Neural circuits and temporal plasticity in hindlimb representation of rat primary somatosensory cortex: revisited by multi-electrode array on brain slices

Objective The well-established planar multi-electrode array recording technique was used to investigate neural circuits and temporal plasticity in the hindlimb representation of the rat primary somatosensory cortex (S1 area). Methods Freshly dissociated acute brain slices of rats were subject to con...

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Published in	Neuroscience bulletin Vol. 26; no. 3; pp. 175 - 187
Main Authors	Wang, Dan-Dan, Li, Zhen, Chang, Ying, Wang, Rui-Rui, Chen, Xue-Feng, Zhao, Zhen-Yu, Cao, Fa-Le, Jin, Jian-Hui, Liu, Ming-Gang, Chen, Jun
Format	Journal Article
Language	English
Published	Heidelberg Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences 01.06.2010
Subjects	Afferent Pathways - physiology Anatomy Anesthesiology Animals Biomedical and Life Sciences Biomedicine Electric Stimulation Electrodes Hindlimb - physiology Human Physiology In Vitro Techniques Long-Term Potentiation - physiology Male Models, Neurological Neural Pathways - physiology Neurology Neuronal Plasticity - physiology Neurons - physiology Neurosciences Original Original Article Pain Medicine Presynaptic Terminals - physiology Rats Rats, Sprague-Dawley Somatosensory Cortex - physiology Synaptic Transmission - physiology Thalamus - physiology Time Factors 平面微电极阵列记录技术神经回路 primary somatosensory cortex 二维电流源密度分析 two-dimensional current source density imaging neural circuits 长时程增强初级躯体感觉皮层 planar multi-electrode array long-term potentiation
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ISSN	1673-7067 1995-8218 1995-8218
DOI	10.1007/s12264-010-0308-6

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Abstract	Objective The well-established planar multi-electrode array recording technique was used to investigate neural circuits and temporal plasticity in the hindlimb representation of the rat primary somatosensory cortex (S1 area). Methods Freshly dissociated acute brain slices of rats were subject to constant perfusion with oxygenated artificial cerebrospinal fluid (95% O 2 and 5% CO 2 ), and were mounted on a Med64 probe (64 electrodes, 8×8 array) for simultaneous multi-site electrophysiological recordings. Current sources and sinks across all the 64 electrodes were transformed into two-dimensional current source density images by bilinear interpolation at each point of the 64 electrodes. Results The local intracortical connection, which is involved in mediation of downward information flow across layers II–VI, was identified by electrical stimulation (ES) at layers II–III. The thalamocortical connection, which is mainly involved in mediation of upward information flow across layers II–IV, was also characterized by ES at layer IV. The thalamocortical afferent projections were likely to make more synaptic contacts with S1 neurons than the intracortical connections did. Moreover, the S1 area was shown to be more easily activated and more intensively innervated by the thalamocortical afferent projections than by the intracortical connections. Finally, bursting conditioning stimulus (CS) applied within layer IV of the S1 area could successfully induce long-term potentiation (LTP) in 5 of the 6 slices (83.3%), while the same CS application at layers II–III induced no LTP in any of the 6 tested slices. Conclusion The rat hindlimb representation of S1 area is likely to have at least 2 patterns of neural circuits on brain slices: one is the intracortical circuit (ICC) formed by interlaminar connections from layers II–III, and the other is the thalamocortical circuit (TCC) mediated by afferent connections from layer IV. Besides, ICC of the S1 area is spatially limited, with less plasticity, while TCC is spatially extensive and exhibits a better plasticity in response to somatosensory afferent stimulation. The present data provide a useful experimental model for further studying microcircuit properties in S1 cortex at the network level in vitro .
AbstractList	The well-established planar multi-electrode array recording technique was used to investigate neural circuits and temporal plasticity in the hindlimb representation of the rat primary somatosensory cortex (S1 area). Freshly dissociated acute brain slices of rats were subject to constant perfusion with oxygenated artificial cerebrospinal fluid (95% O(2) and 5% CO(2)), and were mounted on a Med64 probe (64 electrodes, 8x8 array) for simultaneous multi-site electrophysiological recordings. Current sources and sinks across all the 64 electrodes were transformed into two-dimensional current source density images by bilinear interpolation at each point of the 64 electrodes. The local intracortical connection, which is involved in mediation of downward information flow across layers II-VI, was identified by electrical stimulation (ES) at layers II-III. The thalamocortical connection, which is mainly involved in mediation of upward information flow across layers II-IV, was also characterized by ES at layer IV. The thalamocortical afferent projections were likely to make more synaptic contacts with S1 neurons than the intracortical connections did. Moreover, the S1 area was shown to be more easily activated and more intensively innervated by the thalamocortical afferent projections than by the intracortical connections. Finally, bursting conditioning stimulus (CS) applied within layer IV of the S1 area could successfully induce long-term potentiation (LTP) in 5 of the 6 slices (83.3%), while the same CS application at layers II-III induced no LTP in any of the 6 tested slices. The rat hindlimb representation of S1 area is likely to have at least 2 patterns of neural circuits on brain slices: one is the intracortical circuit (ICC) formed by interlaminar connections from layers II-III, and the other is the thalamocortical circuit (TCC) mediated by afferent connections from layer IV. Besides, ICC of the S1 area is spatially limited, with less plasticity, while TCC is spatially extensive and exhibits a better plasticity in response to somatosensory afferent stimulation. The present data provide a useful experimental model for further studying microcircuit properties in S1 cortex at the network level in vitro. The well-established planar multi-electrode array recording technique was used to investigate neural circuits and temporal plasticity in the hindlimb representation of the rat primary somatosensory cortex (S1 area).OBJECTIVEThe well-established planar multi-electrode array recording technique was used to investigate neural circuits and temporal plasticity in the hindlimb representation of the rat primary somatosensory cortex (S1 area).Freshly dissociated acute brain slices of rats were subject to constant perfusion with oxygenated artificial cerebrospinal fluid (95% O(2) and 5% CO(2)), and were mounted on a Med64 probe (64 electrodes, 8x8 array) for simultaneous multi-site electrophysiological recordings. Current sources and sinks across all the 64 electrodes were transformed into two-dimensional current source density images by bilinear interpolation at each point of the 64 electrodes.METHODSFreshly dissociated acute brain slices of rats were subject to constant perfusion with oxygenated artificial cerebrospinal fluid (95% O(2) and 5% CO(2)), and were mounted on a Med64 probe (64 electrodes, 8x8 array) for simultaneous multi-site electrophysiological recordings. Current sources and sinks across all the 64 electrodes were transformed into two-dimensional current source density images by bilinear interpolation at each point of the 64 electrodes.The local intracortical connection, which is involved in mediation of downward information flow across layers II-VI, was identified by electrical stimulation (ES) at layers II-III. The thalamocortical connection, which is mainly involved in mediation of upward information flow across layers II-IV, was also characterized by ES at layer IV. The thalamocortical afferent projections were likely to make more synaptic contacts with S1 neurons than the intracortical connections did. Moreover, the S1 area was shown to be more easily activated and more intensively innervated by the thalamocortical afferent projections than by the intracortical connections. Finally, bursting conditioning stimulus (CS) applied within layer IV of the S1 area could successfully induce long-term potentiation (LTP) in 5 of the 6 slices (83.3%), while the same CS application at layers II-III induced no LTP in any of the 6 tested slices.RESULTSThe local intracortical connection, which is involved in mediation of downward information flow across layers II-VI, was identified by electrical stimulation (ES) at layers II-III. The thalamocortical connection, which is mainly involved in mediation of upward information flow across layers II-IV, was also characterized by ES at layer IV. The thalamocortical afferent projections were likely to make more synaptic contacts with S1 neurons than the intracortical connections did. Moreover, the S1 area was shown to be more easily activated and more intensively innervated by the thalamocortical afferent projections than by the intracortical connections. Finally, bursting conditioning stimulus (CS) applied within layer IV of the S1 area could successfully induce long-term potentiation (LTP) in 5 of the 6 slices (83.3%), while the same CS application at layers II-III induced no LTP in any of the 6 tested slices.The rat hindlimb representation of S1 area is likely to have at least 2 patterns of neural circuits on brain slices: one is the intracortical circuit (ICC) formed by interlaminar connections from layers II-III, and the other is the thalamocortical circuit (TCC) mediated by afferent connections from layer IV. Besides, ICC of the S1 area is spatially limited, with less plasticity, while TCC is spatially extensive and exhibits a better plasticity in response to somatosensory afferent stimulation. The present data provide a useful experimental model for further studying microcircuit properties in S1 cortex at the network level in vitro.CONCLUSIONThe rat hindlimb representation of S1 area is likely to have at least 2 patterns of neural circuits on brain slices: one is the intracortical circuit (ICC) formed by interlaminar connections from layers II-III, and the other is the thalamocortical circuit (TCC) mediated by afferent connections from layer IV. Besides, ICC of the S1 area is spatially limited, with less plasticity, while TCC is spatially extensive and exhibits a better plasticity in response to somatosensory afferent stimulation. The present data provide a useful experimental model for further studying microcircuit properties in S1 cortex at the network level in vitro. Objective The well-established planar multi-electrode array recording technique was used to investigate neural circuits and temporal plasticity in the hindlimb representation of the rat primary somatosensory cortex (S1 area). Methods Freshly dissociated acute brain slices of rats were subject to constant perfusion with oxygenated artificial cerebrospinal fluid (95% O 2 and 5% CO 2 ), and were mounted on a Med64 probe (64 electrodes, 8×8 array) for simultaneous multi-site electrophysiological recordings. Current sources and sinks across all the 64 electrodes were transformed into two-dimensional current source density images by bilinear interpolation at each point of the 64 electrodes. Results The local intracortical connection, which is involved in mediation of downward information flow across layers II–VI, was identified by electrical stimulation (ES) at layers II–III. The thalamocortical connection, which is mainly involved in mediation of upward information flow across layers II–IV, was also characterized by ES at layer IV. The thalamocortical afferent projections were likely to make more synaptic contacts with S1 neurons than the intracortical connections did. Moreover, the S1 area was shown to be more easily activated and more intensively innervated by the thalamocortical afferent projections than by the intracortical connections. Finally, bursting conditioning stimulus (CS) applied within layer IV of the S1 area could successfully induce long-term potentiation (LTP) in 5 of the 6 slices (83.3%), while the same CS application at layers II–III induced no LTP in any of the 6 tested slices. Conclusion The rat hindlimb representation of S1 area is likely to have at least 2 patterns of neural circuits on brain slices: one is the intracortical circuit (ICC) formed by interlaminar connections from layers II–III, and the other is the thalamocortical circuit (TCC) mediated by afferent connections from layer IV. Besides, ICC of the S1 area is spatially limited, with less plasticity, while TCC is spatially extensive and exhibits a better plasticity in response to somatosensory afferent stimulation. The present data provide a useful experimental model for further studying microcircuit properties in S1 cortex at the network level in vitro .
Author	Li, Zhen Jin, Jian-Hui Chang, Ying Chen, Jun Chen, Xue-Feng Cao, Fa-Le Wang, Dan-Dan Wang, Rui-Rui Zhao, Zhen-Yu Liu, Ming-Gang
Author_xml	– sequence: 1 givenname: Dan-Dan surname: Wang fullname: Wang, Dan-Dan organization: Institute for Biomedical Sciences of Pain, Capital Medical University – sequence: 2 givenname: Zhen surname: Li fullname: Li, Zhen organization: Institute for Biomedical Sciences of Pain and Institute for Functional Brain Disorders, Tangdu Hospital, The Fourth Military Medical University – sequence: 3 givenname: Ying surname: Chang fullname: Chang, Ying organization: Institute for Biomedical Sciences of Pain, Capital Medical University – sequence: 4 givenname: Rui-Rui surname: Wang fullname: Wang, Rui-Rui organization: Institute for Biomedical Sciences of Pain and Institute for Functional Brain Disorders, Tangdu Hospital, The Fourth Military Medical University – sequence: 5 givenname: Xue-Feng surname: Chen fullname: Chen, Xue-Feng organization: Institute for Biomedical Sciences of Pain and Institute for Functional Brain Disorders, Tangdu Hospital, The Fourth Military Medical University – sequence: 6 givenname: Zhen-Yu surname: Zhao fullname: Zhao, Zhen-Yu organization: Institute for Biomedical Sciences of Pain and Institute for Functional Brain Disorders, Tangdu Hospital, The Fourth Military Medical University – sequence: 7 givenname: Fa-Le surname: Cao fullname: Cao, Fa-Le organization: Institute for Biomedical Sciences of Pain and Institute for Functional Brain Disorders, Tangdu Hospital, The Fourth Military Medical University – sequence: 8 givenname: Jian-Hui surname: Jin fullname: Jin, Jian-Hui organization: Institute for Biomedical Sciences of Pain, Capital Medical University – sequence: 9 givenname: Ming-Gang surname: Liu fullname: Liu, Ming-Gang organization: Institute for Biomedical Sciences of Pain, Capital Medical University – sequence: 10 givenname: Jun surname: Chen fullname: Chen, Jun email: junchen@fmmu.edu.cn, chenjun@ccmu.edu.cn organization: Institute for Biomedical Sciences of Pain, Capital Medical University, Institute for Biomedical Sciences of Pain and Institute for Functional Brain Disorders, Tangdu Hospital, The Fourth Military Medical University
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Keywords	平面微电极阵列记录技术神经回路 primary somatosensory cortex 二维电流源密度分析 two-dimensional current source density imaging neural circuits 长时程增强初级躯体感觉皮层 planar multi-electrode array long-term potentiation
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Snippet	Objective The well-established planar multi-electrode array recording technique was used to investigate neural circuits and temporal plasticity in the hindlimb... The well-established planar multi-electrode array recording technique was used to investigate neural circuits and temporal plasticity in the hindlimb...
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SubjectTerms	Afferent Pathways - physiology Anatomy Anesthesiology Animals Biomedical and Life Sciences Biomedicine Electric Stimulation Electrodes Hindlimb - physiology Human Physiology In Vitro Techniques Long-Term Potentiation - physiology Male Models, Neurological Neural Pathways - physiology Neurology Neuronal Plasticity - physiology Neurons - physiology Neurosciences Original Original Article Pain Medicine Presynaptic Terminals - physiology Rats Rats, Sprague-Dawley Somatosensory Cortex - physiology Synaptic Transmission - physiology Thalamus - physiology Time Factors
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Title	Neural circuits and temporal plasticity in hindlimb representation of rat primary somatosensory cortex: revisited by multi-electrode array on brain slices
URI	https://link.springer.com/article/10.1007/s12264-010-0308-6 https://www.ncbi.nlm.nih.gov/pubmed/20502495 https://www.proquest.com/docview/733147911 https://pubmed.ncbi.nlm.nih.gov/PMC5552489 https://link.springer.com/content/pdf/10.1007/s12264-010-0308-6.pdf
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