation, but in the pupa there is a prolonged excitation that greatly outlasts the stimulus (Fig. 6). 5. While the resting potential, and thus the relative spike threshold, of IN 703 appears to change during the larval-pupal transition (Fig. 9), hyperpolarizing IN 703 during a response shows that this difference can not account for the change in response properties (Fig. 10). Rather, IN 703 in the pupa is influenced by interneuronal inputs in the pupa whose effects are not expressed in the larva (Fig. 11).
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00188927
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  • 2
    Electronic Resource
    Electronic Resource
    The crayfish sustaining fibers (1982)
    Springer
    Journal of comparative physiology 146 (1982), S. 175-179 
    Details
    ISSN: 1432-1351
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Summary A semi-intact eye cup preparation was developed which maintains visual responses and enables intracellular recordings to be made from the optic lobes of the crayfish compound eye. 1. Sustaining fibers (SFs) were impaled with lucifer yellow electrodes near their entrance to the second optic neuropil (where the SFs originate). 2. Corneal receptive fields were determined and the SFs identified based on the previous work of Wiersma and Yamaguchi (1966). Following identification of each cell, the dendritic morphology was observed with lucifer yellow iontophoresis and subsequent fluorescence microscopy (Fig. 2). 3. An individual SF possesses a dendritic arborization restricted to that portion of the medulla corresponding to its corneal receptive field (Fig. 3). Therefore, the position of the dendritic tree combined with the retinotopic organization within the distal optic neuropils determine each SF's visual receptive field.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00610235
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  • 3
    Electronic Resource
    Electronic Resource
    Presynaptic inhibition in the crayfish brain (1985)
    Springer
    Journal of comparative physiology 156 (1985), S. 477-487 
    Details
    ISSN: 1432-1351
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Summary 1. Presynaptic inhibition was examined at the synapses of identified interneurons in the crayfish brain. 2. Descending interneurons can be excited by sensory stimuli to the head, thorax and caudal appendages. EPSPs can be elicited in these interneurons by ascending cells arising in thoracic ganglia (Fig. 1B). Conditioning shocks to cephalic sensory roots produce a 40 to 60% amplitude reduction in the EPSPs (Figs. 2, 4). 3. The EPSP attenuation can be obtained under circumstances in which the conditioning shocks produce no observable postsynaptic action (Fig. 4). 4. The terminals of the presynaptic ascending interneurons are easily penetrated. They exhibit depolarizing compound IPSPs in response to cephalic root stimulation (Fig. 5). 5. The IPSPs exhibit reversal potentials (Fig. 6) and conductance changes (Fig. 7) similar to those reported in connection with primary afferent depolarization in crayfish abdominal ganglia. 6. Action potentials actively invade the terminal region (Table 2) and are only modestly reduced (3–10%) by concurrent terminal IPSPs. It is possible that action potential attenuation may be much greater at synaptic release sites if conduction is passive in the finer terminal branches. 7. Iontophoresis of GABA elicits depolarizing responses in ascending neuron terminals (Fig. 9). The GABA responses have properties similar to the synaptically elicited responses (Figs. 9, 10). Of particular note is the fact that GABA decreases the terminal input resistance by up to 70% but diminishes the presynaptic spike amplitude by less than 20%. 8. It is concluded that presynaptic inhibition probably acts by mechanisms other than or in addition to the attenuation of the presynaptic action potential. 9. It is also concluded that presynaptic inhibition in the brain prevents the summation of input from diverse sites and is therefore a mechanism for increasing the selectivity and temporal resolution of the large field sensory interneurons.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00613972
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  • 4
    Electronic Resource
    Electronic Resource
    GABA-mediated synaptic inhibition of projection neurons in the antennal lobes of the sphinx moth,Manduca sexta (1987)
    Springer
    Journal of comparative physiology 161 (1987), S. 23-32 
    Details
    ISSN: 1432-1351
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Summary 1. Responses of neurons in the antennal lobe (AL) of the mothManduca sexta to stimulation of the ipsilateral antenna by odors consist of excitatory and inhibitory synaptic potentials (Fig. 2A). Stimulation of primary afferent fibers by electrical shock of the antennal nerve causes a characteristic IPSP-EPSP synaptic response in AL projection neurons (Fig. 2B). 2. The IPSP in projection neurons reverses below the resting potential (Fig. 3), is sensitive to changes in external (Fig. 4) and internal (Fig. 5) chloride concentration, and thus is apparently mediated by an increase in chloride conductance. 3. The IPSP is reversibly blocked by 100 μM picrotoxin (Fig. 6) or bicuculline (Fig. 7). 4. Many AL neurons respond to application of GABA with a strong hyperpolarization and an inhibition of spontaneous spiking activity (Fig. 8). GABA responses are associated with an increase in neuronal input conductance (Fig. 9) and a reversal potential below the resting potential (Fig. 11). 5. Application of GABA blocks inhibitory synaptic inputs (Fig. 12 A) and reduces or blocks excitatory inputs (Fig. 12B). EPSPs can be protected from depression by application of GABA (Fig. 12B). 6. Muscimol, a GABA analog that mimics GABA responses at GABAA receptors but not at GABAB receptors in the vertebrate CNS, inhibits many AL neurons in the moth (Fig. 13).
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00609452
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  • 5
    Electronic Resource
    Electronic Resource
    Physiology and pharmacology of acetylcholinergic responses of interneurons in the antennal lobes of the mothManduca sexta (1989)
    Springer
    Journal of comparative physiology 164 (1989), S. 433-441 
    Details
    ISSN: 1432-1351
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Summary 1. Neurons in the antennal lobe (AL) of the mothManduca sexta respond to the application, via pressure injection into the neuropil, of acetylcholine (ACh). When synaptic transmission is not blocked, both excitatory (Fig. 2) and inhibitory (Fig. 3) responses are seen. 2. Responses to ACh appear to be receptor-mediated, as they are associated with an increase in input conductance (Figs. 2B and 3B) and are dose-dependent (Fig. 2C). 3. All neurons responsive to ACh are also excited by nicotine. Responses to nicotine are stronger and more prolonged than responses to ACh (Fig. 4C). No responses are observed to the muscarinic agonist, oxotremorine (Fig. 4B). 4. Curare blocks responses of AL neurons to applied ACh, while atropine and dexetimide are only weakly effective at reducing ACh responses (Figs. 5 and 6). 5. Curare is also more effective than atropine or dexetimide at reducing synaptically-mediated responses of AL neurons (Fig. 7). 6. In one AL neuron, bicuculline methiodide (BMI) blocked the IPSP produced by electrical stimulation of the antennal nerve, but it did not reduce the inhibitory response to application of ACh (Fig. 8).
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00610437
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  • 6
    Electronic Resource
    Electronic Resource
    Nonspiking local interneurons mediate surround inhibition of crayfish sustaining fibers (1985)
    Springer
    Journal of comparative physiology 156 (1985), S. 763-773 
    Details
    ISSN: 1432-1351
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Summary 1. A class of local, non-spiking interneurons in the second optic lobe of the crayfish is described, and their role in mediation of surround inhibition of sustaining fibers (SFs) is examined. 2. Surround inhibition in SFs is not associated with a measurable IPSP or postsynaptic conductance change in SFs and thus is produced by a decrease in the level of exciatory synaptic input (Fig. 1). 3. Local (amacrine) interneurons in the medulla, the second optic lobe, have biplanar dendritic trees. The proximal plane is coextensive with the single plane of SF dendrites (Fig. 2). 4. The amacrine cells respond to light with a graded depolarization but without impulses (Figs. 3 and 4). Depolarization with extrinsic current strongly reduces ongoing light-induced SF firing, and hyperpolarization enhances SF firing (Fig. 7). 5. Amacrine cell light responses share many properties with SF surround inhibition, including wide receptive fields (Fig. 4), response waveform and time course, and tonic light responses which are proportional to the log of the light intensity (Fig. 5). 6. When sinusoidal current is injected into an amacrine cell (Fig. 9) the SFs exhibit a peak sensitivity to current at modulation frequencies of 2–4 Hz and a flat response above about 10 Hz. SFs exhibit a similar frequency sensitivity to the modulation of illumination in the inhibitory surround. 7. Several results imply that the amacrine cells provide feedback or recurrent inhibition to the excitatory visual pathway. a) The termination of a DC current pulse in an amacrine cell is associated with a large rebound in amacrine cell voltage. The rebound is only observed in the presence of illumination to the cornea (Fig. 10D, E). b) High levels of DC illumination result in steady-state oscillations of amacrine cell membrane potential and antiphasic bursting in SFs (Fig. 10B). c) High levels of DC depolarizing current injected into amacrine cells can elicit a steady-state oscillatory response in the amacrine cell membrane potential (Fig. 10C) and SFs (Fig. 7C).
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00610829
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  • 7
    Electronic Resource
    Electronic Resource
    The crayfish sustaining fibers (1983)
    Springer
    Journal of comparative physiology 150 (1983), S. 419-425 
    Details
    ISSN: 1432-1351
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Summary Simultaneous intracellular and extracellular recordings were obtained from sustaining fibers (SFs) within the optic lobes of the crayfish compound eye. 1. A step increase in illumination produces a large (∼ 25 mV) compound EPSP with an estimated reversal potential of −19 mV (Fig. 3). The visual responses are a significant fraction (∼50%) of the driving force. The time course and relative amplitudes of the transient and steady-state compound EPSP are similar to those of retinular cells. 2. The SF integrating segment possesses linear I-Vm (Fig. 4) and I-FSPIKE (Fig. 5) characteristics which result in a linear VEPSP-FSPIKE function (Fig. 5) for responses to light stimuli. Thus, the transient SF discharge is a faithful reflection of its synaptic input. 3. The profound adaptation of the SF discharge to rectangular pulses of illumination (Fig. 5) is primarily due to the adaptation of the SF spike generating mechanism. The steady-state compound EPSP is 83% of the peak transient voltage (Table 1). This implies that the pathway between retinular cells and SFs contains neurons capable of a high level of tonic response. 4. No direct synaptic interactions have been observed among SFs. The observed spike crosscorrelations reported previously (Glantz and Nudelman 1976) are due to common presynaptic input. Periodic bursting during intense broad-field illumination is due to synchronization of this common excitatory input. 5. Inhibition within the excitatory receptive field (Wiersma and Yamaguchi 1967; Glantz 1973) is expressed dramatically as a postexcitation depression, which results from a membrane hyperpolarization. The hyperpolarization appears to result in part from a direct postsynaptic inhibition of SFs. 6. When these results are considered along with those reported previously, they indicate the important role that the SF,per se, plays in the determination of its visual properties, particularly its receptive field, response time course and linear input/ output characteristics.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00609568
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