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4. Robots in the Danger Zone: Exploring Public Perception through Engagement

Author

Robb, David A., Ahmad, Muneeb I., Tiseo, Carlo, Aracri, Simona, McConnell, Alistair C., Page, Vincent, Dondrup, Christian, Garcia, Francisco J. Chiyah, Nguyen, Hai-Nguyen, Pairet, Èric, Ramírez, Paola Ardón, Semwal, Tushar, Taylor, Hazel M., Wilson, Lindsay J., Lane, David, Hastie, Helen, and Lohan, Katrin

Subjects
Computer Science - Computers and Society, Computer Science - Artificial Intelligence, Computer Science - Human-Computer Interaction, Computer Science - Robotics, K.4.m, I.2.9
Abstract

Public perceptions of Robotics and Artificial Intelligence (RAI) are important in the acceptance, uptake, government regulation and research funding of this technology. Recent research has shown that the public's understanding of RAI can be negative or inaccurate. We believe effective public engagement can help ensure that public opinion is better informed. In this paper, we describe our first iteration of a high throughput in-person public engagement activity. We describe the use of a light touch quiz-format survey instrument to integrate in-the-wild research participation into the engagement, allowing us to probe both the effectiveness of our engagement strategy, and public perceptions of the future roles of robots and humans working in dangerous settings, such as in the off-shore energy sector. We critique our methods and share interesting results into generational differences within the public's view of the future of Robotics and AI in hazardous environments. These findings include that older peoples' views about the future of robots in hazardous environments were not swayed by exposure to our exhibit, while the views of younger people were affected by our exhibit, leading us to consider carefully in future how to more effectively engage with and inform older people., Comment: Accepted in HRI 2020, Keywords: Human robot interaction, robotics, artificial intelligence, public engagement, public perceptions of robots, robotics and society

Published
2020
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11. Knowledge formalization for Earth Science informed decision-making: The GEOEssential Knowledge Base.

Author

Mazzetti, Paolo, Nativi, Stefano, Santoro, Mattia, Giuliani, Gregory, Rodila, Denisa, Folino, Antonietta, Caruso, Susie, Aracri, Giovanna, and Lehmann, Anthony

Subjects
EARTH sciences, PRAGMATICS, KNOWLEDGE base, DECISION making, ENVIRONMENTAL literacy, DATA modeling
Abstract

During the past two centuries, the world has undergone deep societal, political, and economical changes that heavily affected human life. The above changes contributed to an increased awareness about the deep impact that policy decisions have at the local and the global level. Therefore, there is a strong need that policy-making and decision-making processes for a sustainable development be based on the best available knowledge about Earth system and environment. The recent advance of information technologies enables running complex models that use the large amount of Earth Observation datasets available. However, data and model interoperability are still limited to the syntactic level allowing to access and process datasets independently of their structural characteristics (data format, coordinate reference systems, service interface, ...) but with no clear reference to their content (the semantic level) and context of use (the pragmatic level). This poses heavy limitations to the reusability of scientific processes and related workflows. The paper presents a general framework to address this issue through the design of a Knowledge Base supporting data and model semantic (and pragmatic) interoperability. In this framework, a general ontology represents the knowledge generation process for policy relevant decision-making, while multiple vocabularies formalize the semantics of data and models, identifying different types of observables, process variables, and indicators/indices. To evaluate the proposed approach to semantic interoperability of data and models, the Knowledge Base has been integrated with an advanced model-sharing framework, and a proof-of-concept has been developed for the assessment of one of the indicators of the Sustainable Development Goals defined by the United Nations. • Earth Observation and Earth Science are essential for environmental decision-making. • Essential Variables play a key role in building environmental scientific processes. • Digital transformations support interoperability of environmental data and models. • Environmental knowledge generation requires addressing semantic and pragmatic aspects. • Knowledge formalization enable transparency and reusability of scientific workflows. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Enhanced thalamo-hippocampal synchronization during focal limbic seizures

Author

Aracri, P, de Curtis, M, Forcaia, G, Uva, L, FORCAIA, GRETA, Aracri, P, de Curtis, M, Forcaia, G, Uva, L, and FORCAIA, GRETA

Abstract

Objective: The key factors that promote the termination of focal seizures have not been fully clarified. The buildup of neuronal synchronization during seizures has been proposed as one of the possible activity-dependent, self-limiting mechanisms. We investigate if increased thalamo-cortical coupling contributes to enhance synchronization during the late phase of focal seizure-like events (SLEs) generated in limbic regions. Methods: Recordings were simultaneously performed in the nucleus reuniens of the thalamus, in the hippocampus and in the entorhinal cortex of the isolated guinea pig brain during focal bicuculline-induced SLEs with low voltage fast activity at onset. Results: Spectral coherence and cross-correlation analysis demonstrated a progressive thalamo-cortical entrainment and synchronization in the generation of bursting activity that characterizes the final part of SLEs. The hippocampus is the first activated structure at the beginning of SLE bursting phase and thalamo-hippocampal synchronization is progressively enhanced as SLE develops. The thalamus takes the lead in generating the bursting discharge as SLE end approaches. Significance: As suggested by clinical studies performed during pre-surgical intracranial monitoring, our data confirm a role of the midline thalamus in leading the synchronous bursting activity at the end of focal seizures in the mesial temporal regions.

Published
2018

17. The role of nicotinic acetylcholine receptors in autosomal dominant nocturnal frontal lobe epilepsy

Author

Becchetti, A, Aracri, P, Meneghini, S, Brusco, S, Amadeo, A, BECCHETTI, ANDREA, ARACRI, PATRIZIA, MENEGHINI, SIMONE, BRUSCO, SIMONE, Amadeo, A., Becchetti, A, Aracri, P, Meneghini, S, Brusco, S, Amadeo, A, BECCHETTI, ANDREA, ARACRI, PATRIZIA, MENEGHINI, SIMONE, BRUSCO, SIMONE, and Amadeo, A.

Abstract

Autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE) is a focal epilepsy with attacks typically arising in the frontal lobe during non-rapid eye movement (NREM) sleep. It is characterized by clusters of complex and stereotyped hypermotor seizures, frequently accompanied by sudden arousals. Cognitive and psychiatric symptoms may be also observed. Approximately 12% of the ADNFLE families carry mutations on genes coding for subunits of the heteromeric neuronal nicotinic receptors (nAChRs). This is consistent with the widespread expression of these receptors, particularly the a4ß2* subtype, in the neocortex and thalamus. However, understanding how mutant nAChRs lead to partial frontal epilepsy is far from being straightforward because of the complexity of the cholinergic regulation in both developing and mature brains. The relation with the sleep-waking cycle must be also explained. We discuss some possible pathogenetic mechanisms in the light of recent advances about the nAChR role in prefrontal regions as well as the studies carried out in murine models of ADNFLE. Functional evidence points to alterations in prefrontal GABA release, and the synaptic unbalance probably arises during the cortical circuit maturation. Although most of the available functional evidence concerns mutations on nAChR subunit genes, other genes have been recently implicated in the disease, such as KCNT1 (coding for a Na+-dependent K+ channel), DEPD5 (Disheveled, Egl-10 and Pleckstrin Domain-containing protein 5), and CRH (Corticotropin-Releasing Hormone). Overall, the uncertainties about both the etiology and the pathogenesis of ADNFLE point to the current gaps in our knowledge the regulation of neuronal networks in the cerebral cortex.

Published
2015

18. Hypocretin (orexin) regulates glutamate input to fast-spiking interneurons in layer V of the Fr2 region of the murine prefrontal cortex

Author

Aracri, P, Banfi, D, Pasini, M, Amadeo, A, Becchetti, A, Pasini, ME, Aracri, P, Banfi, D, Pasini, M, Amadeo, A, Becchetti, A, and Pasini, ME

Abstract

We studied the effect of hypocretin 1 (orexin A) in the frontal area 2 (Fr2) of the murine neocortex, implicated in the motivation-dependent goal-directed tasks. In layer V, hypocretin stimulated the spontaneous excitatory postsynaptic currents (EPSCs) on fast-spiking (FS) interneurons. The effect was accompanied by increased frequency of miniature EPSCs, indicating that hypocretin can target the glutamatergic terminals. Moreover, hypocretin stimulated the spontaneous inhibitory postsynaptic currents (IPSCs) on pyramidal neurons, with no effect on miniature IPSCs. This action was prevented by blocking 1) the ionotropic glutamatergic receptors; 2) the hypocretin receptor type 1 (HCRTR-1), with SB-334867. Finally, hypocretin increased the firing frequency in FS cells, and the effect was blocked when the ionotropic glutamate transmission was inhibited. Immunolocalization confirmed that HCRTR-1 is highly expressed in Fr2, particularly in layer V-VI. Conspicuous labeling was observed in pyramidal neuron somata and in VGLUT1+ glutamatergic terminals, but not in VGLUT2+ fibers (mainly thalamocortical afferents). The expression of HCRTR-1 in GABAergic structures was scarce. We conclude that 1) hypocretin regulates glutamate release in Fr2; 2) the effect presents a presynaptic component; 3) the peptide control of FS cells is indirect, and probably mediated by the regulation of glutamatergic input onto these cells.

Published
2015

20. Ion Channels and Transporters

Author

Bell, E, Bond, JS, Klinman, JP, Siler Masters BS, Wells, RD, Becchetti, A, Aracri, P, BECCHETTI, ANDREA, ARACRI, PATRIZIA, Bell, E, Bond, JS, Klinman, JP, Siler Masters BS, Wells, RD, Becchetti, A, Aracri, P, BECCHETTI, ANDREA, and ARACRI, PATRIZIA

Published
2014

24. Na+-activated K+ current contributes to postexcitatory hyperpolarization in neocortical intrinsically bursting neurons

Author

Franceschetti, S, Lavazza, T, Curia, G, Aracri, P, Panzica, F, Sancini, G, Avanzini, G, Magistretti, J, ARACRI, PATRIZIA, Magistretti, J., SANCINI, GIULIO ALFREDO, Franceschetti, S, Lavazza, T, Curia, G, Aracri, P, Panzica, F, Sancini, G, Avanzini, G, Magistretti, J, ARACRI, PATRIZIA, Magistretti, J., and SANCINI, GIULIO ALFREDO

Abstract

The ionic mechanisms underlying the termination of action-potential (AP) bursts and postburst afterhyperpolarization (AHP) in intrinsically bursting (IB) neocortical neurons were investigated by performing intracellular recordings in thin slices of rat sensorimotor cortex. The blockade of Ca(2+)-activated K(+) currents enhanced postburst depolarizing afterpotentials, but had inconsistent and minor effects on the amplitude and duration of AHPs. On the contrary, experimental conditions resulting in reduction of voltage-dependent Na(+) entry into the cells caused a significant decrease of AHP amplitude. Slice perfusion with a modified artificial cerebrospinal fluid in which LiCl (40 mM) partially replaced NaCl had negligible effects on the properties of individual APs, whereas it consistently increased burst length and led to an approximately 30% reduction in the amplitude of AHPs following individual bursts or short trains of stimulus-induced APs. Experiments performed by partially replacing Na(+) ions with choline revealed a comparable reduction in AHP amplitude associated with an inhibition of bursting activity. Moreover, in voltage-clamp experiments carried out in both in situ and acutely isolated neurons, partial substitution of extracellular NaCl with LiCl significantly and reversibly reduced the amplitude of K(+) currents evoked by depolarizing stimuli above-threshold for Na(+)-current activation. The above effect of Na(+)-to-Li(+) substitution was not seen when voltage-gated Na(+) currents were blocked with TTX, indicating the presence of a specific K(+)-current component activated by voltage-dependent Na(+) (but not Li(+)) influx. The above findings suggest that a Na(+)-activated K(+) current recruited by the Na(+) entry secondary to burst discharge significantly contributes to AHP generation and the maintenance of rhythmic burst recurrence during sustained depolarizations in neocortical IB neurons.

Published
2003

26. Trials of an autonomous profiling buoy system

Author

Aracri, S., Borghini, M., Canesso, D., Chiggiato, J., Durante, S., Schroeder, K., Sparnocchia, S., Vetrano, A., Honda, T., Kitawaza, Y., Kawahara, H., and Nakamura, T.

Abstract

ABSTRACTIn June 2013 the Institute of Marine Sciences of the National Research Council of Italy (CNR-ISMAR) started the test phase of one of the few Mediterranean autonomous profiling systems, produced by NiGK Corporation, installed in a mooring configuration, transmitting daily hydrological vertical profiles in real time through satellite communication. The selected site is the Corsica Channel, a narrow passage between the Corsica and Capraia islands connecting the two main regions of the western Mediterranean: the Tyrrhenian and the Liguro-Provençal basins. During the test phase of this new instrument a continuous monitoring of the upper 181 m of the water column was performed, with more than 90% of successful satellite transmissions. The high-quality data received have been processed and analysed. The data collected confirmed our previous hydrological knowledge of the Corsica Channel, allowing us to observe in real time the variable and significant behaviour of the channel.

Published
2016
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27. The RITMARE Italian Fixed-Point Observatory Network (IFON) for marine environmental monitoring: a case study

Author

Ravaioli, M., Bergami, C., Riminucci, F., Langone, L., Cardin, V., Di Sarra, A., Aracri, S., Bastianini, M., Bensi, M., Bergamasco, A., Bommarito, C., Borghini, M., Bortoluzzi, G., Bozzano, R., Cantoni, C., Chiggiato, J., Crisafi, E., D'Adamo, R., Durante, S., Fanara, C., Grilli, F., Lipizer, M., Marini, M., Miserocchi, S., Paschini, E., Penna, P., Pensieri, S., Pugnetti, A., Raicich, F., Schroeder, K., Siena, G., Specchiulli, A., Stanghellini, G., Vetrano, A., and Crise, A.

Abstract

ABSTRACTThe Italian Fixed-Point Observatory Network (IFON) integrates well-established coastal and ocean infrastructures (buoys, platforms, moorings, mast platforms, etc.), most of them providing real-time multidisciplinary monitoring for a number of marine and atmospheric variables. Here, we describe the network characteristics and then discuss an example of its operation during the cold spell of winter 2012. One of the goals of the Italian Flagship Project Ricerca Italiana per il mare(RITMARE) is to create a common, validated IFON database able to fulfil both public and private demands, including validation of remotely sensed data and numerical models, environmental planning and management, and time-series analysis of climate and oceanographic data.

Published
2016
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30. Expression of the K-Cl co-transporter KCC2 in cerebral cortex and thalamus during murine postnatal development

Author

Amadeo, A., MARCO FERRARI, Aracri, P., Pasini, M. E., Smondel, S., and Becchetti, A.

Subjects
nervous system
Abstract

In the adult central nervous system GABA mediates fast inhibitory transmission, whereas during development it is an excitatory transmitter and a trophic factor involved in controlling morphogenesis (Ben-Ari, 2002). This funcional shift occurs as a result of a progressively increasing expression of the KCC2 cotransporter, the major chloride extruder in mature neurons. In several pathological conditions associated with hyperexcitability, such as epilepsy, suppression of KCC2 may contribute to alter the balance of excitation and inhibition (Chamma et al., 2012), especially during neural circuit formation. On these basis we studied the expression of KCC2 in two representative areas of neocortex, somatosensory and prefrontal (PFC), and in the dorsal thalamus, at different postnatal stages by western blot and immunocytochemical analysis. Our results show conspicuous expression of KCC2 at postnatal day 0 (P0) in the neuropil of thalamic nuclei, except the reticular nucleus. Lower expression is observed in cortical areas, with PFC displaying the lowest signal. In the first postnatal week, KCC2 is mainly localized in the cell bodies of cortical GABAergic neurons and pyramidal cells. After P7, it is gradually distributed in the membranes of the whole somatodendritic compartment, becoming prevalent in the neuropil by P14. In the adult cortices an intense labelling for KCC2 is observed in the supragranular layers if compared with the moderate expression of layer V; in the thalamus the anterior and sensory nuclear groups show the highest immunoreactivity. Overall, our results suggest a complex spatiotemporal pattern of KCC2 expression in the murine prosencephalon that needs to be related not only with inhibitory transmission but also with the different arrangements of neuronal circuits in cortical and thalamic subregions., Italian Journal of Anatomy and Embryology, Vol 118, No 2 (Supplement) 2013

36. Postnatal Changes in K+/Cl- Cotransporter-2 Expression in the Forebrain of Mice Bearing a Mutant Nicotinic Subunit Linked to Sleep-Related Epilepsy

Author

Laura Carraresi, Andrea Becchetti, Patrizia Aracri, Maria Enrica Pasini, Simone Brusco, Annarosa Arcangeli, Aurora Coatti, Simone Meneghini, Miriam Ascagni, Debora Modena, Davide Iannantuoni, Alida Amadeo, Amadeo, A, Coatti, A, Aracri, P, Ascagni, M, Iannantuoni, D, Modena, D, Carraresi, L, Brusco, S, Meneghini, S, Arcangeli, A, Pasini, M, and Becchetti, A

Subjects
0301 basic medicine, medicine.medical_specialty, Reticular thalamic, KCC2, Synaptogenesis, Prefrontal cortex, 03 medical and health sciences, 0302 clinical medicine, β2-V287L, GABAergic switch, BIO/09 - FISIOLOGIA, Internal medicine, medicine, Neuropil, ADNFLE, prefrontal cortex, reticular thalamic, Neocortex, Chemistry, General Neuroscience, Somatodendritic compartment, Nicotinic acetylcholine receptor, 030104 developmental biology, Nicotinic agonist, medicine.anatomical_structure, Endocrinology, nervous system, Forebrain, Cotransporter, 030217 neurology & neurosurgery
Abstract

The Na+/K+/Cl- cotransporter-1 (NKCC1) and the K+/Cl- cotransporter-2 (KCC2) set the transmembrane Cl- gradient in the brain, and are implicated in epileptogenesis. We studied the postnatal distribution of NKCC1 and KCC2 in wild-type (WT) mice, and in a mouse model of sleep-related epilepsy, carrying the mutant β2-V287L subunit of the nicotinic acetylcholine receptor (nAChR). In WT neocortex, immunohistochemistry showed a wide distribution of NKCC1 in neurons and astrocytes. At birth, KCC2 was localized in neuronal somata, whereas at subsequent stages it was mainly found in the somatodendritic compartment. The cotransporters' expression was quantified by densitometry in the transgenic strain. KCC2 expression increased during the first postnatal weeks, while the NKCC1 amount remained stable, after birth. In mice expressing β2-V287L, the KCC2 amount in layer V of prefrontal cortex (PFC) was lower than in the control littermates at postnatal day 8 (P8), with no concomitant change in NKCC1. Consistently, the GABAergic excitatory to inhibitory switch was delayed in PFC layer V of mice carrying β2-V287L. At P60, the amount of KCC2 was instead higher in mice bearing the transgene. Irrespective of genotype, NKCC1 and KCC2 were abundantly expressed in the neuropil of most thalamic nuclei since birth. However, KCC2 expression decreased by P60 in the reticular nucleus, and more so in mice expressing β2-V287L. Therefore, a complex regulatory interplay occurs between heteromeric nAChRs and KCC2 in postnatal forebrain. The pathogenetic effect of β2-V287L may depend on altered KCC2 amounts in PFC during synaptogenesis, as well as in mature thalamocortical circuits.

Published
2018

37. Hypocretin (Orexin) Regulates Glutamate Input to Fast-Spiking Interneurons in Layer V of the Fr2 Region of the Murine Prefrontal Cortex

Author

Patrizia Aracri, Daniele Banfi, Andrea Becchetti, Alida Amadeo, Maria Enrica Pasini, Aracri, P, Banfi, D, Pasini, M, Amadeo, A, and Becchetti, A

Subjects
Patch-Clamp Techniques, Cognitive Neuroscience, fast-spiking, HCRTR, Glutamic Acid, Prefrontal Cortex, Mice, Inbred Strains, Neurotransmission, Biology, Receptors, Ionotropic Glutamate, Inhibitory postsynaptic potential, Synaptic Transmission, fast-spiking, HCRTR, OXR1, premotor, SB-334867, VGLUT, Tissue Culture Techniques, Mice, Cellular and Molecular Neuroscience, Glutamatergic, SB-334867, BIO/09 - FISIOLOGIA, Interneurons, Orexin Receptors, mental disorders, Animals, Urea, Naphthyridines, Benzoxazoles, Orexins, Pyramidal Cells, OXR1, Glutamate receptor, Excitatory Postsynaptic Potentials, Neural Inhibition, Articles, Orexin receptor, Electrophysiology, premotor, Inhibitory Postsynaptic Potentials, nervous system, Vesicular Glutamate Transport Protein 1, Vesicular Glutamate Transport Protein 2, Excitatory postsynaptic potential, Orexin Receptor Antagonists, VGLUT, Neuroscience, Ionotropic effect
Abstract

We studied the effect of hypocretin 1 (orexin A) in the frontal area 2 (Fr2) of the murine neocortex, implicated in the motivation-dependent goal-directed tasks. In layer V, hypocretin stimulated the spontaneous excitatory postsynaptic currents (EPSCs) on fast-spiking (FS) interneurons. The effect was accompanied by increased frequency of miniature EPSCs, indicating that hypocretin can target the glutamatergic terminals. Moreover, hypocretin stimulated the spontaneous inhibitory postsynaptic currents (IPSCs) on pyramidal neurons, with no effect on miniature IPSCs. This action was prevented by blocking 1) the ionotropic glutamatergic receptors; 2) the hypocretin receptor type 1 (HCRTR-1), with SB-334867. Finally, hypocretin increased the firing frequency in FS cells, and the effect was blocked when the ionotropic glutamate transmission was inhibited. Immunolocalization confirmed that HCRTR-1 is highly expressed in Fr2, particularly in layer V-VI. Conspicuous labeling was observed in pyramidal neuron somata and in VGLUT1+ glutamatergic terminals, but not in VGLUT2+ fibers (mainly thalamocortical afferents). The expression of HCRTR-1 in GABAergic structures was scarce. We conclude that 1) hypocretin regulates glutamate release in Fr2; 2) the effect presents a presynaptic component; 3) the peptide control of FS cells is indirect, and probably mediated by the regulation of glutamatergic input onto these cells.

Published
2013
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38. The role of nicotinic acetylcholine receptors in autosomal dominant nocturnal frontal lobe epilepsy

Author

Simone Meneghini, Andrea Becchetti, Patrizia Aracri, Simone Brusco, Alida Amadeo, Becchetti, A, Aracri, P, Meneghini, S, Brusco, S, and Amadeo, A

Subjects
medicine.medical_specialty, Physiology, KCC2, Autosomal dominant nocturnal frontal lobe epilepsy, Review Article, M2, Biology, nAChR, lcsh:Physiology, Epilepsy, GABA, CHRNB2, BIO/09 - FISIOLOGIA, Physiology (medical), medicine, nicotinic acetylcholine receptor, Prefrontal cortex, Psychiatry, prefrontal cortex, Neocortex, lcsh:QP1-981, medicine.disease, Nicotinic acetylcholine receptor, medicine.anatomical_structure, Nicotinic agonist, CHRNA2, Frontal lobe, Cerebral cortex, CHRNA4, sleep-related epilepsy, ADNFLE, Neuroscience
Abstract

Autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE) is a focal epilepsy with attacks typically arising in the frontal lobe during non-rapid eye movement (NREM) sleep. It is characterized by clusters of complex and stereotyped hypermotor seizures, frequently accompanied by sudden arousals. Cognitive and psychiatric symptoms may be also observed. Approximately 12% of the ADNFLE families carry mutations on genes coding for subunits of the heteromeric neuronal nicotinic receptors (nAChRs). This is consistent with the widespread expression of these receptors, particularly the α4β2(*) subtype, in the neocortex and thalamus. However, understanding how mutant nAChRs lead to partial frontal epilepsy is far from being straightforward because of the complexity of the cholinergic regulation in both developing and mature brains. The relation with the sleep-waking cycle must be also explained. We discuss some possible pathogenetic mechanisms in the light of recent advances about the nAChR role in prefrontal regions as well as the studies carried out in murine models of ADNFLE. Functional evidence points to alterations in prefrontal GABA release, and the synaptic unbalance probably arises during the cortical circuit maturation. Although most of the available functional evidence concerns mutations on nAChR subunit genes, other genes have been recently implicated in the disease, such as KCNT1 (coding for a Na(+)-dependent K(+) channel), DEPD5 (Disheveled, Egl-10 and Pleckstrin Domain-containing protein 5), and CRH (Corticotropin-Releasing Hormone). Overall, the uncertainties about both the etiology and the pathogenesis of ADNFLE point to the current gaps in our knowledge the regulation of neuronal networks in the cerebral cortex.

Published
2014

39. Ion Channels and Transporters

Author

P Aracri, A Becchetti, Bell, E, Bond, JS, Klinman, JP, Siler Masters BS, Wells, RD, Becchetti, A, and Aracri, P

Subjects
disease, Chemistry, K2P, ligand-gated channel, ion pump, ENaC, Transporter, Nernst, secondary active transporter, biophysic, TRP, BIO/09 - FISIOLOGIA, Biophysics, Chloride channel, Ion channel, voltage gated channels
Published
2014

40. Protein-kinase C-dependent phosphorylation inhibits the effect of the antiepileptic drug topiramate on the persistent fraction of sodium currents

Author

Giuliano Avanzini, Massimo Mantegazza, P Aracri, S. Franceschetti, Giulia Curia, Giulio Sancini, Curia, G, Aracri, P, Sancini, G, Mantegazza, M, Avanzini, G, and Franceschetti, S

Subjects
medicine.medical_specialty, Patch-Clamp Techniques, Diglyceride, Patch-Clamp Technique, Enzyme Activator, medicine.medical_treatment, Cells, Action Potentials, Enzyme Activators, Fructose, Sodium Channels, Rats, Sprague-Dawley, Diglycerides, BIO/09 - FISIOLOGIA, Topiramate, Internal medicine, Anticonvulsant, medicine, Animals, Patch clamp, Action Potential, Phosphorylation, Anticonvulsants, Cell Membrane, Cells, Cultured, Cerebral Cortex, Neurons, Protein Kinase C, Rats, Protein kinase C, Cultured, Animal, Chemistry, musculoskeletal, neural, and ocular physiology, General Neuroscience, Sodium channel, Neuron, Nap, medicine.anatomical_structure, Endocrinology, Cerebral cortex, Biophysics, Rat, Sprague-Dawley, Sodium Channel, Intracellular
Abstract

We investigated the interference of protein-kinase C (PKC)-dependent Na + channel phosphorylation on the inhibitory effect that the antiepileptic drug topiramate (TPM) has on persistent Na + currents (I NaP ) by making whole cell patch-clamp and intracellular recordings of rat sensorimotor cortex neurons. The voltage-dependent activation of I NaP was significantly shifted in the hyperpolarizing direction when PKC was activated by 1-oleoyl-2-acetyl- sn -glycerol (OAG). TPM reduced the peak amplitude of I NaP , but it did not counteract the OAG-induced shift in I NaP activation. Firing property experiments showed that the firing threshold was lowered by OAG. TPM was unable to counteract this effect, which may be due to OAG-dependent enhancement of the contribution of subthreshold I NaP . These data suggest that PKC activation may limit the effect of the anticonvulsant TPM on the persistent fraction of Na + currents. The channel phosphorylation that may occur in cortical neurons as a result of physiological or pathological (e.g. epileptic) events can modulate the action of TPM on Na + currents.

Published
2004

41. Na+-activated K+ current contributes to postexcitatory hyperpolarization in neocortical intrinsically bursting neurons

Author

Giulio Sancini, Silvana Franceschetti, Giuliano Avanzini, P Aracri, Jacopo Magistretti, Ferruccio Panzica, T Lavazza, Giulia Curia, Franceschetti, S, Lavazza, T, Curia, G, Aracri, P, Panzica, F, Sancini, G, Avanzini, G, and Magistretti, J

Subjects
Periodicity, Patch-Clamp Techniques, Potassium Channels, Antimanic Agent, Physiology, Patch-Clamp Technique, Action Potentials, Rats sprague dawley, Choline, Rats, Sprague-Dawley, Bursting, Potassium Channels, Calcium-Activated, BIO/09 - FISIOLOGIA, Antimanic Agents, medicine, Animals, Calcium, Cerebral Cortex, Lithium Chloride, Nootropic Agents, Potassium, Pyramidal Cells, Rats, Sodium, Patch clamp, Action Potential, Chemistry, Animal, Nootropic Agent, General Neuroscience, Afterhyperpolarization, Hyperpolarization (biology), Potassium channel, Sprague dawley, Calcium-Activated, medicine.anatomical_structure, Cerebral cortex, Rat, Sprague-Dawley, Neuroscience
Abstract

The ionic mechanisms underlying the termination of action-potential (AP) bursts and postburst afterhyperpolarization (AHP) in intrinsically bursting (IB) neocortical neurons were investigated by performing intracellular recordings in thin slices of rat sensorimotor cortex. The blockade of Ca2+-activated K+currents enhanced postburst depolarizing afterpotentials, but had inconsistent and minor effects on the amplitude and duration of AHPs. On the contrary, experimental conditions resulting in reduction of voltage-dependent Na+ entry into the cells caused a significant decrease of AHP amplitude. Slice perfusion with a modified artificial cerebrospinal fluid in which LiCl (40 mM) partially replaced NaCl had negligible effects on the properties of individual APs, whereas it consistently increased burst length and led to an approximately 30% reduction in the amplitude of AHPs following individual bursts or short trains of stimulus-induced APs. Experiments performed by partially replacing Na+ ions with choline revealed a comparable reduction in AHP amplitude associated with an inhibition of bursting activity. Moreover, in voltage-clamp experiments carried out in both in situ and acutely isolated neurons, partial substitution of extracellular NaCl with LiCl significantly and reversibly reduced the amplitude of K+ currents evoked by depolarizing stimuli above-threshold for Na+-current activation. The above effect of Na+-to-Li+substitution was not seen when voltage-gated Na+ currents were blocked with TTX, indicating the presence of a specific K+-current component activated by voltage-dependent Na+ (but not Li+) influx. The above findings suggest that a Na+-activated K+ current recruited by the Na+ entry secondary to burst discharge significantly contributes to AHP generation and the maintenance of rhythmic burst recurrence during sustained depolarizations in neocortical IB neurons.

Published
2003

42. α4β2∗ nicotinic receptors stimulate GABA release onto fast-spiking cells in layer V of mouse prefrontal (Fr2) cortex

Author

Simone Meneghini, Alida Amadeo, Patrizia Aracri, Aurora Coatti, Andrea Becchetti, Aracri, P, Meneghini, S, Coatti, A, Amadeo, A, and Becchetti, A

Subjects
0301 basic medicine, Male, PFC, KS, Kolmogorov–Smirnov, Aging, Patch-Clamp Techniques, Receptors, Nicotinic, AHP, after-hyperpolarization, Tissue Culture Techniques, chemistry.chemical_compound, DHβE, dihydro-β-erythroidine, Mice, 0302 clinical medicine, PFC, prefrontal cortex, BIO/09 - FISIOLOGIA, parvalbumin, mIPSC, miniature IPSC, AP5, d(−)-2-amino-5-phosphono-pentanoic acid, PV, parvalbumin, ADNFLE, autosomal dominant nocturnal frontal lobe epilepsy, gamma-Aminobutyric Acid, Neurons, education.field_of_study, Neurotransmitter Agents, Microscopy, Confocal, biology, Chemistry, General Neuroscience, musculoskeletal, neural, and ocular physiology, Miniature Postsynaptic Potentials, Glutamate receptor, Fr2, frontal area 2, DF, degrees of freedom, Rin, input resistance, Immunohistochemistry, Nicotinic agonist, medicine.anatomical_structure, Parvalbumins, VGAT, vesicular GABA transporter, IPSC, Female, Ionotropic effect, Interneuron, MLA, methyllycaconitine, Neuroscience(all), Population, Prefrontal Cortex, interneuron, somatostatin, Inhibitory postsynaptic potential, Article, 03 medical and health sciences, PBS, phosphate buffered saline, heteromeric nAChR, medicine, Animals, TTX, tetrodotoxin, education, 5-IA, 5-iodo-3-[2(S)-azetidinylmethoxy]pyridine, NS, not significantly different, Methyllycaconitine, ACh, acetylcholine, IPSC, inhibitory postsynaptic current, Vrest, resting membrane potential, nAChR, nicotinic acetylcholine receptor, CNQX, 6-cyano-7-nitroquinoxaline-2,3-dione, heteromeric nAChR, interneuron, IPSC, parvalbumin, PFC, somatostatin, 030104 developmental biology, Inhibitory Postsynaptic Potentials, nervous system, biology.protein, SOM, somatostatin, BSA, bovine serum albumin, FS, fast-spiking, sense organs, AP, action potential, Neuroscience, 030217 neurology & neurosurgery, Parvalbumin
Abstract

Highlights • α4β2∗ nAChRs stimulate IPSCs in FS interneurons, in layer V of the mouse PFC (Fr2). • In P16–P63 mice, nicotine increased both IPSC and mIPSC frequencies. • GABAergic terminals adjacent to PV+ cells expressed α4 nAChR. • The percentage of FS cells with somatic α4β2∗ currents decreased with age. • Hence, nAChRs may be able to induce local circuit disinhibition in Fr2 PFC., Nicotinic acetylcholine receptors (nAChRs) produce widespread and complex effects on neocortex excitability. We studied how heteromeric nAChRs regulate inhibitory post-synaptic currents (IPSCs), in fast-spiking (FS) layer V neurons of the mouse frontal area 2 (Fr2). In the presence of blockers of ionotropic glutamate receptors, tonic application of 10 μM nicotine augmented the spontaneous IPSC frequency, with minor alterations of amplitudes and kinetics. These effects were studied since the 3rd postnatal week, and persisted throughout the first two months of postnatal life. The action of nicotine was blocked by 1 μM dihydro-β-erythroidine (DHβE; specific for α4∗ nAChRs), but not 10 nM methyllycaconitine (MLA; specific for α7∗ nAChRs). It was mimicked by 10 nM 5-iodo-3-[2(S)-azetidinylmethoxy]pyridine (5-IA; which activates β2∗ nAChRs). Similar results were obtained on miniature IPSCs (mIPSCs). Moreover, during the first five postnatal weeks, approximately 50% of FS cells displayed DHβE-sensitive whole-cell nicotinic currents. This percentage decreased to ∼5% in mice older than P45. By confocal microscopy, the α4 nAChR subunit was immunocytochemically identified on interneurons expressing either parvalbumin (PV), which mainly labels FS cells, or somatostatin (SOM), which labels the other major interneuron population in layer V. GABAergic terminals expressing α4 were observed to be juxtaposed to PV-positive (PV+) cells. A fraction of these terminals displayed PV immunoreactivity. We conclude that α4β2∗ nAChRs can produce sustained regulation of FS cells in Fr2 layer V. The effect presents a presynaptic component, whereas the somatic regulation decreases with age. These mechanisms may contribute to the nAChR-dependent stimulation of excitability during cognitive tasks as well as to the hyperexcitability caused by hyperfunctional heteromeric nAChRs in sleep-related epilepsy.

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43. Mapping region-specific seizure-like patterns in the in vitro isolated guinea pig brain.

Author

Uva L, Aracri P, Forcaia G, and de Curtis M

Subjects
Animals, Bicuculline toxicity, Brain drug effects, Electroencephalography methods, Female, Guinea Pigs, Organ Culture Techniques, Seizures chemically induced, Brain physiopathology, Brain Mapping methods, Seizures physiopathology
Abstract

Specific neurophysiological seizure patterns in patients with focal epilepsy depend on cerebral location and the underlying neuropathology. Location-specific patterns have been also reported in experimental models. Two focal seizure patterns, named p-type and l-type, typical of neocortical and mesial temporal regions were identified in both patients explored with intracerebral EEG and in animal models. These two patterns were recorded in the olfactory regions and in the entorhinal cortex after either 4AP or BMI administration. Here we mapped epileptiform activities in other cortices to verify the existence of specific epileptiform patterns. Field potentials were simultaneously recorded at multiple locations in olfactory, limbic and neocortical regions of the isolated guinea pig brain after arterial administration of either 4AP or BMI. Most neocortical areas did not generate new distinctive focal seizure-like event (SLE), beside the p-type and l-type patterns. Spiking activity was typically recorded after BMI in all new analyzed regions, whereas SLEs were commonly observed during 4AP perfusion. We confirmed the presence of reproducible region-specific epileptiform patterns in all explored cortical areas and demonstrated that strongly inter-connected areas generate similar SLEs. Our study suggests that p- and l-type SLE represent the most common focal seizure patterns during acute manipulations with pro-epileptic compounds., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2021
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44. Enhanced thalamo-hippocampal synchronization during focal limbic seizures.

Author

Aracri P, de Curtis M, Forcaia G, and Uva L

Subjects
Action Potentials physiology, Analysis of Variance, Animals, Disease Models, Animal, Female, Guinea Pigs, Hippocampus pathology, Midline Thalamic Nuclei pathology, Neurons physiology, Patch-Clamp Techniques, Seizures physiopathology, Hippocampus physiopathology, Midline Thalamic Nuclei physiopathology, Neural Pathways physiopathology, Seizures pathology
Abstract

Objective: The key factors that promote the termination of focal seizures have not been fully clarified. The buildup of neuronal synchronization during seizures has been proposed as one of the possible activity-dependent, self-limiting mechanisms. We investigate if increased thalamo-cortical coupling contributes to enhance synchronization during the late phase of focal seizure-like events (SLEs) generated in limbic regions., Methods: Recordings were simultaneously performed in the nucleus reuniens of the thalamus, in the hippocampus and in the entorhinal cortex of the isolated guinea pig brain during focal bicuculline-induced SLEs with low voltage fast activity at onset., Results: Spectral coherence and cross-correlation analysis demonstrated a progressive thalamo-cortical entrainment and synchronization in the generation of bursting activity that characterizes the final part of SLEs. The hippocampus is the first activated structure at the beginning of SLE bursting phase and thalamo-hippocampal synchronization is progressively enhanced as SLE develops. The thalamus takes the lead in generating the bursting discharge as SLE end approaches., Significance: As suggested by clinical studies performed during pre-surgical intracranial monitoring, our data confirm a role of the midline thalamus in leading the synchronous bursting activity at the end of focal seizures in the mesial temporal regions., (Wiley Periodicals, Inc. © 2018 International League Against Epilepsy.)

Published
2018
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45. Postnatal Changes in K + /Cl - Cotransporter-2 Expression in the Forebrain of Mice Bearing a Mutant Nicotinic Subunit Linked to Sleep-Related Epilepsy.

Author

Amadeo A, Coatti A, Aracri P, Ascagni M, Iannantuoni D, Modena D, Carraresi L, Brusco S, Meneghini S, Arcangeli A, Pasini ME, and Becchetti A

Subjects
Animals, Animals, Newborn, Epilepsy genetics, Female, Gene Expression, Male, Mice, Mice, Transgenic, Mutation physiology, Neocortex metabolism, Protein Subunits genetics, Protein Subunits metabolism, Receptors, Nicotinic genetics, Solute Carrier Family 12, Member 2 genetics, Symporters genetics, Thalamus metabolism, K Cl- Cotransporters, Epilepsy metabolism, Prosencephalon metabolism, Receptors, Nicotinic metabolism, Sleep physiology, Solute Carrier Family 12, Member 2 biosynthesis, Symporters biosynthesis
Abstract

The Na + /K + /Cl - cotransporter-1 (NKCC1) and the K + /Cl - cotransporter-2 (KCC2) set the transmembrane Cl - gradient in the brain, and are implicated in epileptogenesis. We studied the postnatal distribution of NKCC1 and KCC2 in wild-type (WT) mice, and in a mouse model of sleep-related epilepsy, carrying the mutant β2-V287L subunit of the nicotinic acetylcholine receptor (nAChR). In WT neocortex, immunohistochemistry showed a wide distribution of NKCC1 in neurons and astrocytes. At birth, KCC2 was localized in neuronal somata, whereas at subsequent stages it was mainly found in the somatodendritic compartment. The cotransporters' expression was quantified by densitometry in the transgenic strain. KCC2 expression increased during the first postnatal weeks, while the NKCC1 amount remained stable, after birth. In mice expressing β2-V287L, the KCC2 amount in layer V of prefrontal cortex (PFC) was lower than in the control littermates at postnatal day 8 (P8), with no concomitant change in NKCC1. Consistently, the GABAergic excitatory to inhibitory switch was delayed in PFC layer V of mice carrying β2-V287L. At P60, the amount of KCC2 was instead higher in mice bearing the transgene. Irrespective of genotype, NKCC1 and KCC2 were abundantly expressed in the neuropil of most thalamic nuclei since birth. However, KCC2 expression decreased by P60 in the reticular nucleus, and more so in mice expressing β2-V287L. Therefore, a complex regulatory interplay occurs between heteromeric nAChRs and KCC2 in postnatal forebrain. The pathogenetic effect of β2-V287L may depend on altered KCC2 amounts in PFC during synaptogenesis, as well as in mature thalamocortical circuits., (Copyright © 2018 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published
2018
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46. The role of nicotinic acetylcholine receptors in autosomal dominant nocturnal frontal lobe epilepsy.

Author

Becchetti A, Aracri P, Meneghini S, Brusco S, and Amadeo A

Abstract

Autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE) is a focal epilepsy with attacks typically arising in the frontal lobe during non-rapid eye movement (NREM) sleep. It is characterized by clusters of complex and stereotyped hypermotor seizures, frequently accompanied by sudden arousals. Cognitive and psychiatric symptoms may be also observed. Approximately 12% of the ADNFLE families carry mutations on genes coding for subunits of the heteromeric neuronal nicotinic receptors (nAChRs). This is consistent with the widespread expression of these receptors, particularly the α4β2(*) subtype, in the neocortex and thalamus. However, understanding how mutant nAChRs lead to partial frontal epilepsy is far from being straightforward because of the complexity of the cholinergic regulation in both developing and mature brains. The relation with the sleep-waking cycle must be also explained. We discuss some possible pathogenetic mechanisms in the light of recent advances about the nAChR role in prefrontal regions as well as the studies carried out in murine models of ADNFLE. Functional evidence points to alterations in prefrontal GABA release, and the synaptic unbalance probably arises during the cortical circuit maturation. Although most of the available functional evidence concerns mutations on nAChR subunit genes, other genes have been recently implicated in the disease, such as KCNT1 (coding for a Na(+)-dependent K(+) channel), DEPD5 (Disheveled, Egl-10 and Pleckstrin Domain-containing protein 5), and CRH (Corticotropin-Releasing Hormone). Overall, the uncertainties about both the etiology and the pathogenesis of ADNFLE point to the current gaps in our knowledge the regulation of neuronal networks in the cerebral cortex.

Published
2015
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47. Regulation of glutamate release by heteromeric nicotinic receptors in layer V of the secondary motor region (Fr2) in the dorsomedial shoulder of prefrontal cortex in mouse.

Author

Aracri P, Amadeo A, Pasini ME, Fascio U, and Becchetti A

Subjects
Animals, Cerebral Cortex cytology, Cerebral Cortex metabolism, Gene Expression, Interneurons metabolism, Interneurons physiology, Mice, Nicotine pharmacology, Nicotinic Agonists pharmacology, Nicotinic Antagonists pharmacology, Post-Synaptic Density metabolism, Post-Synaptic Density physiology, Pyramidal Cells metabolism, Pyramidal Cells physiology, Receptors, Nicotinic genetics, Vesicular Glutamate Transport Protein 1 genetics, Vesicular Glutamate Transport Protein 1 metabolism, Vesicular Glutamate Transport Protein 2 genetics, Vesicular Glutamate Transport Protein 2 metabolism, Cerebral Cortex physiology, Excitatory Postsynaptic Potentials drug effects, Glutamic Acid metabolism, Receptors, Nicotinic metabolism
Abstract

We studied how nicotinic acetylcholine receptors (nAChRs) regulate glutamate release in the secondary motor area (Fr2) of the dorsomedial murine prefrontal cortex, in the presence of steady agonist levels. Fr2 mediates response to behavioral situations that require immediate attention and is a candidate for generating seizures in the frontal epilepsies caused by mutant nAChRs. Morphological analysis showed a peculiar chemoarchitecture and laminar distribution of pyramidal cells and interneurons. Tonic application of 5 µM nicotine on Layer V pyramidal neurons strongly increased the frequency of spontaneous glutamatergic excitatory postsynaptic currents. The effect was inhibited by 1 µM dihydro-β-erythroidine (which blocks α4-containing nAChRs) but not by 10 nM methyllicaconitine (which blocks α7-containing receptors). Excitatory postsynaptic currents s were also stimulated by 5-iodo-3-[2(S)-azetidinylmethoxy]pyridine, selective for β2-containing receptors, in a dihydro-β-erythroidine -sensitive way. We next studied the association of α4 with different populations of glutamatergic terminals, by using as markers the vesicular glutamate transporter type (VGLUT) 1 for corticocortical synapses and VGLUT2 for thalamocortical projecting fibers. Immunoblots showed higher expression of α4 in Fr2, as compared with the somatosensory cortex. Immunofluorescence showed intense VGLUT1 staining throughout the cortical layers, whereas VGLUT2 immunoreactivity displayed a more distinct laminar distribution. In Layer V, colocalization of α4 nAChR subunit with both VGLUT1 and VGLUT2 was considerably stronger in Fr2 than in somatosensory cortex. Thus, in Fr2, α4β2 nAChRs are expressed in both intrinsic and extrinsic glutamatergic terminals and give a major contribution to control glutamate release in Layer V, in the presence of tonic agonist levels., (Copyright © 2013 Wiley Periodicals, Inc.)

Published
2013
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48. Tonic modulation of GABA release by nicotinic acetylcholine receptors in layer V of the murine prefrontal cortex.

Author

Aracri P, Consonni S, Morini R, Perrella M, Rodighiero S, Amadeo A, and Becchetti A

Subjects
6-Cyano-7-nitroquinoxaline-2,3-dione pharmacology, Animals, Animals, Newborn, Biophysics, Choline O-Acetyltransferase metabolism, Electric Stimulation, Excitatory Amino Acid Antagonists pharmacology, Glutamate Decarboxylase metabolism, In Vitro Techniques, Inhibitory Postsynaptic Potentials drug effects, Inhibitory Postsynaptic Potentials physiology, Lysine analogs & derivatives, Lysine metabolism, Mice, Microscopy, Confocal methods, Microscopy, Electron, Transmission methods, Neurons drug effects, Neurons metabolism, Patch-Clamp Techniques methods, Prefrontal Cortex cytology, Prefrontal Cortex drug effects, Valine analogs & derivatives, Valine pharmacology, Vesicular Acetylcholine Transport Proteins metabolism, Prefrontal Cortex metabolism, Receptors, Nicotinic physiology, gamma-Aminobutyric Acid metabolism
Abstract

By regulating the neocortical excitability, nicotinic acetylcholine receptors (nAChRs) control vigilance and cognition and are implicated in epileptogenesis. Modulation of gamma-aminobutyric acid (GABA) release often accompanies these processes. We studied how nAChRs regulate GABAergic transmission in the murine neocortex with immunocytochemical and patch-clamp methods. The cholinergic fibers densely innervated the somatosensory, visual, motor, and prefrontal cortices (PFC). Laminar distribution was broadly homogeneous, especially in the PFC. The cholinergic terminals were often adjacent to the soma and dendrites of GABAergic interneurons, but well-differentiated synapses were rare. Tonically applied nicotine (1-100 microM) increased the frequency of spontaneous GABAergic inhibitory postsynaptic currents (IPSCs) on pyramidal neurons in PFC layer V. The contribution of nAChR types was assessed by using 1 microM dihydro-beta-erythroidine (DHbetaE), to block heteromeric nAChRs, and 10 nM methyllycaconitine (MLA), to block homomeric nAChRs. Both inhibitors antagonized the effect of nicotine on IPSCs, suggesting that mixed nAChR types control pyramidal neuron inhibition in layer V. To determine whether nAChRs are expressed on basket cells' terminals, we studied miniature IPSCs (mIPSCs). These were revealed using 0.5 microM tetrodotoxin and 50 microM Cd(2+) to isolate the GABAergic terminals from the action potential drive. The nicotinic stimulation of mIPSCs was antagonized by DHbetaE, but not MLA, indicating that heteromeric nAChRs prevail in GABAergic terminals. Immunocytochemistry confirmed the expression of nAChRs on basket cells' somata and terminals. Finally, when the ionotropic glutamatergic transmission was blocked, nicotine partially inhibited the IPSCs, an effect counteracted by both DHbetaE and MLA. Therefore, a fraction of nAChRs are capable of activating GABAergic interneurons that in turn inhibit other GABAergic interneurons, thereby reducing the IPSCs. We conclude that heteromeric nAChRs control GABA release presynaptically, whereas mixed nAChRs regulate both excitation and inhibition of interneurons, the balance depending on the overall glutamatergic drive.

Published
2010
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49. Na+-activated K+ current contributes to postexcitatory hyperpolarization in neocortical intrinsically bursting neurons.

Author

Franceschetti S, Lavazza T, Curia G, Aracri P, Panzica F, Sancini G, Avanzini G, and Magistretti J

Subjects
Action Potentials drug effects, Action Potentials physiology, Animals, Antimanic Agents pharmacology, Calcium pharmacology, Cerebral Cortex physiology, Choline pharmacology, Lithium Chloride pharmacology, Nootropic Agents pharmacology, Patch-Clamp Techniques, Periodicity, Rats, Rats, Sprague-Dawley, Cerebral Cortex cytology, Potassium metabolism, Potassium Channels, Calcium-Activated physiology, Pyramidal Cells physiology, Sodium pharmacokinetics
Abstract

The ionic mechanisms underlying the termination of action-potential (AP) bursts and postburst afterhyperpolarization (AHP) in intrinsically bursting (IB) neocortical neurons were investigated by performing intracellular recordings in thin slices of rat sensorimotor cortex. The blockade of Ca(2+)-activated K(+) currents enhanced postburst depolarizing afterpotentials, but had inconsistent and minor effects on the amplitude and duration of AHPs. On the contrary, experimental conditions resulting in reduction of voltage-dependent Na(+) entry into the cells caused a significant decrease of AHP amplitude. Slice perfusion with a modified artificial cerebrospinal fluid in which LiCl (40 mM) partially replaced NaCl had negligible effects on the properties of individual APs, whereas it consistently increased burst length and led to an approximately 30% reduction in the amplitude of AHPs following individual bursts or short trains of stimulus-induced APs. Experiments performed by partially replacing Na(+) ions with choline revealed a comparable reduction in AHP amplitude associated with an inhibition of bursting activity. Moreover, in voltage-clamp experiments carried out in both in situ and acutely isolated neurons, partial substitution of extracellular NaCl with LiCl significantly and reversibly reduced the amplitude of K(+) currents evoked by depolarizing stimuli above-threshold for Na(+)-current activation. The above effect of Na(+)-to-Li(+) substitution was not seen when voltage-gated Na(+) currents were blocked with TTX, indicating the presence of a specific K(+)-current component activated by voltage-dependent Na(+) (but not Li(+)) influx. The above findings suggest that a Na(+)-activated K(+) current recruited by the Na(+) entry secondary to burst discharge significantly contributes to AHP generation and the maintenance of rhythmic burst recurrence during sustained depolarizations in neocortical IB neurons.

Published
2003
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