The role of the pedunculopontine tegmental nucleus in relation to conditioned motor performance in the cat. II. Effects of reversible inactivation by intracerebral microinjections
The effects of reversible pharmacological manipulation of the neuronal activity in the pedunculopontine tegmental nucleus (PPTg) on the performance of a conditioned movement was studied in two freely moving cats. The microinjections were given in regions where, in the same subjects, we had previousl...
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| Published in | Experimental brain research Vol. 121; no. 4; pp. 411 - 418 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin
Springer
01.08.1998
Springer Verlag |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0014-4819 1432-1106 |
| DOI | 10.1007/s002210050475 |
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| Abstract | The effects of reversible pharmacological manipulation of the neuronal activity in the pedunculopontine tegmental nucleus (PPTg) on the performance of a conditioned movement was studied in two freely moving cats. The microinjections were given in regions where, in the same subjects, we had previously identified neurons with context-dependent early activity after a trigger stimulus and with reinforcement-related activity. The subjects were conditioned to perform a forelimb-flexion movement controlled by a simple reaction-time task. In addition, one subject was trained to execute the same flexion movement, but delayed after the trigger stimulus. Food pellets were used as the reinforcer. Lidocaine injections (1 microl of 2% solution, injected over a 6-min period) induced a transient arrest of performance within minutes. The cessation of performance could be preceded by behavioral signs such as meowing, attempt to escape from the experimental booth, licking, or stereotyped posture. No rotational behavior could be observed. The effects of lidocaine could be mimicked in one subject by an extinction procedure. Muscimol injections (two injections of 0.2 microg in 1 microl, tested in one subject) also induced arrest of performance, but the return to pre-injection level of performance could not be obtained within the time of the test session. The quantitative analysis of reaction times and of inter-trial intervals showed that altering PPTg activity affected inter-trial intervals, but only slightly affected the reaction times. It is speculated that the PPTg is involved in the reinforcement process related to selecting the appropriate motor program. |
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| AbstractList | The effects of reversible pharmacological manipulation of the neuronal activity in the pedunculopontine tegmental nucleus (PPTg) on the performance of a conditioned movement was studied in two freely moving cats. The microinjections were given in regions where, in the same subjects, we had previously identified neurons with context-dependent early activity after a trigger stimulus and with reinforcement-related activity. The subjects were conditioned to perform a forelimb-flexion movement controlled by a simple reaction-time task. In addition, one subject was trained to execute the same flexion movement, but delayed after the trigger stimulus. Food pellets were used as the reinforcer. Lidocaine injections (1 microl of 2% solution, injected over a 6-min period) induced a transient arrest of performance within minutes. The cessation of performance could be preceded by behavioral signs such as meowing, attempt to escape from the experimental booth, licking, or stereotyped posture. No rotational behavior could be observed. The effects of lidocaine could be mimicked in one subject by an extinction procedure. Muscimol injections (two injections of 0.2 microg in 1 microl, tested in one subject) also induced arrest of performance, but the return to pre-injection level of performance could not be obtained within the time of the test session. The quantitative analysis of reaction times and of inter-trial intervals showed that altering PPTg activity affected inter-trial intervals, but only slightly affected the reaction times. It is speculated that the PPTg is involved in the reinforcement process related to selecting the appropriate motor program. The effects of reversible pharmacological manipulation of the neuronal activity in the pedunculopontine tegmental nucleus (PPTg) on the performance of a conditioned movement was studied in two freely moving cats. The microinjections were given in regions where, in the same subjects, we had previously identified neurons with context-dependent early activity after a trigger stimulus and with reinforcement-related activity. The subjects were conditioned to perform a forelimb-flexion movement controlled by a simple reaction-time task. In addition, one subject was trained to execute the same flexion movement, but delayed after the trigger stimulus. Food pellets were used as the reinforcer. Lidocaine injections (1 [micro]l of 2% solution, injected over a 6-min period) induced a transient arrest of performance within minutes. The cessation of performance could be preceded by behavioral signs such as meowing, attempt to escape from the experimental booth, licking, or stereotyped posture. No rotational behavior could be observed. The effects of lidocaine could be mimicked in one subject by an extinction procedure. Muscimol injections (two injections of 0.2 [micro]g in 1 [micro]l, tested in one subject) also induced arrest of performance, but the return to pre-injection level of performance could not be obtained within the time of the test session. The quantitative analysis of reaction times and of inter-trial intervals showed that altering PPTg activity affected inter-trial intervals, but only slightly affected the reaction times. It is speculated that the PPTg is involved in the reinforcement process related to selecting the appropriate motor program. Key words Pedunculopontine tegmental nucleus * Reinforcement * Signal processing * Microinjection * Reaction time * Movement The effects of reversible pharmacological manipulation of the neuronal activity in the pedunculopontine tegmental nucleus (PPTg) on the performance of a conditioned movement was studied in two freely moving cats. The microinjections were given in regions where, in the same subjects, we had previously identified neurons with context-dependent early activity after a trigger stimulus and with reinforcement-related activity. The subjects were conditioned to perform a forelimb-flexion movement controlled by a simple reaction-time task. In addition, one subject was trained to execute the same flexion movement, but delayed after the trigger stimulus. Food pellets were used as the reinforcer. Lidocaine injections (1 mu l of 2% solution, injected over a 6-min period) induced a transient arrest of performance within minutes. The cessation of performance could be preceded by behavioral signs such as meowing, attempt to escape from the experimental booth, licking, or stereotyped posture. No rotational behavior could be observed. The effects of lidocaine could be mimicked in one subject by an extinction procedure. Muscimol injections (two injections of 0.2 mu g in 1 mu l, tested in one subject) also induced arrest of performance, but the return to pre-injection level of performance could not be obtained within the time of the test session. The quantitative analysis of reaction times and of inter-trial intervals showed that altering PPTg activity affected inter-trial intervals, but only slightly affected the reaction times. It is speculated that the PPTg is involved in the reinforcement process related to selecting the appropriate motor program. The effects of reversible pharmacological manipulation of the neuronal activity in the pedunculopontine tegmental nucleus (PPTg) on the performance of a conditioned movement was studied in two freely moving cats. The microinjections were given in regions where, in the same subjects, we had previously identified neurons with context-dependent early activity after a trigger stimulus and with reinforcement-related activity. The subjects were conditioned to perform a forelimb-flexion movement controlled by a simple reaction-time task. In addition, one subject was trained to execute the same flexion movement, but delayed after the trigger stimulus. Food pellets were used as the reinforcer. Lidocaine injections (1 [micro]l of 2% solution, injected over a 6-min period) induced a transient arrest of performance within minutes. The cessation of performance could be preceded by behavioral signs such as meowing, attempt to escape from the experimental booth, licking, or stereotyped posture. No rotational behavior could be observed. The effects of lidocaine could be mimicked in one subject by an extinction procedure. Muscimol injections (two injections of 0.2 [micro]g in 1 [micro]l, tested in one subject) also induced arrest of performance, but the return to pre-injection level of performance could not be obtained within the time of the test session. The quantitative analysis of reaction times and of inter-trial intervals showed that altering PPTg activity affected inter-trial intervals, but only slightly affected the reaction times. It is speculated that the PPTg is involved in the reinforcement process related to selecting the appropriate motor program. The effects of reversible pharmacological manipulation of the neuronal activity in the pedunculopontine tegmental nucleus (PPTg) on the performance of a conditioned movement was studied in two freely moving cats. The microinjections were given in regions where, in the same subjects, we had previously identified neurons with context-dependent early activity after a trigger stimulus and with reinforcement-related activity. The subjects were conditioned to perform a forelimb-flexion movement controlled by a simple reaction-time task. In addition, one subject was trained to execute the same flexion movement, but delayed after the trigger stimulus. Food pellets were used as the reinforcer. Lidocaine injections (1 microl of 2% solution, injected over a 6-min period) induced a transient arrest of performance within minutes. The cessation of performance could be preceded by behavioral signs such as meowing, attempt to escape from the experimental booth, licking, or stereotyped posture. No rotational behavior could be observed. The effects of lidocaine could be mimicked in one subject by an extinction procedure. Muscimol injections (two injections of 0.2 microg in 1 microl, tested in one subject) also induced arrest of performance, but the return to pre-injection level of performance could not be obtained within the time of the test session. The quantitative analysis of reaction times and of inter-trial intervals showed that altering PPTg activity affected inter-trial intervals, but only slightly affected the reaction times. It is speculated that the PPTg is involved in the reinforcement process related to selecting the appropriate motor program.The effects of reversible pharmacological manipulation of the neuronal activity in the pedunculopontine tegmental nucleus (PPTg) on the performance of a conditioned movement was studied in two freely moving cats. The microinjections were given in regions where, in the same subjects, we had previously identified neurons with context-dependent early activity after a trigger stimulus and with reinforcement-related activity. The subjects were conditioned to perform a forelimb-flexion movement controlled by a simple reaction-time task. In addition, one subject was trained to execute the same flexion movement, but delayed after the trigger stimulus. Food pellets were used as the reinforcer. Lidocaine injections (1 microl of 2% solution, injected over a 6-min period) induced a transient arrest of performance within minutes. The cessation of performance could be preceded by behavioral signs such as meowing, attempt to escape from the experimental booth, licking, or stereotyped posture. No rotational behavior could be observed. The effects of lidocaine could be mimicked in one subject by an extinction procedure. Muscimol injections (two injections of 0.2 microg in 1 microl, tested in one subject) also induced arrest of performance, but the return to pre-injection level of performance could not be obtained within the time of the test session. The quantitative analysis of reaction times and of inter-trial intervals showed that altering PPTg activity affected inter-trial intervals, but only slightly affected the reaction times. It is speculated that the PPTg is involved in the reinforcement process related to selecting the appropriate motor program. |
| Audience | Academic |
| Author | FARIN, D CONDE, H DORMONT, J. F |
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| Keywords | Fissipedia Carnivora Central nervous system Instrumental conditioning Motor control Learning Vertebrata Mammalia Acquisition process Animal Cat Body movement Reinforcement Reaction time Tegmentum Brain (vertebrata) |
| Language | English |
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| SubjectTerms | Anatomical correlates of behavior Animals Anti-Arrhythmia Agents - pharmacology Behavior, Animal - drug effects Behavioral psychophysiology Biological and medical sciences Cats Conditioning (Psychology) - drug effects Conditioning (Psychology) - physiology Fundamental and applied biological sciences. Psychology GABA Agonists - pharmacology Globus Pallidus - cytology Lidocaine Lidocaine - pharmacology Life Sciences Microinjections Motor Cortex - cytology Motor Cortex - physiology Movement - physiology Muscimol - pharmacology Neural Pathways Neurobiology Neurons Neurons - drug effects Neurons - physiology Neurons and Cognition Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology Reaction Time - physiology Tegmentum Mesencephali - cytology Tegmentum Mesencephali - physiology Thalamic Nuclei - cytology |
| Title | The role of the pedunculopontine tegmental nucleus in relation to conditioned motor performance in the cat. II. Effects of reversible inactivation by intracerebral microinjections |
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