Loss of long-term depression in the insular cortex after tail amputation in adult mice
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TLDR
It is found that tail amputation in adult mice produced a selective loss of low frequency stimulation-induced LTD in the IC, without affecting (RS)-3,5-dihydroxyphenylglycine (DHPG)-evoked LTD, and it is suggested that restoration of insular LTD may represent a novel therapeutic strategy against the synaptic dysfunctions underlying the pathophysiology of phantom pain.Abstract:
The insular cortex (IC) is an important forebrain structure involved in pain perception and taste memory formation. Using a 64-channel multi-electrode array system, we recently identified and characterized two major forms of synaptic plasticity in the adult mouse IC: long-term potentiation (LTP) and long-term depression (LTD). In this study, we investigate injury-related metaplastic changes in insular synaptic plasticity after distal tail amputation. We found that tail amputation in adult mice produced a selective loss of low frequency stimulation-induced LTD in the IC, without affecting (RS)-3,5-dihydroxyphenylglycine (DHPG)-evoked LTD. The impaired insular LTD could be pharmacologically rescued by priming the IC slices with a lower dose of DHPG application, a form of metaplasticity which involves activation of protein kinase C but not protein kinase A or calcium/calmodulin-dependent protein kinase II. These findings provide important insights into the synaptic mechanisms of cortical changes after peripheral amputation and suggest that restoration of insular LTD may represent a novel therapeutic strategy against the synaptic dysfunctions underlying the pathophysiology of phantom pain.read more
Citations
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GluA1 Phosphorylation Contributes to Postsynaptic Amplification of Neuropathic Pain in the Insular Cortex
Shuang Qiu,Ming Zhang,Yan Liu,Yan-yan Guo,Huan Zhao,Qian Song,Ming-gao Zhao,Richard L. Huganir,Jianhong Luo,Hui Xu,Min Zhuo +10 more
TL;DR: The results suggest that the expression of AMPARs is enhanced in the insular cortex after nerve injury by a pathway involving AC1, AKAP79/150, and PKA, and such enhancement may at least in part contribute to behavioral sensitization together with other cortical regions, such as the anterior cingulate and the prefrontal cortices.
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Adenylyl cyclase subtype 1 is essential for late-phase long term potentiation and spatial propagation of synaptic responses in the anterior cingulate cortex of adult mice
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Acid-sensing ion channel 1a contributes to hippocampal LTP inducibility through multiple mechanisms.
M. Liu,Hu Song Li,Wei Guang Li,Yan Jiao Wu,Shi Ning Deng,Chen Huang,Oleksandr Maximyuk,Volodymyr A. Sukach,Oleg Krishtal,Michael X. Zhu,Tian Le Xu +10 more
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Characterization of short- and long-term mechanical sensitisation following surgical tail amputation in pigs.
Pierpaolo Di Giminiani,Sandra Edwards,Emma M. Malcolm,Matthew C. Leach,Mette S. Herskin,Dale A. Sandercock +5 more
TL;DR: Tail amputation in pigs appears to evoke acute and sustained changes in peripheral mechanical sensitivity, which resemble features of neuropathic pain reported in humans and other species and provides new information on implications for the welfare of animals subjected to this type of injury.
References
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TL;DR: Hypnosis was used as a cognitive tool to alternate between the sensation of PL movement and pain in 8 amputees to provide evidence that PL sensations are produced by the same central nervous processes that underlie the experience of the body when it is intact and that the corporeal awareness of PL pain is encoded in a thalamocortical network.
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Group I Metabotropic Glutamate Receptor (mGluR)-Dependent Long-Term Depression Mediated via p38 Mitogen-Activated Protein Kinase Is Inhibited by Previous High-Frequency Stimulation and Activation of mGluRs and Protein Kinase C in the Rat Dentate Gyrus In Vitro
TL;DR: A novel metaplasticity is demonstrated in which group I metabotropic glutamate receptor-dependent long-term depression of synaptic transmission is regulated by previous mGluR activation, and the inhibitory effects of preconditioning HFS on DHPG-LTD are mediated via stimulation of group I/II mGLURs, activation of PKC, and subsequent blocking of the functioning ofgroup I mGlamR.
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