{ "labelLang" : "hun", "responseDate" : "2024-03-29 14:35", "content" : { "otype" : "JournalArticle", "mtid" : 31986520, "status" : "VALIDATED", "published" : true, "comment" : "Medical College of Acupuncture-Moxibustion and Rehabilitation, Guangzhou University of Chinese Medicine, Guangzhou, China \n Behavioral Neuroscience Laboratory, The First Affiliated Hospital of Guizhou University of Traditional Chinese Medicine, Guiyang, China \n Department of Neurology, The First Affiliated Hospital of Guizhou University of Traditional Chinese Medicine, Guiyang, China \n Export Date: 26 April 2021 \n Correspondence Address: Tang, C.; Medical College of Acupuncture-Moxibustion and Rehabilitation, China; email: al_totti@sina.com \n Correspondence Address: An, L.; Medical College of Acupuncture-Moxibustion and Rehabilitation, China; email: tangcz@gzucm.edu.cn \n Correspondence Address: An, L.; Behavioral Neuroscience Laboratory, China; email: tangcz@gzucm.edu.cn \n Correspondence Address: An, L.; Department of Neurology, China; email: tangcz@gzucm.edu.cn \n Funding details: National Natural Science Foundation of China, NSFC, 31700929 \n Funding text 1: We are indebted to Dr. Xuan Zhang, Dr. Yang Hu, and Dr. Ling Gao for their technical help in preparation of the revision. Funding. 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true }, "volume" : "15", "internalId" : "594907", "firstPageOrInternalIdForSort" : "594907", "publishedYear" : 2021, "abstractText" : "Considering the cognitive and synaptic deficits following intragastric administration of melamine, the aim of the current investigation was to test whether the hippocampal oscillations were affected. The local field potential (LFP) was recorded in the hippocampal CA3–CA1 pathway of Wistar rats during a spatial-dependent Y-maze task. The general partial directed coherence (gPDC) method was used to assess the directionality of neural information flow (NIF) between the CA3 and CA1 regions. The levels of acetylcholine (ACh) and its esterolytic protease, acetylcholinesterase (AChE), were detected in the hippocampus (HPC) following the behavioral test. The values of phase synchronization between the CA3 and CA1 regions in delta, low theta, and high theta oscillations were reduced significantly in the melamine-treated group. Moreover, the coupling directional index and the strength of CA3 driving CA1 were critically decreased in the above three frequency bands as well. Meanwhile, a reduction in ACh expression and an enhancement in AChE activity were found in the HPC of melamine-treated rats. Intrahippocampal infusion with ACh could mitigate the weakened neural coupling and directional NIF in parallel with spatial learning improvements. However, infusion of scopolamine, an acetylcholine receptor antagonist, could block the mitigative effects of ACh treatment in melamine rats. These findings provide first evidence that ACh-mediated neuronal coupling and NIF in the CA3–CA1 pathway are involved in spatial learning deficits induced by chronic melamine exposure. © Copyright © 2021 Sun, Liu, Tang and An.", "keywords" : [ { "otype" : "Keyword", "mtid" : 1546, "link" : "/api/keyword/1546", "label" : "hippocampus", "published" : true, "oldId" : 1546, "snippet" : true }, { "otype" : "Keyword", "mtid" : 4667, "link" : "/api/keyword/4667", "label" : "ACETYLCHOLINE", "published" : true, "oldId" : 4667, "snippet" : true }, { "otype" : "Keyword", "mtid" : 1057697, "link" : "/api/keyword/1057697", "label" : "Melamine", "published" : true, "oldId" : 1057697, "snippet" : true }, { "otype" : "Keyword", "mtid" : 1150590, "link" : "/api/keyword/1150590", "label" : "Local field potential", "published" : true, "oldId" : 1150590, "snippet" : true }, { "otype" : "Keyword", "mtid" : 2301344, "link" : "/api/keyword/2301344", "label" : "neural information flow", "published" : true, "snippet" : true } ], "digital" : null, "printed" : null, "sourceYear" : 2021, "foreignEdition" : true, "foreignLanguage" : true, "fullPublication" : true, "conferencePublication" : false, "nationalOrigin" : null, "missingAuthor" : false, "oaType" : "GOLD", "oaCheckDate" : "2023-06-16", "oaFree" : false, "oaLink" : "http://www.frontiersin.org/behavioral_neuroscience", "citationCount" : 0, "citationCountUnpublished" : 0, "citationCountWoOther" : 0, "independentCitCountWoOther" : 0, "doiCitationCount" : 0, "wosCitationCount" : 0, "scopusCitationCount" : 0, "independentCitationCount" : 0, "unhandledCitationCount" : 0, "citingPubCount" : 0, "independentCitingPubCount" : 0, "unhandledCitingPubCount" : 0, "citedPubCount" : 1, "citedCount" : 1, "ratings" : [ { "otype" : "SjrRating", "mtid" : 11236125, "link" : "/api/sjrrating/11236125", "label" : "sjr:Q1 (2021) Scopus - Behavioral Neuroscience FRONTIERS IN BEHAVIORAL NEUROSCIENCE 1662-5153 1662-5153", "listPos" : 14, "rankValue" : 0.24, "type" : "journal", "ratingType" : { "otype" : "RatingType", "mtid" : 10002, "link" : "/api/ratingtype/10002", "label" : "sjr", "code" : "sjr", "published" : true, "snippet" : true }, "subject" : { "otype" : "ClassificationExternal", "mtid" : 2802, "link" : "/api/classificationexternal/2802", "label" : "Scopus - Behavioral Neuroscience", "published" : true, "oldId" : 2802, "snippet" : true }, "ranking" : "Q1", "calculation" : "DIRECT", "published" : true, "snippet" : true } ], "ratingsForSort" : "Q1", "references" : [ { "otype" : "Reference", "mtid" : 20056369, "link" : "/api/reference/20056369", "label" : "1. 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