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7. Post-Retrieval Effects of ICV Infusions of Hemicholinium in Mice Are Dependent on the Age of the Original Memory

Author

Boccia, Mariano M., Blake, Mariano G., and Acosta, Gabriela B.

Abstract

CF-1 male mice were trained in an inhibitory avoidance task using a high footshock (1,2 mA, 50 Hz, 1 sec) in order to reduce the influence of extinction on retention performance. At 2, 7, 14, or 30 d after training, the first retention test was performed and hemicholinium (HC-3, 1.0 microgram/mice), a specific inhibitor of high-affinity choline uptake in brain cholinergic neurons, was given intracerebroventricularly immediately after. Twenty four hours after treatment, mice were tested in an inhibitory avoidance task during five consecutive days, each 24 h apart. Retention performance was impaired by HC-3 when the first re-exposure took place at 2, 7, or 14 d, but the effect was no longer seen when re-exposure occurred 30 d after training. We did not find spontaneous recovery 21 d after training, when memory was retrieved 2 d after training and HC-3 was given immediately after. Although we cannot definitively discard a retrieval deficit, this lack of spontaneous recovery is in accordance with the storage-deficit interpretation. These results confirm and extend previous ones, suggesting that central cholinergic mechanisms are involved in the hypothetical reconsolidation memory processes of an inhibitory avoidance task in mice and also suggest that this participation depends on the "age" of the original memory trace. This implies that the vulnerability of a reactivated memory to a specific treatment, as the one used in this study, inversely correlates with the age of the original memory, and it is likely to determine memory reconsolidation processes. (Contains 1 table and 2 figures.)

Published
2006
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23. Posttraining administration of pentylenetetrazol dissociates gabapentin effects on memory consolidation from that on memory retrieval process in mice

Author

Blake, Mariano G., Boccia, Mariano M., Acosta, Gabriela B., and Baratti, Carlos María

Subjects
*TETRAZOLES, *MEMORY, *INFORMATION retrieval, *HETEROCYCLIC compounds
Abstract

Gabapentin (GBP), an anticonvulsant drug, 10mg/kg, i.p., but not 100mg/kg, i.p., enhanced retention of an inhibitory avoidance task when given 20min after training, as indicated by retention performance 48h later. The immediate post-training administration of pentylenetetrazol (PTZ, 45mg/kg, i.p.) impaired retention performance. The amnesic effects of the convulsant drug PTZ were not influenced by GBP at any level of doses. However, GBP 100mg/kg, but not 10mg/kg, delayed the latency to first clonic body seizures and decreased the duration of convulsion induced by PTZ. The enhancing effect of GBP on retention was not prevented by the opiate receptor antagonist, naltrexone (0.01mg/kg, i.p.), which completely prevented the impairment of retention caused by PTZ. Further, naltrexone did not modify the convulsions induced by PTZ. In mice pretreated with naltrexone and that received PTZ, the administration of GBP again, enhanced retention performance during the retention test. Since previous results indicate that the amnesic action of PTZ are due to an effect on memory retrieval, the present results provide additional pharmacological evidence suggesting that GBP influenced memory consolidation and not memory retrieval of an inhibitory avoidance task in mice. [Copyright &y& Elsevier]

Published
2004
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24. Participation of the cholinergic system and the ERK/MAPKs pathway in memory reconsolidation processes

Author

Krawczyk, María del Carmen and Boccia, Mariano M.

Subjects
ACETILCOLINA, INHIBITORY AVOIDANCE, RECONSOLIDACION, PERSISTENCIA, PERSISTENCE, RATON, EVITAMIENTO INHIBITORIO, MOUSE, RECONSOLIDATION, ACETYLCHOLINE
Abstract

En el presente trabajo se evaluó la participación del sistema colinérgico, dela vía de señalización ERK/MAPKs y el posible vínculo entre las dos vías en losprocesos que ocurren luego de la reactivación de una memoria de una respuestade evitamiento inhibitorio en ratón. Se estudió la posible participación de las proteínas ERK 1/2 en los procesosque ocurren luego de la reactivación de la memoria. Para tal fin, ratones CF-1fueron entrenados con dos tipos de entrenamiento: entrenamiento débil yentrenamiento fuerte y, 48 h luego, su memoria fue reactivada. A distintos tiemposluego de la sesión de reactivación (15, 45 y 180 min) se evaluó el nivel deactivación de las proteínas ERK1/2 hipocampales, encontrándose una activacióndiferencial de la proteína ERK2 citosólica dependiente del tipo de entrenamientorealizado. Por otra parte, se estudió el efecto de la administración por víaintrahipocampal (ih) de un inhibidor de esta vía luego de la reactivación de lamemoria (inmediatamente y 3hs post reactivación) en los procesos dereconsolidación y persistencia de la memoria. Asimismo, se intentó determinar si las proteínas ERK1/2 actúan comomediadoras del efecto mnésico ejercido por los receptores colinérgicos en vista deantecedentes que las proponen como punto de integración de señales en lasneuronas. Se estudió entonces la activación de ERK1/2 mediada por laadministración de un agonista y un antagonista de los receptores nicotínicos α7. Por último, se prosiguió con el estudio de la participación de la vía Colinérgica en los procesos de reconsolidación de la memoria. Con esa finalidad,ratones CF-1 machos fueron entrenados en la tarea de evitamiento inhibitorio,empleando los dos tipos de estímulos. Cuarenta y ocho horas luego delentrenamiento la memoria fue reactivada inyectándose inmediatamente despuésagonistas y antagonistas inespecíficos para los receptores muscarínicos (RcM)porvía ih. El desempeño de los animales fue nuevamente evaluado a las 24 h. Seobservó que para ambos estímulos la administración del antagonista inespecífico Escopolamina disminuyó las latencias de entrada al compartimento, sugiriendouna modulación negativa de la memoria. Por su parte, la administración delagonista Oxotremorina, tuvo un efecto facilitador en aquellos animales entrenadoscon el estímulo débil; mientras que en aquellos entrenados con el estímulo fuertedisminuyó el desempeño de los mismos. Los efectos observados para ambasdrogas fueron dosis- y tiempo-dependientes, así como específicos de lareactivación de la memoria. Asimismo, la disminución en el desempeño de estasdrogas en animales entrenados con un estímulo fuerte fue revertida de maneradosis-dependiente al administrar cantidades crecientes de uno u otrorespectivamente. Además, se estudió el subtipo de RcM involucrado en estosprocesos, mediante la administración ih de antagonistas específicos de los RcM1, RcM2 y RcM3. Los resultados detallados en la presente tesis de doctorado son originalesy aportan nueva información al campo de la neurobiología del aprendizaje y lamemoria. En su conjunto los mismos sugieren una participación crítica del sistemacolinérgico, a partir de los receptores muscarínicos hipocampales (específicamente los subtipos RcM1 y RcM2) en los procesos de reconsolidaciónde la memoria. Además, la vía colinérgica involucra, al menos en parte, a la vía de ERK/MAPKs como mediadora en dichos procesos. In the present work, we studied the participation of the cholinergic system, the ERK/MAPK signaling pathway and the possible link between them in theprocesses that have place after the reactivation of a memory using an inhibitoryavoidance task paradigm in mice. We first studied the possible involvement of ERK 1/2 proteins in theprocesses that occur after the reactivation of an inhibitory avoidance memory. Tothat end, CF-1 mice were trained in the inhibitory avoidance (IA) task, using twotypes of stimuli: a mild footshock or a strong footshock.Forty-eight hours later, theirmemory was reactivated. At different times after the reactivation session (15, 45and 180 min), the level of phosphorylation of the ERK1 / 2 hippocampal proteinswas evaluated, resulting in a differential activation of cytosolic ERK2 proteinindependently on the type of training performed. Furthermore, the effect of an ih ERK 1/2 phosphorylation inhibitor of this pathway after the reactivation of memory (immediately and 3h post-reactivation) was studied in both reconsolidation andmemory persistence, with a decrease in performance of the animals. Secondly, we tried to determine if the ERK1/2 proteins act as mediators of themnesic effect exerted by the cholinergic receptors in view of the antecedents thatpropose them as point of integration of signals in the neurons. With that in mind,we studied the effects of the post retrieval administration of α7 nicotinic receptors´agonist and antagonist on ERK1/2 activation levels. Finally, we continued with the study of the participation of the Cholinergicsystem on memory reconsolidation processes. CF-1 male mice were trained In the IA task, forty-eight hours after training memory was reactivated and immediatelyafterwards mice received an ih injection of muscarinic receptors (RcM) non-specificagonist and antagonist. Mice performance was again evaluated 24 h later. Regardless of training conditions, the administration of the nonspecific antagonistscopolamine generated a decrease in animals´ performance, suggesting anegative modulation of the memory. On the other hand, the administration of theagonist oxotremorine, displayed a facilitating effect in animals trained with the lowfootshock; while those trained with the strong stimulus decreased theirperformance. The observed effects for both drugs were dosis- and time-dependent,as well as specific of memory reactivation. Likewise, the decrease in theperformance of these drugs in animals trained with a strong footshock reverted thebehavioral response in a dose-dependent manner when administering increasingamounts of one or the other respectively. In addition, specific RcM subtypeinvolved in these processes was studied by the administration of specific RcM1, RcM2 and RcM3 antagonists. The results detailed in this PhD thesis are original and provide newinformation to the field of neurobiology of learning and memory. Taken together,they suggest a critical involvement of the hippocampal cholinergic system, by themuscarinic receptors (specifically the RcM1 and RcM2 subtypes), in the processestriggered after memory reconsolidation. Thus, it may involve, at least in part, the ERK / MAPKs pathway as a mediator in Processes. Fil: Krawczyk, María del Carmen. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published
2017

25. [Sleep-wake cycle and memory consolidation].

Author

Baratti CM, Boccia MM, Blake MG, and Acosta GB

Subjects
Humans, Neurobiology, Memory physiology, Sleep physiology, Wakefulness physiology
Abstract

Although several hypothesis and theories have been advanced as explanations for the functions of sleep, a unified theory of sleep function remains elusive. Sleep has been implicated in the plastic cerebral changes that underlie learning and memory, in particular those related to memory consolidation of recently acquired new information. Despite steady accumulations of positive findings over the last ten years, the precise role of sleep in memory and brain plasticity is unproven at all. This situation might be solved by more integrated approaches that combine behavioral and neurophysiological measurements in well described in vivo models of neuronal activity and brain plasticity.

Published
2007

26. NF-kappaB transcription factor is required for inhibitory avoidance long-term memory in mice.

Author

Freudenthal R, Boccia MM, Acosta GB, Blake MG, Merlo E, Baratti CM, and Romano A

Subjects
Animals, Avoidance Learning drug effects, Electroshock, Indomethacin pharmacology, Male, Mice, Neuronal Plasticity physiology, Sulfasalazine pharmacology, Transcription Factors metabolism, Avoidance Learning physiology, Memory physiology, NF-kappa B metabolism
Abstract

Although it is generally accepted that memory consolidation requires regulation of gene expression, only a few transcription factors (TFs) have been clearly demonstrated to be specifically involved in this process. Increasing research data point to the participation of the Rel/nuclear factor-kappaB (NF-kappaB) family of TFs in memory and neural plasticity. Here we found that two independent inhibitors of NF-kappaB induced memory impairment in the one-trial step-through inhibitory avoidance paradigm in mice: post-training administration of the drug sulfasalazine and 2 h pretraining administration of a double-stranded DNA oligonucleotide containing the NF-kappaB consensus sequence (kappaB decoy). Conversely, one base mutation of the kappaB decoy (mut-kappaB decoy) injection did not affect long-term memory. Accordingly, the kappaB decoy inhibited NF-kappaB in hippocampus 2 h after injection but no inhibition was found with mut-kappaB decoy administration. A temporal course of hippocampal NF-kappaB activity after training was determined. Unexpectedly, an inhibition of NF-kappaB was found 15 min after training in shocked and unshocked groups when compared with the naïve group. Hippocampal NF-kappaB was activated 45 min after training in both shocked and unshocked groups, decreasing 1 h after training and returning to basal levels 2 and 4 h after training. On the basis of the latter results, we propose that activation of NF-kappaB in hippocampus is part of the molecular mechanism involved in the storage of contextual features that constitute the conditioned stimulus representation. The results presented here provide the first evidence to support NF-kappaB activity being regulated in hippocampus during consolidation, stressing the role of this TF as a conserved molecular mechanism for memory storage.

Published
2005
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