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1. Ghrelin: From GH Control to Feeding Behaviour and Sleep Regulatio

Author

Bluet-Pajot, M.-T., Tolle, V., Bassant, M.-H., Kordon, C., Zizzari, P., Poindessous-Jazat, F., Tomasetto, C., Rio, M. C., Estour, B., Foulon, C., Dardennes, R., Epelbaum, J., Kordon, Claude, editor, Robinson, Iain, editor, Hanoune, Jacques, editor, Dantzer, Robert, editor, and Christen, Yves, editor

Published
2003
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2. Ghrelin: From GH Control to Feeding Behaviour and Sleep Regulatio

Author

Bluet-Pajot, M.-T., primary, Tolle, V., additional, Bassant, M.-H., additional, Kordon, C., additional, Zizzari, P., additional, Poindessous-Jazat, F., additional, Tomasetto, C., additional, Rio, M. C., additional, Estour, B., additional, Foulon, C., additional, Dardennes, R., additional, and Epelbaum, J., additional

Published
2002
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14. Pain and masochistic behaviour: The role of descending modulation.

Author

Baudic S, Poindessous-Jazat F, and Bouhassira D

Subjects
Electric Stimulation, Humans, Male, Pain Perception physiology, Reflex physiology, Pain, Pain Threshold physiology
Abstract

Background: The mechanisms of pain perception in individuals with masochistic behaviour (MB) remain poorly documented. We hypothesized that MB is associated with context-specific changes in descending pain modulation., Methods: We compared the effects of four standardized sets of images with positive (erotic), negative (mutilations), masochistic or neutral emotional valences on the RIII nociceptive reflex evoked by electrical stimulation of the sural nerve and recorded on the ipsilateral biceps femoris in 15 controls and 15 men routinely engaging in MB. We systematically assessed the RIII reflex threshold and recruitment curves (up to the tolerance threshold), thermal (heat and cold) pain thresholds measured on the upper and lower limbs and responses to the pain sensitivity questionnaire, to compare basal pain perception between our two groups of participants. We also assessed anxiety, depression, empathy, alexithymia, high sensation seeking and catastrophizing, to investigate their potential influence on the emotional modulation of pain., Results: Thermal pain thresholds, RIII reflex recruitment curves, and responses to the psychological and pain sensitivity questionnaires were similar in the two groups. Neutral, positive and negative images modulated the RIII reflex similarly in the two groups. By contrast, masochistic images induced a significant (p < 0.01) decrease in RIII reflex responses in subjects with MB, whereas it tended to increase these responses in control subjects., Conclusions: Our data suggest that psychological profile, basal pain sensitivity and the emotional modulation of pain are normal in individuals with MB but that these subjects selectively engage descending pain inhibition in the masochistic context., Significance: Decrease pain perception related to masochistic behaviours is associated with specific activation of descending pain inhibition., (© 2022 The Authors. European Journal of Pain published by John Wiley & Sons Ltd on behalf of European Pain Federation - EFIC ®.)

Published
2022
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15. Repetitive transcranial magnetic stimulation for neuropathic pain: a randomized multicentre sham-controlled trial.

Author

Attal N, Poindessous-Jazat F, De Chauvigny E, Quesada C, Mhalla A, Ayache SS, Fermanian C, Nizard J, Peyron R, Lefaucheur JP, and Bouhassira D

Subjects
Adult, Aged, Dorsolateral Prefrontal Cortex physiology, Double-Blind Method, Female, Humans, Male, Middle Aged, Motor Cortex physiology, Treatment Outcome, Neuralgia therapy, Pain Management methods, Transcranial Magnetic Stimulation methods
Abstract

Repetitive transcranial magnetic stimulation (rTMS) has been proposed to treat neuropathic pain but the quality of evidence remains low. We aimed to assess the efficacy and safety of neuronavigated rTMS to the primary motor cortex (M1) or dorsolateral prefrontal cortex (DLPFC) in neuropathic pain over 25 weeks. We carried out a randomized double-blind, placebo-controlled trial at four outpatient clinics in France. Patients aged 18-75 years with peripheral neuropathic pain were randomly assigned at a 1:1 ratio to M1 or DLPFC-rTMS and rerandomized at a 2:1 ratio to active or sham-rTMS (10 Hz, 3000 pulses/session, 15 sessions over 22 weeks). Patients and investigators were blind to treatment allocation. The primary end point was the comparison between active M1-rTMS, active DLPCF-rTMS and sham-rTMS for the change over the course of 25 weeks (Group × Time interaction) in average pain intensity (from 0 no pain to 10 maximal pain) on the Brief Pain Inventory, using a mixed model repeated measures analysis in patients who received at least one rTMS session (modified intention-to-treat population). Secondary outcomes included other measures of pain intensity and relief, sensory and affective dimensions of pain, quality of pain, self-reported pain intensity and fatigue (patients diary), Patient and Clinician Global Impression of Change (PGIC, CGIC), quality of life, sleep, mood and catastrophizing. This study is registered with ClinicalTrials.gov NCT02010281. A total of 152 patients were randomized and 149 received treatment (49 for M1; 52 for DLPFC; 48 for sham). M1-rTMS reduced pain intensity versus sham-rTMS (estimate for Group × Session interaction: -0.048 ± 0.02; 95% CI: -0.09 to -0.01; P = 0.01). DLPFC-rTMS was not better than sham (estimate: -0.003 ± 0.01; 95% CI: -0.04 to 0.03, P = 0.9). M1-rRMS, but not DLPFC-rTMS, was also superior to sham-rTMS on pain relief, sensory dimension of pain, self-reported pain intensity and fatigue, PGIC and CGIC. There were no effects on quality of pain, mood, sleep and quality of life as all groups improved similarly over time. Headache was the most common side effect and occurred in 17 (34.7%), 23 (44.2%) and 13 (27.1%) patients from M1, DLPFC and sham groups, respectively (P = 0.2). Our results support the clinical relevance of M1-rTMS, but not of DLPFC-rTMS, for peripheral neuropathic pain with an excellent safety profile., (© The Author(s) (2021). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published
2021
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16. Hyperalgesia induced by low-dose opioid treatment before orthopaedic surgery: An observational case-control study.

Author

Hina N, Fletcher D, Poindessous-Jazat F, and Martinez V

Subjects
Aged, Analgesics, Opioid administration & dosage, Case-Control Studies, Chronic Pain diagnosis, Chronic Pain physiopathology, Female, France, Hospitals, Teaching, Humans, Hyperalgesia diagnosis, Male, Middle Aged, Morphine administration & dosage, Pain Measurement, Pain Threshold drug effects, Pain, Postoperative diagnosis, Prospective Studies, Severity of Illness Index, Time Factors, Treatment Outcome, Analgesics, Opioid adverse effects, Chronic Pain drug therapy, Hyperalgesia chemically induced, Morphine adverse effects, Orthopedic Procedures adverse effects, Pain, Postoperative chemically induced
Abstract

Background: Chronic pain and opioid consumption may trigger diffuse hyperalgesia, but their relative contributions to pain vulnerability remain unclear., Objectives: To assess preoperative opioid-induced hyperalgesia and its postoperative clinical consequences in patients with chronic pain scheduled for orthopaedic surgery., Design: A prospective observational study., Settings: Raymond Poincare teaching hospital., Patients: Adults with or without long-term opioid treatment, scheduled for orthopaedic surgery., Primary Outcome Measure: Preoperative hyperalgesia was assessed with eight quantitative sensory tests, in a pain-free zone., Secondary Outcome Measures: Postoperative morphine consumption and pain intensity were evaluated using a numerical rating scale (NRS) in the recovery room and during the first 72 h., Results: We analysed results from 68 patients (28 opioid-treated patients and 40 controls). Mean daily opioid consumption was 42 ± 25 mg of morphine equivalent. The opioid-treated group displayed significantly higher levels of preoperative hyperalgesia in three tests: heat tolerance threshold (47.1°C vs. 48.4°C; P = 0.045), duration of tolerance to a 47°C stimulus (40.2 vs. 51.1 s; P = 0.03) and mechanical temporal summation [1.79 vs. 1.02 (ΔNRS10-1); P = 0.036]. Patients in the opioid-treated group consumed more morphine (19.1 vs. 9.38 mg; P = 0.001), had a higher pain intensity (7.6 vs. 5.5; P = 0.001) in the recovery room and a higher cumulative morphine dose at 72 h (39.8 vs. 25.6 mg; P = 0.02)., Conclusion: Chronic pain patients treated with low doses of opioid had hyperalgesia before surgery. These results highlight the need to personalise the management of patients treated with opioids before surgery., Trial Registration: ID-RCB 2011-A00304-37.

Published
2015
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17. Prolonged continuous theta-burst stimulation is more analgesic than 'classical' high frequency repetitive transcranial magnetic stimulation.

Author

Moisset X, Goudeau S, Poindessous-Jazat F, Baudic S, Clavelou P, and Bouhassira D

Subjects
Adult, Evoked Potentials, Motor physiology, Female, Humans, Male, Neural Inhibition physiology, Pain Threshold, Theta Rhythm, Time Factors, Analgesia methods, Motor Cortex physiology, Transcranial Magnetic Stimulation methods
Abstract

Background: Repetitive transcranial magnetic stimulation (rTMS) of the primary motor cortex (M1) at high frequency (>5 Hz) induces analgesic effects, probably by activating pain modulation systems. A new rTMS paradigm--theta burst stimulation (TBS)--consists of bursts of three pulses at 50 Hz repeated five times per second. Like high frequency rTMS, both intermittent and prolonged continuous TBS (iTBS and pcTBS) lead to a facilitation of cortical excitability., Objectives: (1) to evaluate the analgesic effects of neuronavigated iTBS and pcTBS, comparing them with those of classical high frequency rTMS (10 Hz) over the left M1, (2) to elucidate the role of conditioned pain modulation (CPM) in the antinociceptive effect of rTMS and (3) to investigate possible correlations between analgesia and cortical excitability., Methods: Fourteen healthy volunteers participated in four experimental sessions, carried out in a random order (iTBS, pcTBS, 10 Hz rTMS or sham). Cold pain threshold, CPM and cortical excitability measurements were carried out before and after rTMS., Results: We found that the analgesic effects of 10 Hz rTMS and pcTBS were significantly superior to those of sham rTMS. Moreover, pcTBS was significantly more effective than 10 Hz rTMS (P = 0.026). Analgesia did not seem to be driven by changes in CPM or cortical excitability., Conclusion: Prolonged cTBS has considerable clinical potential, as it has a shorter treatment duration (by a factor 8) and stronger analgesic effects than the classical high frequency protocol. Studies in patients are required to confirm the potential of this new stimulation paradigm for clinical applications., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
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18. A new neuronal target for β-amyloid peptide in the rat hippocampus.

Author

Villette V, Poindessous-Jazat F, Bellessort B, Roullot E, Peterschmitt Y, Epelbaum J, Stéphan A, and Dutar P

Subjects
Action Potentials physiology, Alzheimer Disease metabolism, Alzheimer Disease pathology, Alzheimer Disease physiopathology, Amyloid beta-Peptides administration & dosage, Animals, Hippocampus metabolism, Hippocampus physiology, Male, Neural Pathways metabolism, Neural Pathways pathology, Neural Pathways physiology, Neurons physiology, Rats, Rats, Sprague-Dawley, Amyloid beta-Peptides toxicity, Hippocampus pathology, Neurons pathology
Abstract

In Alzheimer's disease, amyloid beta peptide (Aβ) accumulation is associated with hippocampal network dysfunction. Intrahippocampal injections of Aβ induce aberrant inhibitory septohippocampal (SH) network activity in vivo and impairment of memory processing. In the present study, we observed, after hippocampal Aβ treatment, a selective loss of neurons projecting to the medial septum (MS) and containing calbindin (CB) and/or somatostatin (SOM). Other GABAergic neuronal subpopulations were not altered. Thus, the present study identifies hippocamposeptal neuron populations as specific targets for Aβ deposits. We observed that in Aβ-treated rats but not in controls, glutamate agonist application induced rhythmic bursting in 55% of the slow-firing neurons in the medial septum. This suggests that hippocampal Aβ can trigger modifications of the septohippocampal pathway via the alteration of a specific neuronal population. Long-range hippocamposeptal GABA/calbindin neurons, targets of hippocampal amyloid deposits, are implicated in supporting network synchronization. By identifying this target, we contribute to the understanding of the mechanisms underlying deleterious effects of Aβ, one of the main agents of dementia in Alzheimer's disease., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published
2012
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19. Decreased rhythmic GABAergic septal activity and memory-associated theta oscillations after hippocampal amyloid-beta pathology in the rat.

Author

Villette V, Poindessous-Jazat F, Simon A, Léna C, Roullot E, Bellessort B, Epelbaum J, Dutar P, and Stéphan A

Subjects
Action Potentials, Amyloid beta-Peptides metabolism, Animals, Cerebral Amyloid Angiopathy pathology, Hippocampus pathology, Male, Neurons pathology, Neurons physiology, Periodicity, Rats, Rats, Sprague-Dawley, Recognition, Psychology physiology, Space Perception physiology, Visual Perception physiology, Cerebral Amyloid Angiopathy physiopathology, Hippocampus physiopathology, Memory physiology, Septum of Brain physiopathology, Theta Rhythm, gamma-Aminobutyric Acid metabolism
Abstract

The memory deficits associated with Alzheimer's disease result to a great extent from hippocampal network dysfunction. The coordination of this network relies on theta (symbol) oscillations generated in the medial septum. Here, we investigated in rats the impact of hippocampal amyloid beta (Abeta) injections on the physiological and cognitive functions that depend on the septohippocampal system. Hippocampal Abeta injections progressively impaired behavioral performances, the associated hippocampal theta power, and theta frequency response in a visuospatial recognition test. These alterations were associated with a specific reduction in the firing of the identified rhythmic bursting GABAergic neurons responsible for the propagation of the theta rhythm to the hippocampus, but without loss of medial septal neurons. Such results indicate that hippocampal Abeta treatment leads to a specific functional depression of inhibitory projection neurons of the medial septum, resulting in the functional impairment of the temporal network.

Published
2010
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20. Firing properties of anatomically identified neurons in the medial septum of anesthetized and unanesthetized restrained rats.

Author

Simon AP, Poindessous-Jazat F, Dutar P, Epelbaum J, and Bassant MH

Subjects
Animals, Choline O-Acetyltransferase metabolism, Electrophysiology, Glutamate Decarboxylase metabolism, Hippocampus physiology, Immunohistochemistry, Male, Neurons metabolism, Parvalbumins metabolism, Rats, Rats, Sprague-Dawley, Restraint, Physical, Septum of Brain cytology, Septum of Brain metabolism, Theta Rhythm, Anesthesia, Neurons physiology, Septum of Brain physiology
Abstract

Cholinergic and GABAergic neurons in the medial septum-diagonal band of Broca (MS-DB) project to the hippocampus where they are involved in generating theta rhythmicity. So far, the functional properties of neurochemically identified MS-DB neurons are not fully characterized. In this study, MS-DB neurons recorded in urethane anesthetized rats and in unanesthetized restrained rats were labeled with neurobiotin and processed for immunohistochemistry against glutamic acid decarboxylase (GAD), parvalbumin (PV), and choline acetyltransferase (ChAT). The majority of the 90 labeled neurons (75.5%) were GAD+. Among them, 34.0% were also PV+, but none were ChAT+. Only 8.8% of the labeled neurons were found ChAT+. Remaining neurons (15.5%) were not identified. In anesthetized rats, all of the PV/GAD+ and 65% of GAD+ neurons exhibited burst-firing activity at the theta frequency. PV/GAD+ neurons displayed higher discharge rate and longer burst duration compared with GAD+ neurons. At variance, all of the ChAT+ neurons were slow-firing. Cluster-firing and tonic-firing were observed in GAD+ and unidentified neurons. In unanesthetized rats, during wakefulness or rapid eye movement sleep with hippocampal theta, the bursting neurons were PV/GAD+ or GAD+, whereas all of the ChAT+ neurons were slow-firing. Across the sleep-wake cycle, the GABAergic component of the septohippocampal pathway was always more active than the cholinergic one. The fact that cholinergic MS-DB neurons do not display theta-related bursting or tonic activity but have a very low firing rate questions how acetylcholine exerts its activating role in the septohippocampal system.

Published
2006
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21. Medial septal GABAergic neurons express the somatostatin sst2A receptor: functional consequences on unit firing and hippocampal theta.

Author

Bassant MH, Simon A, Poindessous-Jazat F, Csaba Z, Epelbaum J, and Dournaud P

Subjects
Action Potentials drug effects, Animals, Hippocampus physiology, Injections, Iontophoresis, Male, Neural Pathways physiology, Neurons drug effects, Neurons physiology, Octreotide administration & dosage, Octreotide pharmacology, Parvalbumins analysis, Rats, Rats, Sprague-Dawley, Receptors, Somatostatin agonists, Receptors, Somatostatin drug effects, Septum Pellucidum cytology, Somatostatin administration & dosage, Electroencephalography drug effects, Hippocampus drug effects, Receptors, Somatostatin physiology, Somatostatin pharmacology, gamma-Aminobutyric Acid physiology
Abstract

GABAergic septohippocampal neurons play a major role in the generation of hippocampal theta rhythm, but modulatory factors intervening in this function are poorly documented. The neuropeptide somatostatin (SST) may be one of these factors, because nearly all hippocampal GABAergic neurons projecting to the medial septum/diagonal band of Broca (MS-DB) express SST. In this study, we took advantage of the high and selective expression of the SST receptor sst2A in MS-DB to examine its possible role on theta-related activity. Immunohistochemical experiments demonstrated that sst2A receptors were selectively targeted to the somatodendritic domain of neurons expressing the GABAergic marker GAD67 but were not expressed by cholinergic neurons. In addition, a subpopulation of GABAergic septohippocampal projecting neurons expressing parvalbumin (PV) also displayed sst2A receptors. Using in vivo juxtacellular recording and labeling with neurobiotin, we showed that a number of bursting and nonbursting neurons exhibiting high discharge rates and brief spikes were immunoreactive for PV or GAD67 and expressed the sst2A receptor. Microiontophoresis applications of SST and the sst2A agonist octreotide (OCT) showed that sst2A receptor activation decreased the discharge rate of both nonbursting and bursting MS-DB neurons and lessened the rhythmic activity of the latter. Finally, intraseptal injections of OCT and SST in freely moving rats reduced the power of hippocampal EEG in the theta band. Together, these in vivo experiments suggest that SST action on MS-DB GABAergic neurons, through sst2A receptors, represents an important modulatory mechanism in the control of theta activity.

Published
2005
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22. Ultradian rhythmicity of ghrelin secretion in relation with GH, feeding behavior, and sleep-wake patterns in rats.

Author

Tolle V, Bassant MH, Zizzari P, Poindessous-Jazat F, Tomasetto C, Epelbaum J, and Bluet-Pajot MT

Subjects
Animals, Arousal drug effects, Electroencephalography, Electromyography, Ghrelin, Half-Life, Injections, Intravenous, Male, Peptides pharmacokinetics, Peptides pharmacology, Photoperiod, Rats, Rats, Sprague-Dawley, Sleep, REM physiology, Activity Cycles physiology, Feeding Behavior physiology, Growth Hormone metabolism, Peptide Hormones, Peptides metabolism, Sleep physiology, Wakefulness physiology
Abstract

Ghrelin, an endogenous ligand for the GHS receptor, stimulates GH secretion and gastrointestinal motility and has orexigenic effects. In this study, the relationships between ghrelin, GH secretion, feeding behavior, and sleep-wake patterns were investigated in adult male rats. The half-life of exogenous ghrelin (10 microg i.v.) in plasma was about 30 min. Repeated administration of ghrelin at 3- to 4-h intervals (one during lights-on and two during lights-off periods) increased GH release and feeding activity, and decreased rapid eye movement sleep duration. Endogenous plasma ghrelin levels exhibited pulsatile variations that were smaller and less regular compared with those of GH. No significant correlation between GH and ghrelin circulating levels was found, although mean interpeak intervals and pulse frequencies were close for the two hormones. In contrast, ghrelin pulse variations were correlated with food intake episodes in the lights off period, and plasma ghrelin concentrations decreased by 26% in the 20 min following the end of the food intake periods. A positive correlation between ghrelin levels and active wake was found during the first 3 h of the dark period only. In conclusion, ghrelin, in addition to affecting GH secretion, gastrointestinal motility, and feeding activity, also modifies sleep-wake patterns. However, a direct action of ghrelin per se or the indirect effects of feeding (and all of its attendant metabolic sequelae) on sleep cannot be differentiated. Moreover, ghrelin secretion is pulsatile and directly related to feeding behavior only.

Published
2002
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23. Ventral tegmental nucleus of Gudden: a pontine hippocampal theta generator?

Author

Bassant MH and Poindessous-Jazat F

Subjects
Animals, Arousal physiology, Electromyography, Electrophysiology, Neurons physiology, Periodicity, Pons cytology, Rats, Rats, Sprague-Dawley, Sleep, REM physiology, Tegmentum Mesencephali cytology, Wakefulness physiology, Hippocampus physiology, Pons physiology, Tegmentum Mesencephali physiology, Theta Rhythm
Abstract

It is well-established that rhythmically bursting (RB) activity in the medial septum is crucial for the generation of the hippocampal theta rhythm, but the contribution of other diencephalic-pontine structures is less documented. The ventral tegmental nucleus (VTn) of Gudden is related to the Papez's circuit via its interconnections with the medial mammillary nucleus, and therefore it may play a role in the generation of hippocampal theta. In the present study, extracellular activity from VTn neurons were recorded in unanesthetized restrained rats (n = 9). Hippocampal activity (EEG) and electromyograms were recorded simultaneously to identify sleep-waking states. RB activity was observed in VTn during wakefulness, with periods of hippocampal theta and during rapid eye movement (REM) sleep. Rhythmicity in VTn preceded theta activity in hippocampus. The frequency of RB neurons in VTn was 5.6 Hz during wakefulness and 6.8 Hz during REM sleep. It was similar to that of hippocampal theta. The rhythmicity was particularly stable and the firing rates were strikingly high during REM sleep. RB activity in VTn was also recorded from urethane-anesthetized rates (n = 3). Rhythmic firing (4.0 Hz) was slower than in unanesthetized rats and matched the urethane-related theta frequency. Our results show that neurons in VTn exhibit a marked RB activity during states of vigilance accompanied by hippocampal theta rhythm. They suggest that VTn may be a pontine hippocampal theta generator.

Published
2001
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24. Loss of rhythmically bursting neurons in rat medial septum following selective lesion of septohippocampal cholinergic system.

Author

Apartis E, Poindessous-Jazat FR, Lamour YA, and Bassant MH

Subjects
Acetylcholinesterase analysis, Anesthetics, Animals, Histocytochemistry, Male, Rats, Rats, Sprague-Dawley, Acetylcholine physiology, Hippocampus physiology, Neurons physiology, Respiratory Burst physiology, Septum Pellucidum physiology, Theta Rhythm
Abstract

The medial septum contains cholinergic and GABAergic neurons that project to the hippocampal formation. A significant proportion of the septohippocampal neurons (SHN) exhibit a rhythmically bursting (RB) activity that is involved in the generation of the hippocampal theta rhythm. The neurochemical nature of septal RB neurons is not firmly established. To address this question, the septal unit activity has been recorded in rats after selective destruction of the cholinergic septal neurons by the immunotoxin 192 IgG-saporin. Experiments have been performed in urethan-anesthetized and unanesthetized rats, 14-21 days after lesion. Acetylcholinesterase (AChE) histochemistry revealed a near-complete loss of cholinergic septal neurons and of cholinergic fibers in the hippocampus. The recorded neurons were located in the medial septum-diagonal band of Broca area. A number of these neurons were identified as projecting to the hippocampus (SHN) by their antidromic response to the electrical stimulation of the fimbria-fornix. In urethan-anesthetized lesioned rats, the percentage of RB neurons decreased significantly as compared with controls (17 vs. 41% for SHNs and 5 vs. 19% for unidentified septal neurons). The axonal conduction velocity and the burst frequency of the SHNs that retained a RB activity were higher in lesioned as compared with control rats. The number of spikes per burst was lower and the burst duration was shorter in lesioned rats as compared with controls. The urethan-resistant hippocampal theta was altered both in terms of frequency and amplitude. In unanesthetized lesioned rats, no RB septal neurons were found during arousal, as compared with 25% in controls. Their number was also markedly reduced during paradoxical sleep (9.7 vs. 38.5%). Histochemistry in 192 IgG-saporin-treated rats showed that RB neurons were found in areas devoid of AChE-positive neurons but containing parvalbumine-positive (presumably GABAergic) neurons. These data show that RB activity is considerably reduced after selective lesion of the cholinergic medial septal neurons. They suggested that the large majority of the RB septal neurons are cholinergic and that the few neurons that display RB activity in lesioned rats are GABAergic.

Published
1998
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