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1.
Cell ; 186(20): 4438-4453.e23, 2023 09 28.
Artículo en Inglés | MEDLINE | ID: mdl-37774681

RESUMEN

Cellular perturbations underlying Alzheimer's disease (AD) are primarily studied in human postmortem samples and model organisms. Here, we generated a single-nucleus atlas from a rare cohort of cortical biopsies from living individuals with varying degrees of AD pathology. We next performed a systematic cross-disease and cross-species integrative analysis to identify a set of cell states that are specific to early AD pathology. These changes-which we refer to as the early cortical amyloid response-were prominent in neurons, wherein we identified a transitional hyperactive state preceding the loss of excitatory neurons, which we confirmed by acute slice physiology on independent biopsy specimens. Microglia overexpressing neuroinflammatory-related processes also expanded as AD pathology increased. Finally, both oligodendrocytes and pyramidal neurons upregulated genes associated with ß-amyloid production and processing during this early hyperactive phase. Our integrative analysis provides an organizing framework for targeting circuit dysfunction, neuroinflammation, and amyloid production early in AD pathogenesis.


Asunto(s)
Enfermedad de Alzheimer , Lóbulo Frontal , Microglía , Neuronas , Humanos , Enfermedad de Alzheimer/metabolismo , Enfermedad de Alzheimer/patología , Amiloide , Péptidos beta-Amiloides/metabolismo , Microglía/patología , Neuronas/patología , Células Piramidales , Biopsia , Lóbulo Frontal/patología , Análisis de Expresión Génica de una Sola Célula , Núcleo Celular/metabolismo , Núcleo Celular/patología
2.
Front Synaptic Neurosci ; 13: 635050, 2021.
Artículo en Inglés | MEDLINE | ID: mdl-33716704

RESUMEN

Dopaminergic (DA) midbrain neurons within the substantia nigra (SN) display an autonomous pacemaker activity that is crucial for dopamine release and voluntary movement control. Their progressive degeneration is a hallmark of Parkinson's disease. Their metabolically demanding activity-mode affects Ca2+ homeostasis, elevates metabolic stress, and renders SN DA neurons particularly vulnerable to degenerative stressors. Accordingly, their activity is regulated by complex mechanisms, notably by dopamine itself, via inhibitory D2-autoreceptors and the neuroprotective neuronal Ca2+ sensor NCS-1. Analyzing regulation of SN DA neuron activity-pattern is complicated by their high vulnerability. We studied this activity and its control by dopamine, NCS-1, and glucose with extracellular multi-electrode array (MEA) recordings from midbrain slices of juvenile and adult mice. Our tailored MEA- and spike sorting-protocols allowed high throughput and long recording times. According to individual dopamine-responses, we identified two distinct SN cell-types, in similar frequency: dopamine-inhibited and dopamine-excited neurons. Dopamine-excited neurons were either silent in the absence of dopamine, or they displayed pacemaker-activities, similar to that of dopamine-inhibited neurons. Inhibition of pacemaker-activity by dopamine is typical for SN DA neurons, and it can undergo prominent desensitization. We show for adult mice, that the number of SN DA neurons with desensitized dopamine-inhibition was increased (~60-100%) by a knockout of NCS-1, or by prevention of NCS-1 binding to D2-autoreceptors, while time-course and degrees of desensitization were not altered. The number of neurons with desensitized D2-responses was also higher (~65%) at high glucose-levels (25 mM), compared to lower glucose (2.5 mM), while again desensitization-kinetics were unaltered. However, spontaneous firing-rates were significantly higher at high glucose-levels (~20%). Moreover, transient glucose-deprivation (1 mM) induced a fast and fully-reversible pacemaker frequency reduction. To directly address and quantify glucose-sensing properties of SN DA neurons, we continuously monitored their electrical activity, while altering extracellular glucose concentrations stepwise from 0.5 mM up to 25 mM. SN DA neurons were excited by glucose, with EC50 values ranging from 0.35 to 2.3 mM. In conclusion, we identified a novel, common subtype of dopamine-excited SN neurons, and a complex, joint regulation of dopamine-inhibited neurons by dopamine and glucose, within the range of physiological brain glucose-levels.

3.
Cells ; 11(1)2021 12 29.
Artículo en Inglés | MEDLINE | ID: mdl-35011667

RESUMEN

Human pluripotent stem cell (hPSC)-derived neuron cultures have emerged as models of electrical activity in the human brain. Microelectrode arrays (MEAs) measure changes in the extracellular electric potential of cell cultures or tissues and enable the recording of neuronal network activity. MEAs have been applied to both human subjects and hPSC-derived brain models. Here, we review the literature on the functional characterization of hPSC-derived two- and three-dimensional brain models with MEAs and examine their network function in physiological and pathological contexts. We also summarize MEA results from the human brain and compare them to the literature on MEA recordings of hPSC-derived brain models. MEA recordings have shown network activity in two-dimensional hPSC-derived brain models that is comparable to the human brain and revealed pathology-associated changes in disease models. Three-dimensional hPSC-derived models such as brain organoids possess a more relevant microenvironment, tissue architecture and potential for modeling the network activity with more complexity than two-dimensional models. hPSC-derived brain models recapitulate many aspects of network function in the human brain and provide valid disease models, but certain advancements in differentiation methods, bioengineering and available MEA technology are needed for these approaches to reach their full potential.


Asunto(s)
Encéfalo/fisiología , Modelos Biológicos , Células Madre Pluripotentes/metabolismo , Humanos , Microelectrodos , Neuronas/fisiología , Organoides/fisiología
4.
Cells ; 11(1)2021 12 30.
Artículo en Inglés | MEDLINE | ID: mdl-35011686

RESUMEN

Human cerebral organoids, derived from induced pluripotent stem cells, offer a unique in vitro research window to the development of the cerebral cortex. However, a key player in the developing brain, the microglia, do not natively emerge in cerebral organoids. Here we show that erythromyeloid progenitors (EMPs), differentiated from induced pluripotent stem cells, migrate to cerebral organoids, and mature into microglia-like cells and interact with synaptic material. Patch-clamp electrophysiological recordings show that the microglia-like population supported the emergence of more mature and diversified neuronal phenotypes displaying repetitive firing of action potentials, low-threshold spikes and synaptic activity, while multielectrode array recordings revealed spontaneous bursting activity and increased power of gamma-band oscillations upon pharmacological challenge with NMDA. To conclude, microglia-like cells within the organoids promote neuronal and network maturation and recapitulate some aspects of microglia-neuron co-development in vivo, indicating that cerebral organoids could be a useful biorealistic human in vitro platform for studying microglia-neuron interactions.


Asunto(s)
Células Madre Pluripotentes Inducidas/metabolismo , Microglía/metabolismo , Neurogénesis/genética , Neuronas/metabolismo , Organoides/metabolismo , Adolescente , Adulto , Anciano , Diferenciación Celular , Femenino , Humanos , Masculino , Persona de Mediana Edad , Adulto Joven
5.
J Neurosci ; 37(28): 6761-6777, 2017 07 12.
Artículo en Inglés | MEDLINE | ID: mdl-28592699

RESUMEN

Ca2+-influx through L-type Ca2+-channels (LTCCs) is associated with activity-related stressful oscillations of Ca2+ levels within dopaminergic (DA) neurons in the substantia nigra (SN), which may contribute to their selective degeneration in Parkinson's disease (PD). LTCC blockers were neuroprotective in mouse neurotoxin models of PD, and isradipine is currently undergoing testing in a phase III clinical trial in early PD. We report no evidence for neuroprotection by in vivo pretreatment with therapeutically relevant isradipine plasma levels, or Cav1.3 LTCC deficiency in 6-OHDA-treated male mice. To explain this finding, we investigated the pharmacological properties of human LTCCs during SN DA-like and arterial smooth muscle (aSM)-like activity patterns using whole-cell patch-clamp recordings in HEK293 cells (Cav1.2 α1-subunit, long and short Cav1.3 α1-subunit splice variants; ß3/α2δ1). During SN DA-like pacemaking, only Cav1.3 variants conducted Ca2+ current (ICa) at subthreshold potentials between action potentials. SN DA-like burst activity increased integrated ICa during (Cav1.2 plus Cav1.3) and after (Cav1.3) the burst. Isradipine inhibition was splice variant and isoform dependent, with a 5- to 11-fold lower sensitivity to Cav1.3 variants during SN DA-like pacemaking compared with Cav1.2 during aSM-like activity. Supratherapeutic isradipine concentrations reduced the pacemaker precision of adult mouse SN DA neurons but did not affect their somatic Ca2+ oscillations. Our data predict that Cav1.2 and Cav1.3 splice variants contribute differentially to Ca2+ load in SN DA neurons, with prominent Cav1.3-mediated ICa between action potentials and after bursts. The failure of therapeutically relevant isradipine levels to protect SN DA neurons can be explained by weaker state-dependent inhibition of SN DA LTCCs compared with aSM Cav1.2.SIGNIFICANCE STATEMENT The high vulnerability of dopamine (DA) neurons in the substantia nigra (SN) to neurodegenerative stressors causes Parkinson's disease (PD). Ca2+ influx through voltage-gated L-type Ca2+ channels (LTCCs), in particular Cav1.3, appears to contribute to this vulnerability, and the LTCC inhibitor isradipine is currently being tested as a neuroprotective agent for PD in a phase III clinical trial. However, in our study isradipine plasma concentrations approved for therapy were not neuroprotective in a PD mouse model. We provide an explanation for this observation by demonstrating that during SN DA-like neuronal activity LTCCs are less sensitive to isradipine than Cav1.2 LTCCs in resistance blood vessels (mediating dose-limiting vasodilating effects) and even at supratherapeutic concentrations isradipine fails to reduce somatic Ca2+ oscillations of SN DA neurons.


Asunto(s)
Canales de Calcio Tipo L/metabolismo , Señalización del Calcio/fisiología , Dopamina/metabolismo , Neuronas Dopaminérgicas/fisiología , Isradipino/metabolismo , Sustancia Negra/fisiología , Animales , Bloqueadores de los Canales de Calcio/farmacología , Señalización del Calcio/efectos de los fármacos , Neuronas Dopaminérgicas/efectos de los fármacos , Activación del Canal Iónico/efectos de los fármacos , Activación del Canal Iónico/fisiología , Isradipino/farmacología , Masculino , Ratones , Ratones Endogámicos C57BL , Fármacos Neuroprotectores/farmacología , Enfermedad de Parkinson/tratamiento farmacológico , Enfermedad de Parkinson/fisiopatología , Sustancia Negra/efectos de los fármacos
6.
J Comput Neurosci ; 42(3): 275-305, 2017 Jun.
Artículo en Inglés | MEDLINE | ID: mdl-28367595

RESUMEN

Dopamine (DA) neurons of the ventrolateral periaqueductal gray (vlPAG) and dorsal raphe nucleus (DRN) fire spontaneous action potentials (APs) at slow, regular patterns in vitro but a detailed account of their intrinsic membrane properties responsible for spontaneous firing is currently lacking. To resolve this, we performed a voltage-clamp electrophysiological study in brain slices to describe their major ionic currents and then constructed a computer model and used simulations to understand the mechanisms behind autorhythmicity in silico. We found that vlPAG/DRN DA neurons exhibit a number of voltage-dependent currents activating in the subthreshold range including, a hyperpolarization-activated cation current (IH), a transient, A-type, potassium current (IA), a background, 'persistent' (INaP) sodium current and a transient, low voltage activated (LVA) calcium current (ICaLVA). Brain slice pharmacology, in good agreement with computer simulations, showed that spontaneous firing occurred independently of IH, IA or calcium currents. In contrast, when blocking sodium currents, spontaneous firing ceased and a stable, non-oscillating membrane potential below AP threshold was attained. Using the DA neuron model we further show that calcium currents exhibit little activation (compared to sodium) during the interspike interval (ISI) repolarization while, any individual potassium current alone, whose blockade positively modulated AP firing frequency, is not required for spontaneous firing. Instead, blockade of a number of potassium currents simultaneously is necessary to eliminate autorhythmicity. Repolarization during ISI is mediated initially via the deactivation of the delayed rectifier potassium current, while a sodium background 'persistent' current is essentially indispensable for autorhythmicity by driving repolarization towards AP threshold.


Asunto(s)
Neuronas Dopaminérgicas , Núcleo Dorsal del Rafe/fisiología , Modelos Neurológicos , Sustancia Gris Periacueductal/fisiología , Potenciales de Acción , Calcio , Humanos , Técnicas In Vitro , Potenciales de la Membrana , Neuronas , Técnicas de Placa-Clamp
7.
Sci Rep ; 5: 13688, 2015 Sep 18.
Artículo en Inglés | MEDLINE | ID: mdl-26381090

RESUMEN

The preferential degeneration of Substantia nigra dopamine midbrain neurons (SN DA) causes the motor-symptoms of Parkinson's disease (PD). Voltage-gated L-type calcium channels (LTCCs), especially the Cav1.3-subtype, generate an activity-related oscillatory Ca(2+) burden in SN DA neurons, contributing to their degeneration and PD. While LTCC-blockers are already in clinical trials as PD-therapy, age-dependent functional roles of Cav1.3 LTCCs in SN DA neurons remain unclear. Thus, we analysed juvenile and adult Cav1.3-deficient mice with electrophysiological and molecular techniques. To unmask compensatory effects, we compared Cav1.3 KO mice with pharmacological LTCC-inhibition. LTCC-function was not necessary for SN DA pacemaker-activity at either age, but rather contributed to their pacemaker-precision. Moreover, juvenile Cav1.3 KO but not WT mice displayed adult wildtype-like, sensitised inhibitory dopamine-D2-autoreceptor (D2-AR) responses that depended upon both, interaction of the neuronal calcium sensor NCS-1 with D2-ARs, and on voltage-gated T-type calcium channel (TTCC) activity. This functional KO-phenotype was accompanied by cell-specific up-regulation of NCS-1 and Cav3.1-TTCC mRNA. Furthermore, in wildtype we identified an age-dependent switch of TTCC-function from contributing to SN DA pacemaker-precision in juveniles to pacemaker-frequency in adults. This novel interplay of Cav1.3 L-type and Cav3.1 T-type channels, and their modulation of SN DA activity-pattern and D2-AR-sensitisation, provide new insights into flexible age- and calcium-dependent activity-control of SN DA neurons and its pharmacological modulation.


Asunto(s)
Autorreceptores/metabolismo , Canales de Calcio Tipo L/deficiencia , Canales de Calcio Tipo T/genética , Canales de Calcio Tipo T/metabolismo , Neuronas Dopaminérgicas/metabolismo , Receptores de Dopamina D2/metabolismo , Sustancia Negra/metabolismo , Factores de Edad , Animales , Calcio/metabolismo , Bloqueadores de los Canales de Calcio/farmacología , Neuronas Dopaminérgicas/efectos de los fármacos , Regulación de la Expresión Génica , Masculino , Potenciales de la Membrana , Ratones , Ratones Noqueados , Proteínas Sensoras del Calcio Neuronal/genética , Proteínas Sensoras del Calcio Neuronal/metabolismo , Neuropéptidos/genética , Neuropéptidos/metabolismo , Enfermedad de Parkinson/genética , Enfermedad de Parkinson/metabolismo , Fenotipo , ARN Mensajero/genética , ARN Mensajero/metabolismo
8.
Eur J Neurosci ; 36(10): 3322-3332, 2012 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-22925150

RESUMEN

The dorsal raphe nucleus (DRN) and ventrolateral periaqueductal grey (vlPAG) regions contain populations of dopamine neurons, often considered to be a dorsal caudal extension of the A10 group [mostly found in the ventral tegmental area (VTA)]. Recent studies suggest they are involved in promoting wakefulness and mediate some of the antinociceptive and rewarding properties of opiates. However, little is known about their electrophysiological properties. To address this, we used Pitx3-GFP and tyrosine hydroxylase (TH)-GFP mice to carry out targeted whole-cell recordings from this population in acute brain slices. We found that DRN/vlPAG dopamine neurons have characteristics similar to most VTA dopamine neurons, but distinct from dorsal raphe serotonin neurons. They fire broad action potentials at a relatively slow, regular rate, exhibit a hyperpolarization-activated inward current and delayed repolarization, and show spike-frequency adaptation in response to prolonged depolarization. In addition, they receive fast excitatory and inhibitory synaptic inputs. Moreover, we found co-expression of vasoactive intestinal polypeptide in small, periaqueductal dopamine neurons, but generally not in larger, more ventral dopamine neurons.


Asunto(s)
Neuronas Dopaminérgicas/fisiología , Sustancia Gris Periacueductal/fisiología , Núcleos del Rafe/fisiología , Potenciales de Acción , Animales , Expresión Génica , Proteínas Fluorescentes Verdes , Proteínas de Homeodominio/metabolismo , Ratones , Ratones Endogámicos C57BL , Neuronas Serotoninérgicas/fisiología , Potenciales Sinápticos , Factores de Transcripción/metabolismo , Tirosina 3-Monooxigenasa/metabolismo , Péptido Intestinal Vasoactivo/genética , Péptido Intestinal Vasoactivo/metabolismo
9.
Nat Commun ; 3: 841, 2012 May 15.
Artículo en Inglés | MEDLINE | ID: mdl-22588303

RESUMEN

Understanding the mechanisms underlying neural progenitor differentiation and neuronal fate specification is critical for the use of embryonic stem cells (ESCs) for regenerative medicine. Cortical interneurons are of particular interest for cell transplantation; however, only a limited subset of these neurons can be generated from ESCs. Here we uncover a pivotal role for Activin in regulating the differentiation and identity of telencephalic neural precursors derived from mouse and human ESCs. We show that Activin directly inhibits the mitogenic sonic hedgehog pathway in a Gli3-dependent manner while enhancing retinoic acid signalling, the pro-neurogenic pathway. In addition, we demonstrate that Activin provides telencephalic neural precursors with positional cues that specifically promote the acquisition of a calretinin interneuron fate by controlling the expression of genes that regulate cortical interneuron identity. This work demonstrates a novel means for regulating neuronal differentiation and specification of subtype identity.


Asunto(s)
Activinas/metabolismo , Diferenciación Celular , Células Madre Embrionarias/citología , Interneuronas/citología , Células-Madre Neurales/citología , Corteza Somatosensorial/citología , Telencéfalo/citología , Animales , Línea Celular , Células Cultivadas , Células Madre Embrionarias/metabolismo , Humanos , Interneuronas/metabolismo , Ratones , Células-Madre Neurales/metabolismo , Neurogénesis , Transducción de Señal , Corteza Somatosensorial/metabolismo , Telencéfalo/metabolismo
10.
J Neurophysiol ; 104(6): 3009-20, 2010 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-20926611

RESUMEN

The electrophysiological properties of substantia nigra pars compacta (SNC) dopamine neurons can influence their susceptibility to degeneration in toxin-based models of Parkinson's disease (PD), suggesting that excitotoxic and/or hypoactive mechanisms may be engaged during the early stages of the disease. It is unclear, however, whether the electrophysiological properties of SNC dopamine neurons are affected by genetic susceptibility to PD. Here we show that deletion of PD-associated genes, PINK1 or HtrA2/Omi, leads to a functional reduction in the activity of small-conductance Ca(2+)-activated potassium channels. This reduction causes SNC dopamine neurons to fire action potentials in an irregular pattern and enhances burst firing in brain slices and in vivo. In contrast, PINK1 deletion does not affect firing regularity in ventral tegmental area dopamine neurons or substantia nigra pars reticulata GABAergic neurons. These findings suggest that changes in SNC dopamine neuron excitability may play a role in their selective vulnerability in PD.


Asunto(s)
Proteínas Mitocondriales/deficiencia , Neuronas/fisiología , Proteínas Quinasas/deficiencia , Serina Endopeptidasas/deficiencia , Sustancia Negra/patología , Potenciales de Acción/efectos de los fármacos , Animales , Señalización del Calcio/efectos de los fármacos , Señalización del Calcio/fisiología , Dopamina/fisiología , Serina Peptidasa A2 que Requiere Temperaturas Altas , Ratones , Ratones Endogámicos C57BL , Ratones Noqueados , Ratones Mutantes Neurológicos , Microscopía de Interferencia , Microscopía por Video , Proteínas Mitocondriales/genética , Neuronas/efectos de los fármacos , Técnicas de Placa-Clamp , Canales de Potasio Calcio-Activados/efectos de los fármacos , Canales de Potasio Calcio-Activados/fisiología , Proteínas Quinasas/genética , Serina Endopeptidasas/genética , Sustancia Negra/fisiopatología , Área Tegmental Ventral/fisiopatología
11.
Neuropharmacology ; 46(4): 541-54, 2004 Mar.
Artículo en Inglés | MEDLINE | ID: mdl-14975678

RESUMEN

cis-Oleamide (cOA) is a putative endocannabinoid, which modulates GABA(A) receptors, Na+ channels and gap-junctions (important targets for clinical and experimental anticonvulsants). Here we address the hypothesis that cOA possesses seizure limiting properties and might represent an endogenous anticonvulsant. Field potentials were recorded from the rat hippocampus and visual cortex. The effects of cOA, were compared to carbamazepine (CBZ), pentobarbital (PB) and carbenoxolone (CRX) on 4-Aminopyridine(4AP)-induced epileptiform discharges. CBZ (100 microM), PB (50 microM) and CRX (100 microM), but not cOA (64 microM), significantly attenuated the duration of the evoked epileptiform discharges in CA1. Interictal activity in CA3 was significantly depressed by CRX and cOA (irreversible by AM251), increased by CBZ and remained unaffected by PB. CBZ, PB and CRX abolished spontaneous ictal events and attenuated evoked ictal discharges in the visual cortex. cOA did not abolish spontaneous ictal events, but significantly (albeit weakly) reduced the duration of evoked ictal events. cOA and CRX, in contrast to CBZ or PB, caused a significant delay in the development of the evoked (tonic phase) epileptiform discharges. The weak effects of cOA seem independent of cannabinoid (CB1) receptors. Enzymatic cleavage and lack of specific antagonists for cOA confound simple interpretations of its actions in slices. Its high lipophilicity, imposing a permeability barrier, may also explain the lack of anticonvulsant activity. The effects of cOA may well be masked by release of the endogenous ligand upon ictal depolarisation as we demonstrate here for established endocannabinoids. cOA does not possess profound antiepileptic actions in our hands compared to CBZ, PB or CRX.


Asunto(s)
4-Aminopiridina/farmacología , Potenciales de Acción/efectos de los fármacos , Anticonvulsivantes/farmacología , Encéfalo/efectos de los fármacos , Ácidos Oléicos/farmacología , Potenciales de Acción/fisiología , Animales , Encéfalo/fisiología , Moduladores de Receptores de Cannabinoides/farmacología , Masculino , Técnicas de Cultivo de Órganos , Ratas , Ratas Sprague-Dawley , Sueño/efectos de los fármacos , Sueño/fisiología
12.
Brain Res ; 997(1): 1-14, 2004 Jan 30.
Artículo en Inglés | MEDLINE | ID: mdl-14715144

RESUMEN

Cannabinoids have been shown to impair cognition in vivo and block long-term potentiation (LTP), a candidate experimental model of learning and memory in vitro, via cannabinoid receptor (CB1) activation. cis-Oleamide (cOA) is an endogenous sleep-inducing lipid with putative cannabinomimetic properties. We hypothesise that cOA is cannabinomimetic and perform a comparative study with synthetic and endogenous cannabinoids on their effects on synaptic conditioning via two different patterns of stimulation in the hippocampal slice. CB1 agonists, R(+)-WIN55212-2 and anandamide, but not cOA blocked high frequency stimulation (HFS)-LTP. R(+)-WIN55212-2 and cOA (stereoselectively) attenuated responses to theta-burst-LTP, while anandamide did not. The anandamide transport inhibitor, AM404, attenuated HFS-LTP, an effect reversed by the CB1 receptor antagonist SR141716A but not mimicked by the vanilloid receptor agonist capsaicin. TFNO, an inhibitor of fatty acid amide hydrolase (FAAH), the enzyme responsible for degrading anandamide, failed to block HFS-LTP alone or in combination with cOA. On the contrary, this combination was as effective as cOA on its own in attenuating theta-burst-LTP. cOA effects on theta-burst-LTP were prevented in the presence of the GABA(A) receptor blocker picrotoxin, but not by pretreatment with SR141716A. These findings suggest that cOA neither directly activates CB1 receptors nor acts via the proposed "entourage" effect [Nature 389 (1997) 25] to increase titres of anandamide through FAAH inhibition. The selective effects of cOA on theta-burst-conditioning may reflect modulation of GABAergic transmission. Anandamide uptake inhibition, but not blockade of FAAH, effectively increases synaptic concentrations of endocannabinoids.


Asunto(s)
Cannabinoides/farmacología , Hipocampo/citología , Hipnóticos y Sedantes/farmacología , Potenciación a Largo Plazo/efectos de los fármacos , Neuronas/efectos de los fármacos , Ácidos Oléicos/farmacología , Amidohidrolasas/antagonistas & inhibidores , Análisis de Varianza , Animales , Animales Recién Nacidos , Ácidos Araquidónicos/farmacología , Benzoxazinas , Cannabinoides/antagonistas & inhibidores , Capsaicina/farmacología , Interacciones Farmacológicas , Estimulación Eléctrica , Electrofisiología/métodos , Endocannabinoides , Potenciales Postsinápticos Excitadores/efectos de los fármacos , Técnicas In Vitro , Potenciación a Largo Plazo/efectos de la radiación , Masculino , Morfolinas/farmacología , Naftalenos/farmacología , Neuronas/fisiología , Neuronas/efectos de la radiación , Piperidinas/farmacología , Alcamidas Poliinsaturadas , Pirazoles/farmacología , Ratas , Rimonabant , Sueño/efectos de los fármacos
13.
Neuropharmacology ; 46(1): 63-73, 2004 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-14654098

RESUMEN

cis-Oleamide (cOA) is a novel sleep inducing brain lipid with an unknown mechanism of action. High affinity interactions with metabotropic 5-HT receptors (2A/C and 1A subtypes) in frog oocytes and expression systems have been reported, but functional in vitro evidence for the modulatory effect is still lacking. Here, we addressed the ability of cOA to modulate 5-HT-induced cellular actions in the CA1 neurons of the rat hippocampal slice.5-HT (0.1-100 microM) concentration dependently reduced the amplitude of the evoked field population spike (fPS), and produced a hyperpolarising shift in the resting membrane potential (Vr) and a drop in input resistance (R in). The effects of a low dose of 5-HT (3.2 microM) on fPS, Vr and R in were reversed by the specific 5-HT(1A)-receptor antagonist WAY 100135 (10 microM). cOA (1 microM) failed to potentiate 5-HT1A receptor mediated effects on fPS, Vr or R in. High doses of 5-HT also recruited both 5-HT2 and 5-HT3 receptors, causing an increase in the rate and amplitude of sIPSCs. cOA (1 microM), in the presence of Y 25130, failed to potentiate the 5-HT2 receptor induced enhancement of sIPSCs. In summary, cis-oleamide failed to modulate metabotropic responses to exogenous 5-HT in this microelectrode study at concentrations well in excess of those reported to modulate 5-HT1A and 5-HT2A/C systems in earlier studies.


Asunto(s)
Hipocampo/citología , Ácidos Oléicos/metabolismo , Células Piramidales/metabolismo , Serotonina/metabolismo , Sueño/fisiología , Animales , Animales Recién Nacidos , Relación Dosis-Respuesta a Droga , Interacciones Farmacológicas , Estimulación Eléctrica , Potenciales Evocados/efectos de los fármacos , Potenciales Evocados/efectos de la radiación , Técnicas In Vitro , Masculino , Potenciales de la Membrana/efectos de los fármacos , Ácidos Oléicos/farmacología , Técnicas de Placa-Clamp/métodos , Ratas , Ratas Wistar , Antagonistas de la Serotonina/farmacología
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