Central histaminergic signalling, neural excitability and epilepsy

Yang, Lin; Wang, Yi; Chen, Zhong

doi:10.1111/bph.15692

Cited by 12 publications

(10 citation statements)

References 148 publications

(229 reference statements)

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“…Accumulating studies have demonstrated that three types of histamine receptors (H 1 R, H 2 R and H 3 R) are found in the LGP of rodents, human and non‐human primate brains (Lozada et al, 2005; Nieto‐Alamilla et al, 2016). Perfusion of GP slices with the selective H 3 R agonist immepip inhibits glutamatergic transmission and reduces the spontaneous firing frequency of rat LGP neurons and ultimately promotes rotational behaviour after the systemic administration of apomorphine in experimental rats (Osorio‐Espinoza et al, 2011; Yang et al, 2022). Moreover, histamine has been reported to activate GP neurons through H 2 R and its associated intracellular G S protein–AC–PKA signalling pathway in brain slices in vitro (Chen et al, 2005; Haas & Panula, 2003).…”

Section: Discussionmentioning

confidence: 99%

“…Although the central histaminergic nervous system originates from the tuberomammillary nucleus (TMN) of the hypothalamus, its fibres extensively project to most regions in the brain, including the basal ganglia (Panula & Nuutinen, 2013; Yang et al, 2022; Zhuang, Li, et al, 2018). Past studies have reported that histamine plays an important role in sleep–wake regulation, learning and memory, food intake, body fluid balance and temperature regulation (Haas et al, 2008; Panula et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

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Histamine bidirectionally regulates the intrinsic excitability of parvalbumin‐positive neurons in the lateral globus pallidus and promotes motor behaviour

Shen

Peng

et al. 2023

British J Pharmacology

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Background and Purpose Parvalbumin (PV)‐positive neurons are a type of neuron in the lateral globus pallidus (LGP) which plays an important role in motor control. The present study investigated the effect of histamine on LGPPV neurons and motor behaviour. Experimental Approach Histamine levels in LGP as well as its histaminergic innervation were determined through brain stimulation, microdialysis, anterograde tracing and immunostaining. Mechanisms of histamine action were detected by immunostaining, single‐cell qPCR, whole‐cell patch‐clamp recording, optogenetic stimulation and CRISPR/Cas9 gene‐editing techniques. The effect of histamine on motor behaviour was detected by animal behavioural tests. Key Results A direct histaminergic innervation in LGP from the tuberomammillary nucleus (TMN) and a histamine‐induced increase in the intrinsic excitability of LGPPV neurons were determined by pharmacological blockade or by genetic knockout of the histamine H1 receptor (H1R)‐coupled TWIK‐related potassium channel‐1 (TREK‐1) and the small‐conductance calcium‐activated potassium channel (SK3), as well as by activation or overexpression of the histamine H2 receptor (H2R)‐coupled hyperpolarization‐activated cyclic nucleotide‐gated channel (HCN2). Histamine negatively regulated the STN → LGPGlu transmission in LGPPV neurons via the histamine H3 receptor (H3R), whereas blockage or knockout of H3R increased the intrinsic excitability of LGPPV neurons. Conclusions and Implications Our results indicated that the endogenous histaminergic innervation in the LGP can bidirectionally promote motor control by increasing the intrinsic excitability of LGPPV neurons through postsynaptic H1R and H2R, albeit its action was negatively regulated by the presynaptic H3R, thereby suggesting possible role of histamine in motor deficits manifested in Parkinson's disease (PD).

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Histamine bidirectionally regulates the intrinsic excitability of parvalbumin‐positive neurons in the lateral globus pallidus and promotes motor behaviour

Shen

Peng

et al. 2023

British J Pharmacology

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“…However, the pathophysiological mechanisms by which antihistamines induce seizures are not fully understood. An experimental study found that H1-receptor knockout mice experienced longer and more seizures than wild-type mice 7 . In addition, the administration of H1-receptor antagonists increased seizure severity and neuronal damage in the septum, thalamus, hippocampus, and retrosplenial granular cortex of kainic acid-treated wild-type mice 7 .…”

Section: Discussionmentioning

confidence: 99%

“…An experimental study found that H1-receptor knockout mice experienced longer and more seizures than wild-type mice 7 . In addition, the administration of H1-receptor antagonists increased seizure severity and neuronal damage in the septum, thalamus, hippocampus, and retrosplenial granular cortex of kainic acid-treated wild-type mice 7 . These findings contribute to the knowledge that the central histaminergic neuronal system is a powerful modulator of brain activity, and that its functional disturbance is related to seizure disorders 31 .…”

Section: Discussionmentioning

confidence: 99%

“…Several lines of evidence suggest that antihistamines can induce neuronal excitability in the ventral tegmental area, substantia nigra, and ventromedial hypothalamus by acting on histamine receptors and enhance hippocampal CA1 synaptic excitation, leading to increase in seizure susceptibility and severity 7 – 9 . Considering that antihistamines tend to induce seizures by increasing electrical activity in specific brain regions and by enhancing the synaptic transmission of neuronal excitability 7 , 9 , quantitative electroencephalography (EEG) analyses of both neuronal activities in each brain region and large-scale network properties for the transmission of excitability may be optimal approaches for quantitatively evaluating seizure susceptibility after antihistamine use and for the diagnosis of AIS.…”

Section: Introductionmentioning

confidence: 99%

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Inherent seizure susceptibility in patients with antihistamine-induced acute symptomatic seizure: a resting-state EEG analysis

Kim

Wang

Park

et al. 2023

Sci Rep

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We compared neural activities and network properties between the antihistamine-induced seizures (AIS) and seizure-free groups, with the hypothesis that patients with AIS might have inherently increased neural activities and network properties that are easily synchronized. Resting-state electroencephalography (EEG) data were collected from 27 AIS patients and 30 healthy adults who had never had a seizure. Power spectral density analysis was used to compare neural activities in each localized region. Functional connectivity (FC) was measured using coherence, and graph theoretical analyses were performed to compare network properties between the groups. Machine learning algorithms were applied using measurements found to be different between the groups in the EEG analyses as input features. Compared with the seizure-free group, the AIS group showed a higher spectral power in the entire regions of the delta, theta, and beta bands, as well as in the frontal areas of the alpha band. The AIS group had a higher overall FC strength, as well as a shorter characteristic path length in the theta band and higher global efficiency, local efficiency, and clustering coefficient in the beta band than the seizure-free group. The Support Vector Machine, k-Nearest Neighbor, and Random Forest models distinguished the AIS group from the seizure-free group with a high accuracy of more than 99%. The AIS group had seizure susceptibility considering both regional neural activities and functional network properties. Our findings provide insights into the underlying pathophysiological mechanisms of AIS and may be useful for the differential diagnosis of new-onset seizures in the clinical setting.

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First-Generation Antihistamines and Seizures in Young Children

Kim,

Ha,

Han

et al. 2024

JAMA Netw Open

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ImportanceThe widespread use of antihistamines in children for treatment of common cold symptoms and their central nervous system effects, like drowsiness, underscore the importance of being aware of the associated risks.ObjectiveTo assess associations between prescriptions of first-generation antihistamines and seizures in children using a comprehensive and nationwide dataset.Design, Setting, and ParticipantsThis cohort study used a self-controlled case-crossover design. Data were obtained from the National Health Insurance Service database in Korea. Children born between January 1, 2002, and December 31, 2005, who visited the emergency department for seizure events (International Statistical Classification of Diseases and Related Health Problems, Tenth Revision, codes R56.8, G40, and G41) during the follow-up period were included. Follow-up was completed on December 31, 2019, and data were analyzed from June 3, 2023, to January 30, 2024.ExposureFirst-generation antihistamine prescription.Main Outcomes and MeasuresPrimary outcome consisted of an index seizure event. Odds ratios (ORs) for seizure events were estimated using a conditional logistic regression model, comparing first-generation antihistamine prescription 1 to 15 days before seizure (hazard period) against control period 1 (31-45 days before the event) and control period 2 (61-75 days before the event) using the same period windows. Stratified analyses were conducted to examine the association with individual participant characteristics.ResultsOf 11 729 children who had a seizure event, 3178 (1776 [55.9%] boys) were identified as having been prescribed antihistamines during the hazard or the control period, but not both. Seizure events were predominantly observed in children aged 6 to 24 months (985 [31.0%]) and 25 months to 6 years (1445 [45.5%]). During the hazard period, 1476 first-generation antihistamine prescriptions were recorded, in contrast to 1239 and 1278 prescriptions during control periods 1 and 2, respectively. After multiple confounder adjustments, first-generation antihistamine prescription was associated with an increased seizure event risk during the hazard period (adjusted OR [AOR], 1.22 [95% CI, 1.13-1.31]). Stratified subgroup analyses showed consistent results, particularly in children aged 6 to 24 months who were prescribed first-generation antihistamines having a higher risk (AOR, 1.49 [95% CI, 1.31-1.70]) than children aged 25 months to 6 years (AOR, 1.11 [95% CI, 1.00-1.24]; P = .04 for interaction). Furthermore, sensitivity analyses, including adjustment for exposure window periods, evaluation of new first-generation antihistamine prescriptions, comparison of control points from the same period 1 year prior, and exclusion of individuals using combination drugs, confirmed a similarly high risk.Conclusions and RelevanceIn this cohort study, prescriptions for first-generation antihistamines were associated with a 22.0% higher seizure risk in children, especially in those aged 6 to 24 months. These findings emphasize the need for careful and judicious prescription of first-generation antihistamines in young children and underline the need for further research to elucidate associations between antihistamine prescriptions and seizure risk.

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Central histaminergic signalling, neural excitability and epilepsy

Cited by 12 publications

References 148 publications

Histamine bidirectionally regulates the intrinsic excitability of parvalbumin‐positive neurons in the lateral globus pallidus and promotes motor behaviour

Histamine bidirectionally regulates the intrinsic excitability of parvalbumin‐positive neurons in the lateral globus pallidus and promotes motor behaviour

Inherent seizure susceptibility in patients with antihistamine-induced acute symptomatic seizure: a resting-state EEG analysis

First-Generation Antihistamines and Seizures in Young Children

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