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The Journal of Physiology Dec 2019•Initiation of pathological synchronous events such as epileptic spikes and seizures is linked to the hyperexcitability of the neuronal network in both humans and...
KEY POINTS
•Initiation of pathological synchronous events such as epileptic spikes and seizures is linked to the hyperexcitability of the neuronal network in both humans and animals. •In the present study, we show that epileptiform interictal-like spikes and seizures emerged in human neocortical slices by blocking GABA receptors, following the disappearance of the spontaneously occurring synchronous population activity. •Large variability of temporally and spatially simple and complex spikes was generated by tissue from epileptic patients, whereas only simple events appeared in samples from non-epileptic patients. •Physiological population activity was associated with a moderate level of principal cell and interneuron firing, with a slight dominance of excitatory neuronal activity, whereas epileptiform events were mainly initiated by the synchronous and intense discharge of inhibitory cells. •These results help us to understand the role of excitatory and inhibitory neurons in synchrony-generating mechanisms, in both epileptic and non-epileptic conditions.
ABSTRACT
Understanding the role of different neuron types in synchrony generation is crucial for developing new therapies aiming to prevent hypersynchronous events such as epileptic seizures. Paroxysmal activity was linked to hyperexcitability and to bursting behaviour of pyramidal cells in animals. Human data suggested a leading role of either principal cells or interneurons, depending on the seizure morphology. In the present study, we aimed to uncover the role of excitatory and inhibitory processes in synchrony generation by analysing the activity of clustered single neurons during physiological and epileptiform synchronies in human neocortical slices. Spontaneous population activity was detected with a 24-channel laminar microelectrode in tissue derived from patients with or without preoperative clinical manifestations of epilepsy. This population activity disappeared by blocking GABA receptors, and several variations of spatially and temporally simple or complex interictal-like spikes emerged in epileptic tissue, whereas peritumoural slices generated only simple spikes. Around one-half of the clustered neurons participated with an elevated firing rate in physiological synchronies with a slight dominance of excitatory cells. By contrast, more than 90% of the neurons contributed to interictal-like spikes and seizures, and an intense and synchronous discharge of inhibitory neurons was associated with the start of these events. Intrinsically bursting principal cells fired later than other neurons. Our data suggest that a balanced excitation and inhibition characterized physiological synchronies, whereas disinhibition-induced epileptiform events were initiated mainly by non-synaptically synchronized inhibitory neurons. Our results further highlight the differences between humans and animal models, and between in vivo and (pharmacologically manipulated) in vitro conditions.
Topics: Adult; Aged; Bicuculline; Epilepsy; Female; GABA-A Receptor Antagonists; Humans; Male; Middle Aged; Neocortex; Neurons; Receptors, GABA-A; Young Adult
PubMed: 31523807
DOI: 10.1113/JP278499 -
American Journal of Physiology.... Oct 2019Functional gastrointestinal disorders, including delayed gastric emptying and decreased gastric motility, are more prevalent in women, suggesting a potential role for...
Functional gastrointestinal disorders, including delayed gastric emptying and decreased gastric motility, are more prevalent in women, suggesting a potential role for circulating gonadal hormones, including estrogen. Gastric motility is tuned by the vagal inputs arising from the dorsal motor nucleus of the vagus (DMV), which is itself controlled by tonic GABAergic inputs. Estrogen increases GABA functions in various central nervous system areas; however, the effect of the estrus cycle in modulating GABAergic inputs onto DMV neurons, hence vagal control of gastric motility, has not been investigated. The aim of the present study was to test the hypothesis that GABAergic tone to DMV neurons, hence the vagal output to the stomach, varies according to sex and the estrus cycle. Experiments were performed on age-matched Sprague-Dawley male and virgin female rats; females were subdivided according to the high-estrogen (HE) or low-estrogen (LE) period of their cycle. Whole-cell patch-clamp recordings were made from gastric-projecting DMV neurons, and the response to perfusion with the GABA receptor antagonist bicuculline was examined. The response of corpus and antrum tone and motility to bicuculline microinjected in the dorsal vagal complex, recorded via strain gauges sewn to the anterior gastric surface, was also assessed. Bicuculline increased the firing rate of DMV neurons, as well as gastric tone and motility, to a larger extent in HE compared with LE or male rats, suggesting a higher GABAergic tone in HE female rats. Taken together, the data support the hypothesis that GABAergic tone to DMV neurons varies according to sex and estrus cycle. GABAergic neurotransmission to the dorsal motor nucleus of the vagus (DMV) plays a pivotal role in the modulation of gastric tone and motility. Gastric motility is reduced in women and may contribute to the higher incidence of functional gastrointestinal disorders. In the present study, we report that GABAergic tone to rat DMV neurons, hence vagal output to the stomach, varies according to sex and estrus cycle, and the GABAergic tone is increased during the high-estrogen period of the estrus cycle.
Topics: Animals; Bicuculline; Estrogens; Estrous Cycle; Female; GABA Antagonists; Gastrointestinal Motility; Male; Patch-Clamp Techniques; Rats; Rats, Sprague-Dawley; Sex Characteristics; Stomach; Synaptic Transmission; Vagus Nerve; gamma-Aminobutyric Acid
PubMed: 31393788
DOI: 10.1152/ajpgi.00112.2019 -
Brain Structure & Function Apr 2019While recently completing a study of the effects of stimulating the lateral preoptic area (LPO) and ventral pallidum (VP) on locomotion and other movements, we also...
While recently completing a study of the effects of stimulating the lateral preoptic area (LPO) and ventral pallidum (VP) on locomotion and other movements, we also noticed LPO and VP effects on motivational drive and threat tolerance. Here, we have investigated these latter effects by testing conditioned place preference (CPP), behavior on the elevated plus maze (EPM) and the willingness of sated rats to occupy a harshly lit open field center to acquire sweet pellets, a measure of threat tolerance, following infusions of vehicle or bicuculline (bic) into the LPO and VP. LPO-bic infusions robustly increased total locomotion, and, in direct proportion, occupancy of both the harshly lit field center and open arms of the EPM. LPO bic also generated CPP, but did not increase sweet pellet ingestion. These effects were attenuated by dopamine D1 and D2 receptor antagonists, whether given individually or as a cocktail and systemically or infused bilaterally into the nucleus accumbens. VP-bic infusions did not increase total locomotion, but preferentially increased field center occupancy. VP-bic-infused rats compulsively ingested sweet pellets and did so even under the spotlight, whereas harsh illumination suppressed pellet ingestion in the control groups. VP bic produced CPP and increased open arm occupancy on the EPM. These effects were attenuated by pretreatment with dopamine receptor antagonists given systemically or as bilateral infusions into the VP, except for % distance in the field center (by D1 or D2 antagonists) and pellet ingestion (by D1 antagonist). Thus, boldness generated in association with LPO activation is tightly tied to locomotor activation and, as is locomotion itself, strongly DA dependent, whereas that accompanying stimulation of the VP is independent of locomotor activation and, at least in part, DA signaling. Furthermore, respective emboldened behaviors elicited from neither LPO nor VP could clearly be attributed to goal pursuit. Rather, emboldening of behavior seems more to be a fixed action response not fundamentally different than previously for reported locomotion, pivoting, backing, gnawing, and eating elicited by basal forebrain stimulation.
Topics: Animals; Basal Forebrain; Bicuculline; Conditioning, Operant; Dopamine Agents; Exploratory Behavior; GABA-A Receptor Antagonists; Locomotion; Male; Maze Learning; Preoptic Area; Rats
PubMed: 30680454
DOI: 10.1007/s00429-018-01826-0 -
The Journal of Experimental Biology Oct 2023Fossorial Damaraland mole-rats (Fukomys damarensis) mount a robust hypoxic metabolic response (HMR) but a blunted hypoxic ventilatory response (HVR) to acute hypoxia....
Fossorial Damaraland mole-rats (Fukomys damarensis) mount a robust hypoxic metabolic response (HMR) but a blunted hypoxic ventilatory response (HVR) to acute hypoxia. Although these reflex physiological responses have been described previously, the underlying signalling pathways are entirely unknown. Of particular interest are contributions from γ-aminobutyric acid (GABA), which is the primary inhibitory neurotransmitter in the nervous system of most adult mammals, and adenosine, the accumulation of which increases during hypoxia as a breakdown product of ATP. Therefore, we hypothesized that GABAergic and/or adenosinergic signalling contributes to the blunted HVR and robust HMR in Damaraland mole-rats. To test this hypothesis, we injected adult animals with saline alone (controls), or 100 mg kg-1 aminophylline or 1 mg kg-1 bicuculline, to block adenosine or GABAA receptors, respectively. We then used respirometry, plethysmography and thermal RFID probes to non-invasively measure metabolic, ventilator and thermoregulatory responses, respectively, to acute hypoxia (1 h in 5 or 7% O2) in awake and freely behaving animals. We found that bicuculline had relatively minor effects on metabolism and thermoregulation but sensitized ventilation such that the HVR became manifest at 7% instead of 5% O2 and was greater in magnitude. Aminophylline increased metabolic rate, ventilation and body temperature in normoxia, and augmented the HMR and HVR. Taken together, these findings indicate that adenosinergic and GABAergic signalling play important roles in mediating the robust HMR and blunted HVR in Damaraland mole-rats.
Topics: Animals; Bicuculline; Aminophylline; Adenosine; Mole Rats; Hypoxia; gamma-Aminobutyric Acid
PubMed: 37694288
DOI: 10.1242/jeb.246186 -
Anesthesiology May 1996Glycine and gamma-aminobutyric acid (GABA) are inhibitory neurotransmitters that appear to be important in sensory processing in the spinal dorsal horn. Intrathecal...
BACKGROUND
Glycine and gamma-aminobutyric acid (GABA) are inhibitory neurotransmitters that appear to be important in sensory processing in the spinal dorsal horn. Intrathecal administration of strychnine (strychnine-sensitive glycine receptor antagonist) or bicuculline (GABAA antagonist) was reported to induce allodynia. Although the strychnine-induced allodynia was shown to be mediated through the N-methyl-D-aspartate (NMDA)-type glutamate receptor, it is not clear whether the bicuculline-evoked-allodynia is mediated through the glutamate receptor system or how different the allodynia induced by strychnine and bicuculline are.
METHODS
Male ddY mice weighing 20 +/- 2 g were used in this study. A 27-G stainless-steel needle attached to a microsyringe was inserted between the L5 and L6 vertebrae by a slight modification of the method of Hylden and Wilcox. Drugs in vehicle were injected slowly into the subarachnoid space to conscious mice at 22 +/- 2 degrees C. The volume of the intrathecal injection was 5 microliters. Studies on allodynia were carried out essentially according to the method of Yaksh and Harty.
RESULTS
The intrathecal administration of strychnine or bicuculline in conscious mice resulted in allodynia elicited by nonnoxious brushing of the flanks. The maximum allodynia induced by strychnine was observed 5 min after intrathecal injection, but that induced by bicuculline was observed 10 min after intrathecal injection. Both responses gradually decreased over the experimental period of 50 min. The allodynia induced by strychnine was dose-dependently relieved by NMDA receptor antagonists (D-AP5, ketamine, and 7-C1-KYNA) and non-NMDA receptor antagonists (GAMS and CNQX) but not by metabotropic receptor antagonists (L-AP3 and L-AP4). On the other hand, allodynia induced by bicuculline was dose-dependently relieved by GAMS, L-AP3, and L-AP4, but not by D-AP5, ketamine, 7-C1-KYNA, and CNQX. Whereas the strychnine-evoked allodynia was dose-dependently relieved by the nitric oxide synthase inhibitor N(omega)-nitro-L-arginine methyl ester (L-NAME) and the soluble guanylate cyclase inhibitor methylene blue, the bicuculline-induced one was dose-dependently relieved by methylene blue but not by L-NAME.
CONCLUSIONS
These results demonstrate that both strychnine- and bicuculline-evoked allodynia were mediated through pathways that include the glutamate receptor and nitric oxide systems but in a different manner. the current study suggests that GABA and glycine may modulate responses to an innocuous tactile stimulus as inhibitory neurotransmitters at presynaptic and postsynaptic sites in the spinal cord, respectively.
Topics: Animals; Bicuculline; GABA Antagonists; Glycine Agents; Male; Mice; Nitric Oxide; Pain; Receptors, Glutamate; Receptors, N-Methyl-D-Aspartate; Strychnine
PubMed: 8624016
DOI: 10.1097/00000542-199605000-00024 -
Nature Communications Feb 2023Epilepsy is a disorder in which abnormal neuronal hyperexcitation causes several types of seizures. Because pharmacological and surgical treatments occasionally...
Epilepsy is a disorder in which abnormal neuronal hyperexcitation causes several types of seizures. Because pharmacological and surgical treatments occasionally interfere with normal brain function, a more focused and on-demand approach is desirable. Here we examined the efficacy of a chemogenetic tool-designer receptors exclusively activated by designer drugs (DREADDs)-for treating focal seizure in a nonhuman primate model. Acute infusion of the GABA receptor antagonist bicuculline into the forelimb region of unilateral primary motor cortex caused paroxysmal discharges with twitching and stiffening of the contralateral arm, followed by recurrent cortical discharges with hemi- and whole-body clonic seizures in two male macaque monkeys. Expression of an inhibitory DREADD (hM4Di) throughout the seizure focus, and subsequent on-demand administration of a DREADD-selective agonist, rapidly suppressed the wide-spread seizures. These results demonstrate the efficacy of DREADDs for attenuating cortical seizure in a nonhuman primate model.
Topics: Male; Animals; Seizures; Brain; Bicuculline; Body Fluids; GABA-A Receptor Antagonists; Macaca
PubMed: 36854724
DOI: 10.1038/s41467-023-36642-6 -
Journal of Neurophysiology Aug 2015It is widely appreciated that neuronal networks exhibit patterns of bursting and synchrony that are not captured by simple measures such as average spike rate. These...
It is widely appreciated that neuronal networks exhibit patterns of bursting and synchrony that are not captured by simple measures such as average spike rate. These patterns can encode information or represent pathological behavior such as seizures. However, methods for quantifying bursting and synchrony are not agreed upon and can be confounded with spike rate measures. Previous validation has largely relied on in silico networks and single experimental conditions. How published measures of bursting and synchrony perform when applied to biological networks of varied average spike rate and subjected to varied experimental challenges is unclear. In multielectrode array recordings of network activity, we found that two mechanistically distinct drugs, cyclothiazide and bicuculline, produced equivalent increases in average spike rate but differed in bursting and synchrony. We applied several measures of bursting to the recordings (2 threshold interval methods and a surprise-based method) and found that a measure based on an average critical interval, adjusted for the array-wide spike rate, performed best in quantifying differential drug effects. To quantify synchrony, we compared a coefficient of variation-based measure, the recently proposed spike time tiling coefficient, the SPIKE-distance measure, and a global synchrony index. The spike time tiling coefficient, the SPIKE-distance measure, and the global synchrony index all captured a difference between drugs with the best performance exhibited by the global synchrony index. In summary, our exploration should aid other investigators by highlighting strengths and limitations of current methods.
Topics: Action Potentials; Animals; Benzothiadiazines; Bicuculline; Cells, Cultured; Central Nervous System Agents; GABA-A Receptor Antagonists; Hippocampus; Microelectrodes; Neurons; Periodicity; Rats; Signal Processing, Computer-Assisted; Software
PubMed: 26041823
DOI: 10.1152/jn.00079.2015 -
Journal of Neurophysiology Feb 2020The interplay between inhibition and excitation can regulate behavioral expression and control, including the expression of communicative behaviors like birdsong....
The interplay between inhibition and excitation can regulate behavioral expression and control, including the expression of communicative behaviors like birdsong. Computational models postulate varying degrees to which inhibition within vocal motor circuitry influences birdsong, but few studies have tested these models by manipulating inhibition. Here we enhanced and attenuated inhibition in the cortical nucleus HVC (used as proper name) of Bengalese finches ( var. ). Enhancement of inhibition (with muscimol) in HVC dose-dependently reduced the amount of song produced. Infusions of higher concentrations of muscimol caused some birds to produce spectrally degraded songs, whereas infusions of lower doses of muscimol led to the production of relatively normal (nondegraded) songs. However, the spectral and temporal structures of these nondegraded songs were significantly different from songs produced under control conditions. In particular, muscimol infusions decreased the frequency and amplitude of syllables, increased various measures of acoustic entropy, and increased the variability of syllable structure. Muscimol also increased sequence durations and the variability of syllable timing and syllable sequencing. Attenuation of inhibition (with bicuculline) in HVC led to changes to song distinct from and often opposite to enhancing inhibition. For example, in contrast to muscimol, bicuculline infusions increased syllable amplitude, frequency, and duration and decreased the variability of acoustic features. However, like muscimol, bicuculline increased the variability of syllable sequencing. These data highlight the importance of inhibition to the production of stereotyped vocalizations and demonstrate that changes to neural dynamics within cortical circuitry can differentially affect spectral and temporal features of song. We reveal that manipulations of inhibition in the cortical nucleus HVC affect the structure, timing, and sequencing of syllables in Bengalese finch song. Enhancing and blocking inhibition led to opposite changes to the acoustic structure and timing of vocalizations, but both caused similar changes to vocal sequencing. These data provide support for computational models of song control but also motivate refinement of existing models to account for differential effects on syllable structure, timing, and sequencing.
Topics: Animals; Bicuculline; Cerebral Cortex; Finches; GABA-A Receptor Agonists; GABA-A Receptor Antagonists; Male; Muscimol; Neural Inhibition; Vocalization, Animal
PubMed: 31967928
DOI: 10.1152/jn.00142.2019 -
European Journal of Pharmacology Oct 2013PNU-120596 (1-(5-chloro-2,4-dimethoxyphenyl)-3-(5-methylisoxazol-3-yl)urea), a Type-II positive allosteric modulator of α(7) nicotinic acetylcholine receptors inhibits...
PNU-120596 (1-(5-chloro-2,4-dimethoxyphenyl)-3-(5-methylisoxazol-3-yl)urea), a Type-II positive allosteric modulator of α(7) nicotinic acetylcholine receptors inhibits α(7) desensitization and robustly prolongs openings of α(7) channels. However, these effects may render α(7) channels more accessible to positively charged molecules and thus, more susceptible to voltage-dependent open-channel-block-like inhibition. To test this hypothesis, choline chloride (i.e., choline), a selective endogenous α(7) agonist, and bicuculline methochloride (i.e., bicuculline), a competitive α(7) antagonist, were used as membrane voltage-sensitive probes in whole-cell voltage-clamp recordings from hippocampal CA1 interneurons in acute brain slices in the absence and presence of PNU-120596. PNU-120596 enhanced voltage-dependent inhibition of α(7) responses by bicuculline and choline. In the presence of PNU-120596, α(7) channels favored a burst-like kinetic modality in the presence, but not absence of bicuculline and bursts of α(7) openings were voltage-dependent. These results suggest that PNU-120596 alters the pharmacology of α(7) channels by making these channels more susceptible to voltage-dependent inhibitory interactions with positively charged drugs at concentrations that do not potently inhibit α(7) channels without PNU-120596. This inhibition imitates α(7) nicotinic receptor desensitization and compromises the potentiating anti-desensitization effects of PNU-120596 on α(7) nicotinic receptors. This unexpected dual action of PNU-120596, and possibly other Type-II positive allosteric modulators of α(7) nicotinic receptors, may lead to unanticipated α(7) channel-drug interactions and misinterpretation of α(7) single-channel data.
Topics: Animals; Bicuculline; Choline; Drug Synergism; Female; In Vitro Techniques; Ion Channel Gating; Isoxazoles; Male; Phenylurea Compounds; Rats; Rats, Sprague-Dawley; alpha7 Nicotinic Acetylcholine Receptor
PubMed: 24036349
DOI: 10.1016/j.ejphar.2013.08.027 -
British Journal of Pharmacology Sep 19741 The effects of bicuculline on dorsal and ventral root activity and upon the depressant effect of gamma-aminobutyric acid (GABA) and glycine on ventral root responses...
1 The effects of bicuculline on dorsal and ventral root activity and upon the depressant effect of gamma-aminobutyric acid (GABA) and glycine on ventral root responses have been studied on the isolated spinal cord of the frog.2 In the absence of stimulation, the alkaloid induced a variety of activity of which the most notable was phasic simultaneous slow wave depolarization in the dorsal and ventral roots which could be reduced or suppressed by magnesium.3 With low concentrations of bicuculline, the adjacent dorsal root response evoked by a single stimulus was depressed maximally before an increase in the ventral root response could be discerned.4 The bicuculline-induced dorsal root activity (in the absence of stimulation) was still apparent at times when the evoked dorsal root response was reduced.5 Bicuculline did not differentiate between the depressant effects of GABA and glycine on the evoked ventral root responses.6 The excitant effects of bicuculline reported here did not appear to be attributable to specific antagonism of the postsynaptic depressant action of GABA.
Topics: Amino Acids; Animals; Bicuculline; Depression, Chemical; Electric Stimulation; Evoked Potentials; GABA Antagonists; Glycine; In Vitro Techniques; Isoquinolines; Rana temporaria; Spinal Cord; Spinal Nerve Roots
PubMed: 4155985
DOI: 10.1111/j.1476-5381.1974.tb09684.x