Inhibition Mechanism of Rat alpha(3)beta(4) Nicotinic Acetylcholine Receptor by the Alzheimer Therapeutic Tacrine

Nicotinic acetylcholine receptors (nAChRs) were studied in detail in the past regarding their interaction with therapeutic and drug addiction related compounds. Using fast kinetic whole-cell recording, we have now studied effects of tacrine, an agent used clinically to treat Alzheimer`s disease, on currents elicited by activation of rat alpha(3)beta(4) nAChR heterologously expressed in KX alpha(3)beta(4)R2 cells. Characterization of receptor activation by nicotine used as agonist revealed a K(d) of 23 +/- 0.2 mu M and 4.3 +/- 1.3 for the channel opening equilibrium constant, Phi(-1). Experiments were performed to investigate whether tacrine is able to activate the alpha(3)beta(4) nAChR. Tacrine did not activate whole-cell currents in KX alpha(3)beta(4)R2 cells but inhibited receptor activity at submicromolar concentration. Dose response curves obtained with increasing agonist or inhibitor concentration revealed competitive inhibition of nAChRs by tacrine, with an apparent inhibition constant, K(I), of 0.8 mu M. The increase of Phi(-1) in the presence of tacrine suggests that the drug stabilizes a nonconducting open channel form of the receptor. Binding studies with TCP and MK-801 ruled out tacrine binding to common allosteric sites of the receptor. Our study suggests a novel mechanism for action of tacrine on nAChRs besides inhibition of acetylcholine esterase.

Mode of cembranoid action on embryonic muscle acetylcholine receptor

The mechanism of eupalmerin acetate (EUAC) actions on the embryonic muscle nicotinic acetylcholine receptor (nAChR) in BC3H-1 cells was studied by using whole-cell and single-channel patch-clamp current measurements. With whole-cell currents, EUAC did not act as an agonist on this receptor. Coapplication of 30 mu M EUAC with 50 mu M, 100 N, or 500 mu M carbamoylcholine (CCh) reversibly inhibited the current amplitude, whereas, with 20 mu M CCh, current was increased above control values in the presence of EUAC. EUAC concentration curves (0.01-40 N) obtained with 100 mu M and 500 mu M CCh displayed slope coefficients, n(H), significantly smaller than one, suggesting that EUAC bound to several sites with widely differing affinities on the receptor molecule. The apparent rate of receptor desensitization in the presence of EUAC and CCh was either slower than or equal to that obtained with CCh alone. The major finding from single-channel studies was that EUAC did not affect single-channel conductance or the ability of CCh to interact with the receptor. Instead, EUAC acted by increasing the channel closing rate constant. The results are not consistent with the competitive model for EUAC inhibition, with the sequential open-channel block model, or with inhibition by increased desensitization. The data are best accounted for by a model in which EUAC acts by closed-channel block at low concentrations, by positive modulation at intermediate concentrations, and by negative allosteric modulation of the open channel at high concentrations. (c) 2007 Wiley-Liss, Inc.

Avaliação comportamental e neuroquímica em modelos de convulsão em ratos jovens

O ácido quinolínico (AQ) tem sido usado como modelo farmacológico de hiperestimulação do sistema glutamatérgico. A captação de glutamato é o principal mecanismo envolvido na manutenção do glutamato extracelular abaixo dos níveis tóxicos. A guanosina sistemicamente administrada previne convulsões induzidas pela hiperestimulação do sistema glutamatérgico em ratos adultos e aumenta a captação basal de glutamato em culturas primárias de astrócitos e em fatias corticais de ratos jovens. Este trabalho teve como objetivo investigar o efeito da guanosina p.o. sobre convulsões induzidas por ácido quinolínico e sobre a captação de glutamato em fatias corticais de ratos jovens (12-14 dias pós-natal). A infusão i.c.v. de 250nmol AQ induziu convulsões em todos os animais testados e diminui a captação de glutamato. A administração de MK-801 e fenobarbital i.p. 30 min antes preveniu as convulsões em todos os animais. Guanosina (7.5 mg/kg) 75 min antes, preveniu em 50% as convulsões induzidas por AQ bem como reverteu a captação de glutamato aos níveis do controle. No intuito de investigar se o efeito anticonvulsivo da guanosina é específico para convulsões induzidas por ácido quinolínico, testamos também o efeito da guanosina em convulsões induzidas por picrotoxina. O pré-tratamento com fenobarbital i.p. (60 mg/kg – 30 min) preveniu as convulsões em todos os animais, visto que guanosina p.o. (7.5 mg/kg – 75 min) e MK-801 i.p. (0.5 mg/kg – 30 min) não tiveram efeito. Desta forma, nossos resultados indicam que a guanosina pode ser considerado para o tratamento das epilepsias e possíveis transtornos neurológicos associados com excitotoxicidade mediada por AQ.

Influência do tratamento crônico com cafeína em modelos animais de esquizofrenia : parâmetros cognitivos e comportamentais

A esquizofrenia envolve um conjunto de sintomas de sensopercepção, cognição e afeto que compromete significativamente a vida do sujeito. O mais aceito modelo para se entender essa doença é o modelo de hiperatividade dopaminérgica, pois drogas como anfetamina e cocaína, que aumentam a atividade dopaminérgica, mimetizam alguns sintomas dessa patologia, e os fármacos usados para o tratamento são os que bloqueiam os receptores de dopamina. Além da dopamina, o sistema glutamatérgico também tem sido relacionado à esquizofrenia, pelo fato de antagonistas de receptores glutamatérgicos do tipo NMDA, tais como PCP, MK-801 e cetamina, provocarem alguns sintomas dessa doença, como desorganização cognitiva e delírios em pessoas saudáveis. adenosina, por sua vez, desempenha um papel neuromodulatório tanto da atividade dopaminérgica quanto da atividade glutamatérgica, inibindo o tônus de ambos neurotransmissores por diferentes vias. Assim, sugerimos que antagonistas de receptores adenosinérgicos, como a cafeína, também seriam um modelo farmacológico para a doença. Com base nisso, demonstramos previamente que camundongos tratados cronicamente com cafeína desenvolvem tolerância cruzada ao efeito do antagonista NMDA MK-801 em provocar hiperlocomoção, mas não em seu déficit cognitivo na esquiva inibitória. Buscando ampliar e melhor caracterizar essa interação, os seguintes parâmetros foram avaliados em camundongos: atividade locomotora realizando-se as curvas de dose e de tempo; memória de trabalho, avaliada na tarefa de alternação tardia; memória de longa duração, avaliada na tarefa de esquiva inibitória e a avaliação de ataxia. Os resultados nos mostraram que camundongos subcronicamente tratados com cafeína na bebida (1 mg/mL, por 1, 3, ou 7 dias) apresentaram habituação semelhante entre os grupos e que MK-801 (0,25 mg/kg, i.p.) produziu hiperlocomoção nos animais tratados com água e 1 dia de cafeína, com efeito diminuído depois de 3 dias e praticamente abolido depois de 7 dias. Depois de 7 dias, o efeito também foi dose-dependente, sem tolerância cruzada na dose de 0,1 mg/mL, intermediária na dose de 0,3 mg/mL e total a 1,0 mg/mL. Os escores de ataxia induzidos por 0,5 mg/kg de MK-801 não foram afetados pelo tratamento com cafeína por 7 dias a 1 mg/mL, mas uma hiperlocomoção transitória foi observada. O tratamento com cafeína por 7 dias a 1 mg/mL preveniu os déficits induzidos por 0,01 mg/kg de MK-801 na tarefa de esquiva inibitória e os atenuou, a 0,4 mg/kg de MK-801, na tarefa de alternação tardia, no labirinto em T. Conclui-se, então, que a hiperlocomoção e os déficits cognitivos – mas não a ataxia – induzidos por MK-801 podem estar influenciados pela atividade reduzida da adenosina. Assim, os estudos sobre a ação da adenosina podem se fazer relevantes para a melhor compreensão da neurobiologia da esquizofrenia. Estes resultados são concordantes com o novo modelo proposto, que é o de hipofunção adenosinérgica na esquizofrenia.

Sistemas dopaminérgicos e ação antipsicótica : abordagens experimentais e teóricas

Os objetivos da presente tese de doutorado foram os de buscar novos antipsicóticos atípicos de baixo preço comercial e também procurar entender o mecanismo de ação que leva a um perfil antipsicótico atípico. Os resultados da tese são divididos em duas partes, de acordo com sua natureza, em experimentais (primeira parte) e teóricos (segunda parte). Para o desenvolvimento da primeira parte, foi necessária primeiramente a programação de um software para medir locomoção em roedores após filmagem com webcam. A seguir, foram investigados os efeitos da guanosina, flunarizina e cinarizina em modelos animais de psicose, bem como em outros paradigmas comportamentais. A guanosina foi escolhida para estudo uma vez que tem se mostrado que ela interage com o sistema glutamatérgico – que sabidamente está envolvido na fisiopatologia da esquizofrenia – promovendo a captação astrocitária de glutamato. Já a flunarizina e a cinarizina, dois bloqueadores de canal de cálcio empregados para tratar enxaqueca e vertigem foram escolhidas pelo fato delas produzirem sinais e sintomas extrapiramidais em pacientes idosos, o que posteriormente foi relacionado às suas propriedades como antagonistas moderados dos receptores dopaminérgicos do tipo D2 A guanosina diminuiu o aumento de locomoção induzido por um antagonista NMDA (MK-801), enquanto que não apresentou efeito sobre o aumento de locomoção induzido por anfetamina, de forma que sua utilidade como potencial antipsicótico deve ser ainda melhor estudada. Tanto a flunarizina quanto a cinarizina foram capazes de diminuir o aumento de locomoção induzido por MK-801 e por anfetamina em doses que não causam efeitos catalépticos importantes. Portanto, foi concluído que estes dois compostos apresentam um potencial perfil de antipsicótico atípico, com as vantagens de já estarem disponíveis para uso comercial, boa tolerabilidade e baixo custo quando comparados com os antipsicóticos atípicos disponíveis comercial. A segunda parte da tese apresenta alguns resultados teóricos matemáticos que podem ser derivados da teoria da lei de ação das massas aplicada ao binding de receptores, utilizando também resultados experimentais já conhecidos de PET Estes resultados apresentam insights ao entendimento das diferenças entre os perfis antipsicóticos atípicos e típicos em relação à geração de sinais extrapiramidais. É discutido que fatores culturais e comerciais relacionados à posologia atual empregada no tratamento com antipsicóticos típicos podem ser os responsáveis pelas diferenças de perfis, uma vez que alguns deles são prescritos em doses proporcionalmente maiores em relação à sua afinidade, atingindo assim maiores níveis de bloqueio dopaminérgico no estriado. Uma curta meia-vida plasmática também é apontada como um possível parâmetro importante na geração de um perfil atípico. É mostrado ainda alguns erros de concepção relacionados ao curso temporal da ocupação dopaminérgica que tem sido atualmente cometidos na literatura científica, como o conceito de meia-vida de ocupação de receptores. Como um último resultado teórico, é proposto um algoritmo para a redução de dose em pacientes tratados com antipsicóticos apresentando sinais e sintomas extrapiramidais.

Intervenções no sistema adenosinérgico : avaliação de aspectos neuroquímicos, locomotores e nociceptivos

A adenosina está presente em todos os tipos celulares exercendo um papel homeostático. Em sistema nervoso central e periférico seu papel neuromodulador é observado. A presença de adenosina no meio extracelular permite a ativação de receptores adenosinérgicos específicos, classificados em: A1, A2A, A2B e A3. A ativação dos receptores A1 e A2A, receptores de alta afinidade, está diretamente envolvida com o papel neuromodulador, visto que a sua ativação produz inibição e facilitação da liberação de neurotransmissores, respectivamente. A seleção de qual receptor será ativado, visto que exibem co-expressão em muitas regiões neurais, pode ser feita de acordo com os sítios de liberação ou produção de adenosina extracelular. Desta forma, receptores A1 seriam preferencialmente ativados pela adenosina liberada através dos transportadores bidirecionais de nucleosídeos e os receptores A2A preferencialmente ativados pela adenosina proveniente da degradação do ATP realizada por uma cascata enzimática. A hidrólise de ATP a adenosina é realizada pelas enzimas ectonucleosídeo trifosfato difosfoidrolases e ecto-5’-nucleotidase. Em ratos, a ativação do sistema adenosinérgico exerce seus efeitos neuromoduladores desde fases iniciais de desenvolvimento embrionário, alcançando o padrão adulto mesmo antes do nascimento. A ativação de receptores de adenosina na fase fetal e neonatal foi demonstrada ter como conseqüência o retardo no desenvolvimento global dos animais, bem como, ventriculomegalia e perda de massa cerebral branca. Esta informação levanta a questão da suscetibilidade do cérebro imaturo a certas drogas, tais como a cafeína. A cafeína é uma metilxantina com efeitos estimulantes, a qual exibe como base para seus efeitos o bloqueio inespecífico dos receptores de adenosina. No presente estudo, avaliou-se o efeito da administração de cafeína em diversos parâmetros. A administração aguda de cafeína, mas não a crônica, em ratos adultos foi capaz de alterar significativamente as atividades de hidrólise de ATP no hipocampo e de ADP no estriado. Este resultado poderia estar relacionado com a capacidade plástica do sistema adenosinérgico em restabelecer seu tônus em ratos adultos tratados cronicamente com cafeína. Além disto, verificou-se que a ação direta da cafeína afetou a produção de adenosina. A administração crônica de cafeína na água de beber de ratas mães durante a fase gestacional e lactacional alterou o padrão de hiperlocomoção induzido por MK-801, um antagonista de receptores NMDA glutamatérgicos, nos ratos filhotes aos 21 dias de vida, mesmo quando o acesso a cafeína foi retirado sete dias antes do teste. Além disto, o mesmo tratamento não alterou o limiar de dor de filhotes aos 14 e 50 dias de vida, bem como a analgesia induzida nestes animais aos 50 dias. Entretanto, quando os animais ainda recebiam cafeína no dia do teste, foi observado efeito analgésico somente nos ratos de 14 dias. A análise dos efeitos do tratamento sobre a degradação de acetilcolina e sobre a degradação de nucleotídeos em hipocampo de ratos jovens demonstrou que ambas as atividades foram alteradas. O conjunto de resultados desta tese indica que a intervenção no sistema adenosinérgico durante as fases gestacional e neonatal é capaz de desenvolver adaptações, provavelmente relacionadas ao aumento da expressão de receptores para adenosina, na tentativa de restabelecer o controle modulador adenosinérgico, considerada a importância dos sistemas avaliados para a manutenção do organismo.

Lipophilicity as a determinant of binding of procaine analogs to rat alpha(3)beta(4) nicotinic acetylcholine receptor

Nicotinic acetylcholine receptors (nAChRs) have been studied in detail with regard to their interaction with therapeutic and drug addiction-related compounds. Using a structureactivity approach, we have examined the relationship among the molecular features of a set of eight para-R-substituted N,N-[(dimethylamino)ethyl] benzoate hydrochlorides, structurally related to procaine and their affinity for the a3 beta 4 nAChR heterologously expressed in KXa3 beta 4R2 cells. Affinity values (log[1/IC50]) of these compounds for the a3 beta 4 nAChR were determined by their competition with [3H]TCP binding. Log(1/IC50) values were analyzed considering different hydrophobic and electronic parameters and those related to molar refractivity. These have been experimentally determined or were taken from published literature. In accordance with literature observations, the generated cross-validated quantitative structureactivity relationship (QSAR) equations indicated a significant contribution of hydrophobic term to binding affinity of procaine analogs to the receptor and predicted affinity values for several local anesthetics (LAs) sets taken from the literature. The predicted values by using the QSAR model correlated well with the published values both for neuronal and for electroplaque nAChRs. Our work also reveals the general structure features of LAs that are important for interaction with nAChRs as well as the structural modifications that could be made to enhance binding affinity. (c) 2012 Wiley Periodicals, Inc.

Influence of N-methyl-D-aspartate receptors on ouabain activation of nuclear factor-kappa B in the rat hippocampus

It has been shown that ouabain (OUA) can activate the Na,K-ATPase complex and mediate intracellular signaling in the central nervous system (CNS). Inflammatory stimulus increases glutamatergic transmission, especially at N-methyl-D-aspartate (NMDA) receptors, which are usually coupled to the activation of nitric oxide synthase (NOS). Nuclear factor-kappa B (NF-kappa B) activation modulates the expression of genes involved in development, plasticity, and inflammation. The present work investigated the effects of OUA on NF-kappa B binding activity in rat hippocampus and the influence of this OUA-Na,K-ATPase signaling cascade in NMDA-mediated NF-kappa B activation. The findings presented here are the first report indicating that intrahippocampal administration of OUA, in a concentration that did not alter Na,K-ATPase or NOS activity, induced an activation of NF-kappa B, leading to increases in brain-derived neurotrophic factor (Bdnf), inducible NOS (iNos), tumor necrosis factor-alpha (Tnf-alpha), and B-cell leukemia/lymphoma 2 (Bcl2) mRNA levels. This response was not linked to any significant signs of neurodegeneration as showed via Fluoro-Jade B and Nissl stain. Intrahippocampal administration of NMDA induced NF alpha B activation and increased NOS and alpha 2/3-Na,K-ATPase activities. NMDA treatment further increased OUA-induced NF-kappa B activation, which was partially blocked by MK-801, an antagonist of NMDA receptor. These results suggest that OUA-induced NF-kappa B activation is at least in part dependent on Na,K-ATPase modulatory action of NMDA receptor in hippocampus. The interaction of these signaling pathways could be associated with biological mechanisms that may underlie the basal homeostatic state linked to the inflammatory signaling cascade in the brain. (c) 2011 Wiley Periodicals, Inc.

Die funktionelle Rolle von LRP1 in der tPA-vermittelten Aktivierung von NMDA-Rezeptoren

Das Low Density Lipoprotein Receptor-related Protein 1 (LRP1) scheint neben seiner ursprünglichen Rolle als Lipoproteinrezeptor auch eine fundamentale Rolle bei der Einleitung von Signaltransduktionskaskaden im sich entwickelnden Gehirn zu spielen. Einer seiner Hauptliganden ist die Serinprotease Tissue-type Plasminogen Aktivator (tPA), welche NMDA-Rezeptor-abhängig MAP Kinasenaktivierung induzieren kann. In dieser Studie sollte daher untersucht werden, ob LRP1 und der NMDA Rezeptor in der tPA-vermittelten Signaltransduktion miteinander kooperieren. Es konnte gezeigt werden, dass sowohl LRP1 als auch der NMDA Rezeptor an der tPA-induzierten Erk1/2 Phosphorylierung beteiligt sind, da dieser Effekt mit den spezifischen Inhibitoren RAP, MK-801 und DL-AP5 blockiert werden konnte. Eine weitere Bestätigung der LRP1-Spezifität zeigte sich durch shRNA knock-down Experimente. Calcium Imaging Experimente ergaben, dass die Applikation von tPA sowohl in primären, hippokampalen Neuronen als auch in der neuronalen Zelllinie HT22 zu einem robusten Einstrom von Calcium in die Zelle führte, welcher mit dem NMDA Rezeptor Inhibitor MK-801 und dem LRP1 Inhibitor RAP blockiert werden konnte. RNAi Experimente und Überexpressionsstudien bestätigten die Beteiligung von PSD-95 als intrazelluläres Adapterprotein, welches die beiden Rezeptoren miteinander verbindet. Als Bindungsstelle für PSD-95 konnte mit Hilfe von LRP1 knock-in Mausneuronen die distale NPxY(2) Domäne am LRP1 C-Terminus identifiziert werden. Diese Ergebnisse führten zu der Hypothese eines multimeren tPA-LRP1-NMDA Rezeptor Komplexes, der über die primäre Bindung von tPA an LRP1 aktiviert wird und anschließend das Signal an den NMDA Rezeptor weiterleitet. Somit weisen die Ergebnisse dieser Arbeit auf einen neuen, tPA-vermittelten Mechanismus zur Öffnung von Glutamatrezeptoren hin, der eine funktionelle Kooperation von dem Lipoproteinrezeptor LRP1 mit dem NMDA Rezeptor voraussetzt.

Is sensitization to stimulants time dependent and mediated via NMDA receptors?

Chronic administration of psychomotor stimulants has been reported to produce behavioral sensitization to its effects on motor activity. This adaptation may be related to the pathophysiology of recurrent psychiatric disorders. Since disturbances in circadian rhythms are also found in many of these disorders, the relationship between sensitization and chronobiological factors became of interest. Therefore, a computerized monitoring system investigated the following: whether repeated exposure to methylphenidate (MPD) and amphetamine (AMP) could produce sensitization to its locomotor effects in the rat; whether sensitization to MPD and AMP was dependent on the circadian time of drug administration; whether the baseline levels of locomotor activity would be effected by repeated exposure to MPD and AMP; whether the expression of a sensitized response could be affected by the photoperiod; and whether MK-801, a non-competitive NMDA antagonist, could disrupt the development of sensitization to MPD. Dawley rats were housed in test cages and motor activity was recorded continuously for 16 days. The first 2 days served as baseline for each rat, and on day 3 each rat received a saline injection. The locomotor response to 0.6, 2.5, or 10 mg/kg of MPD was tested on day 4, followed by five days of single injections of 2.5 mg/kg MPD (days 5–9). After five days without injection (days 10–14) rats were re-challenged (day 15) with the same doses they received on day 4. There were three separate dose groups ran at four different times of administration, 08:00, 14:00, 20:00, or 02:00 (i.e. 12 groups). The same protocol was conducted with AMP with the doses of 0.3, 0.6, and 1.2 mg/kg given on day 4 and 15, and 0.6 mg/kg AMP as the repeated dose on days 5 to 9. In the second set of experiments only sensitization to MPD was investigated. The expression of the sensitized response was dose-dependent and mainly observed with challenge of the lower dose groups. The development of sensitization to MPD and ANT was differentially time-dependent. For MPD, the most robust sensitization occurred during the light phase, with no sensitization during the middle of the dark phase. (Abstract shortened by UMI.) ^

Neocortical hyperexcitability defect in a mutant mouse model of spike-wave epilepsy, {\it stargazer}

Single-locus mutations in mice can express epileptic phenotypes and provide critical insights into the naturally occurring defects that alter excitability and mediate synchronization in the central nervous system (CNS). One such recessive mutation (on chromosome (Chr) 15), stargazer(stg/stg) expresses frequent bilateral 6-7 cycles per second (c/sec) spike-wave seizures associated with behavioral arrest, and provides a valuable opportunity to examine the inherited lesion associated with spike-wave synchronization.^ The existence of distinct and heterogeneous defects mediating spike-wave discharge (SWD) generation has been demonstrated by the presence of multiple genetic loci expressing generalized spike-wave activity and the differential effects of pharmacological agents on SWDs in different spike-wave epilepsy models. Attempts at understanding the different basic mechanisms underlying spike-wave synchronization have focused on $\gamma$-aminobutyric acid (GABA) receptor-, low threshold T-type Ca$\sp{2+}$ channel-, and N-methyl-D-aspartate receptor (NMDA-R)-mediated transmission. It is believed that defects in these modes of transmission can mediate the conversion of normal oscillations in a trisynaptic circuit, which includes the neocortex, reticular nucleus and thalamus, into spike-wave activity. However, the underlying lesions involved in spike-wave synchronization have not been clearly identified.^ The purpose of this research project was to locate and characterize a distinct neuronal hyperexcitability defect favoring spike-wave synchronization in the stargazer brain. One experimental approach for anatomically locating areas of synchronization and hyperexcitability involved an attempt to map patterns of hypersynchronous activity with antibodies to activity-induced proteins.^ A second approach to characterizing the neuronal defect involved examining the neuronal responses in the mutant following application of pharmacological agents with well known sites of action.^ In order to test the hypothesis that an NMDA receptor mediated hyperexcitability defect exists in stargazer neocortex, extracellular field recordings were used to examine the effects of CPP and MK-801 on coronal neocortical brain slices of stargazer and wild type perfused with 0 Mg$\sp{2+}$ artificial cerebral spinal fluid (aCSF).^ To study how NMDA receptor antagonists might promote increased excitability in stargazer neocortex, two basic hypotheses were tested: (1) NMDA receptor antagonists directly activate deep layer principal pyramidal cells in the neocortex of stargazer, presumably by opening NMDA receptor channels altered by the stg mutation; and (2) NMDA receptor antagonists disinhibit the neocortical network by blocking recurrent excitatory synaptic inputs onto inhibitory interneurons in the deep layers of stargazer neocortex.^ In order to test whether CPP might disinhibit the 0 Mg$\sp{2+}$ bursting network in the mutant by acting on inhibitory interneurons, the inhibitory inputs were pharmacologically removed by application of GABA receptor antagonists to the cortical network, and the effects of CPP under 0 Mg$\sp{2+}$aCSF perfusion in layer V of stg/stg were then compared with those found in +/+ neocortex using in vitro extracellular field recordings. (Abstract shortened by UMI.) ^

Long-term potentiation and dual-component quantal signaling in the dentate gyrus

Long-term potentiation (LTP) of excitatory transmission is an important candidate cellular mechanism for the storage of memories in the mammalian brain. The subcellular phenomena that underlie the persistent increase in synaptic strength, however, are incompletely understood. A potentially powerful method to detect a presynaptic increase in glutamate release is to examine the effect of LTP induction on the rate at which the use-dependent blocker MK-801 attenuates successive N-methyl-d-aspartic acid (NMDA) receptor-mediated synaptic signals. This method, however, has given apparently contradictory results when applied in hippocampal CA1. The inconsistency could be explained if NMDA receptors were opened by glutamate not only released from local presynaptic terminals, but also diffusing from synapses on neighboring cells where LTP was not induced. Here we examine the effect of pairing-induced LTP on the MK-801 blocking rate in two afferent inputs to dentate granule cells. LTP in the medial perforant path is associated with a significant increase in the MK-801 blocking rate, implying a presynaptic increase in glutamate release probability. An enhanced MK-801 blocking rate is not seen, however, in the lateral perforant path. This result still could be compatible with a presynaptic contribution to LTP in the lateral perforant path if intersynaptic cross-talk occurred. In support of this hypothesis, we show that NMDA receptors consistently sense more quanta of glutamate than do α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptors. In the medial perforant path, in contrast, there is no significant difference in the number of quanta mediated by the two receptors. These results support a presynaptic contribution to LTP and imply that differences in intersynaptic cross-talk can complicate the interpretation of experiments designed to detect changes in transmitter release.

Apoptosis and proliferation of dentate gyrus neurons after single and intermittent limbic seizures

Neuronal apoptosis was observed in the rat dentate gyrus in two experimental models of human limbic epilepsy. Five hours after one hippocampal kindling stimulation, a marked increase of in situ terminal deoxynucleotidyltransferase-mediated dUTP nick-end labeling (TUNEL) of fragmented DNA was observed in nuclei located within and on the hilar border of the granule cell layer and in the polymorphic region. Forty kindling stimulations with 5-min interval produced higher numbers of labeled nuclei compared with one stimulation. The increase of TUNEL-positive nuclei was prevented by the protein synthesis inhibitor cycloheximide but not affected by the N-methyl-d-aspartate receptor antagonist MK-801. Kainic acid-induced seizures lead to a pattern of labeling in the hippocampal formation identical to that evoked by kindling. A large proportion of cells displaying TUNEL-positive nuclei was double-labeled by the neuron-specific antigen NeuN, demonstrating the neuronal identity of apoptotic cells. Either 1 or 40 kindling stimulations also gave rise to a marked increase of the number of cells double-labeled with the mitotic marker bromodeoxyuridine and NeuN in the subgranular zone and on the hilar border of the dentate granule cell layer. The present data show that single and intermittent, brief seizures induce both apoptotic death and proliferation of dentate gyrus neurons. We hypothesize that these processes, occurring early during epileptogenesis, are primary events in the development of hippocampal pathology in animals and possibly also in patients suffering from temporal lobe epilepsy.

Insulin promotes rapid delivery of N-methyl-d- aspartate receptors to the cell surface by exocytosis

Insulin potentiates N-methyl-d-aspartate receptors (NMDARs) in neurons and Xenopus oocytes expressing recombinant NMDARs. The present study shows that insulin induced (i) an increase in channel number times open probability (nPo) in outside-out patches excised from Xenopus oocytes, with no change in mean open time, unitary conductance, or reversal potential, indicating an increase in n and/or Po; (ii) an increase in charge transfer during block of NMDA-elicited currents by the open channel blocker MK-801, indicating increased number of functional NMDARs in the cell membrane with no change in Po; and (iii) increased NR1 surface expression, as indicated by Western blot analysis of surface proteins. Botulinum neurotoxin A greatly reduced insulin potentiation, indicating that insertion of new receptors occurs via SNARE-dependent exocytosis. Thus, insulin potentiation occurs via delivery of new channels to the plasma membrane. NMDARs assembled from mutant subunits lacking all known sites of tyrosine and serine/threonine phosphorylation in their carboxyl-terminal tails exhibited robust insulin potentiation, suggesting that insulin potentiation does not require direct phosphorylation of NMDAR subunits. Because insulin and insulin receptors are localized to glutamatergic synapses in the hippocampus, insulin-regulated trafficking of NMDARs may play a role in synaptic transmission and plasticity, including long-term potentiation.

Excitotoxicity in the lung: N-methyl-D-aspartate-induced, nitric oxide-dependent, pulmonary edema is attenuated by vasoactive intestinal peptide and by inhibitors of poly(ADP-ribose) polymerase.

Excitatory amino acid toxicity, resulting from overactivation of N-methyl-D-aspartate (NMDA) glutamate receptors, is a major mechanism of neuronal cell death in acute and chronic neurological diseases. We have investigated whether excitotoxicity may occur in peripheral organs, causing tissue injury, and report that NMDA receptor activation in perfused, ventilated rat lungs triggered acute injury, marked by increased pressures needed to ventilate and perfuse the lung, and by high-permeability edema. The injury was prevented by competitive NMDA receptor antagonists or by channel-blocker MK-801, and was reduced in the presence of Mg2+. As with NMDA toxicity to central neurons, the lung injury was nitric oxide (NO) dependent: it required L-arginine, was associated with increased production of NO, and was attenuated by either of two NO synthase inhibitors. The neuropeptide vasoactive intestinal peptide and inhibitors of poly(ADP-ribose) polymerase also prevented this injury, but without inhibiting NO synthesis, both acting by inhibiting a toxic action of NO that is critical to tissue injury. The findings indicate that: (i) NMDA receptors exist in the lung (and probably elsewhere outside the central nervous system), (ii) excessive activation of these receptors may provoke acute edematous lung injury as seen in the "adult respiratory distress syndrome," and (iii) this injury can be modulated by blockade of one of three critical steps: NMDA receptor binding, inhibition of NO synthesis, or activation of poly(ADP-ribose) polymerase.