Daily Oscillation of the Excitation-Inhibition Balance in Visual Cortical Circuits
A balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical processing. In line with this idea, the E/I balance is reportedly comparable across neighboring neurons, behavioral states, and developmental stages and...
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| Published in | Neuron (Cambridge, Mass.) Vol. 105; no. 4; pp. 621 - 629.e4 |
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| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Elsevier Inc
19.02.2020
Elsevier Limited |
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| Abstract | A balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical processing. In line with this idea, the E/I balance is reportedly comparable across neighboring neurons, behavioral states, and developmental stages and altered in many neurological disorders. Motivated by these ideas, we examined whether synaptic inhibition changes over the 24-h day to compensate for the well-documented sleep-dependent changes in synaptic excitation. We found that, in pyramidal cells of visual and prefrontal cortices and hippocampal CA1, synaptic inhibition also changes over the 24-h light/dark cycle but, surprisingly, in the opposite direction of synaptic excitation. Inhibition is upregulated in the visual cortex during the light phase in a sleep-dependent manner. In the visual cortex, these changes in the E/I balance occurred in feedback, but not feedforward, circuits. These observations open new and interesting questions on the function and regulation of the E/I balance.
•The excitation/inhibition (E/I) ratio is dynamic across the 24-h day•Fluctuations in the E/I ratio depend on sleep/wake history•E/I ratio changes are circuit specific, not uniform across all synapses
Bridi et al. investigate whether inhibition tracks known changes in excitation over the 24-h day to maintain a stable excitation/inhibition ratio. Surprisingly, the excitation/inhibition ratio is dynamic over the day in feedback, but not feedforward, visual cortical circuits. |
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| AbstractList | SummaryA balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical processing. In line with this idea, the E/I balance is reportedly comparable across neighboring neurons, behavioral states, and developmental stages and altered in many neurological disorders. Motivated by these ideas, we examined whether synaptic inhibition changes over the 24-h day to compensate for the well-documented sleep-dependent changes in synaptic excitation. We found that, in pyramidal cells of visual and prefrontal cortices and hippocampal CA1, synaptic inhibition also changes over the 24-h light/dark cycle but, surprisingly, in the opposite direction of synaptic excitation. Inhibition is upregulated in the visual cortex during the light phase in a sleep-dependent manner. In the visual cortex, these changes in the E/I balance occurred in feedback, but not feedforward, circuits. These observations open new and interesting questions on the function and regulation of the E/I balance. A balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical processing. In line with this idea, the E/I balance is reportedly comparable across neighboring neurons, behavioral states, and developmental stages and altered in many neurological disorders. Motivated by these ideas, we examined whether synaptic inhibition changes over the 24-h day to compensate for the well-documented sleep-dependent changes in synaptic excitation. We found that, in pyramidal cells of visual and prefrontal cortices and hippocampal CA1, synaptic inhibition also changes over the 24-h light/dark cycle but, surprisingly, in the opposite direction of synaptic excitation. Inhibition is upregulated in the visual cortex during the light phase in a sleep-dependent manner. In the visual cortex, these changes in the E/I balance occurred in feedback, but not feedforward, circuits. These observations open new and interesting questions on the function and regulation of the E/I balance. •The excitation/inhibition (E/I) ratio is dynamic across the 24-h day•Fluctuations in the E/I ratio depend on sleep/wake history•E/I ratio changes are circuit specific, not uniform across all synapses Bridi et al. investigate whether inhibition tracks known changes in excitation over the 24-h day to maintain a stable excitation/inhibition ratio. Surprisingly, the excitation/inhibition ratio is dynamic over the day in feedback, but not feedforward, visual cortical circuits. A balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical processing. In line with this idea, the E/I balance is reportedly comparable across neighboring neurons, behavioral states, and developmental stages and altered in many neurological disorders. Motivated by these ideas, we examined whether synaptic inhibition changes over the 24-h day to compensate for the well-documented sleep-dependent changes in synaptic excitation. We found that, in pyramidal cells of visual and prefrontal cortices and hippocampal CA1, synaptic inhibition also changes over the 24-h light/dark cycle but, surprisingly, in the opposite direction of synaptic excitation. Inhibition is upregulated in the visual cortex during the light phase in a sleep-dependent manner. In the visual cortex, these changes in the E/I balance occurred in feedback, but not feedforward, circuits. These observations open new and interesting questions on the function and regulation of the E/I balance.A balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical processing. In line with this idea, the E/I balance is reportedly comparable across neighboring neurons, behavioral states, and developmental stages and altered in many neurological disorders. Motivated by these ideas, we examined whether synaptic inhibition changes over the 24-h day to compensate for the well-documented sleep-dependent changes in synaptic excitation. We found that, in pyramidal cells of visual and prefrontal cortices and hippocampal CA1, synaptic inhibition also changes over the 24-h light/dark cycle but, surprisingly, in the opposite direction of synaptic excitation. Inhibition is upregulated in the visual cortex during the light phase in a sleep-dependent manner. In the visual cortex, these changes in the E/I balance occurred in feedback, but not feedforward, circuits. These observations open new and interesting questions on the function and regulation of the E/I balance. A dynamic balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical processing. In line with this idea, measures of the E/I balance are reportedly comparable across neighboring neurons, across behavioral states and developmental stages, and altered in mouse models of autism and schizophrenia. Motivated by these ideas, we examined whether synaptic inhibition changes over the 24-hour day to compensate for the well-documented sleep-dependent changes in synaptic excitation. We found that in pyramidal cells of visual and prefrontal cortices as well as in hippocampal CA1, the strength of synaptic inhibition also changes over the 24h light/dark cycle, but surprisingly, in the opposite direction of synaptic excitation. The upregulation of inhibition in visual cortex during the light phase is sleep-dependent. Notably, in visual cortex, these changes in the E/I balance were observed in feedback, but not feedforward, circuits. The observations that the E/I balance is not constant but oscillates over the course of the day, and only in specific circuits, opens new and interesting questions on the function and regulation of the E/I balance. A balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical processing. In line with this idea, the E/I balance is reportedly comparable across neighboring neurons, behavioral states, and developmental stages and altered in many neurological disorders. Motivated by these ideas, we examined whether synaptic inhibition changes over the 24-h day to compensate for the well-documented sleep-dependent changes in synaptic excitation. We found that, in pyramidal cells of visual and prefrontal cortices and hippocampal CA1, synaptic inhibition also changes over the 24-h light/dark cycle but, surprisingly, in the opposite direction of synaptic excitation. Inhibition is upregulated in the visual cortex during the light phase in a sleep-dependent manner. In the visual cortex, these changes in the E/I balance occurred in feedback, but not feedforward, circuits. These observations open new and interesting questions on the function and regulation of the E/I balance. |
| Author | Wang, Guanglin Zong, Fang-Jiao Min, Xia Severin, Daniel Kirkwood, Alfredo Bridi, Michelle C.D. Tran, Trinh Qiu, Jiaqian Zhang, Xue-Ting Luo, Nancy Zhu, Zheng-Jiang He, Kai-Wen |
| AuthorAffiliation | 2. Interdisciplinary Research Center on Biology and Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai, China 1. Mind/Brain Institute and Department of Neuroscience, Johns Hopkins University, Baltimore 3. University of Chinese Academy of Sciences, Beijing, China |
| AuthorAffiliation_xml | – name: 1. Mind/Brain Institute and Department of Neuroscience, Johns Hopkins University, Baltimore – name: 3. University of Chinese Academy of Sciences, Beijing, China – name: 2. Interdisciplinary Research Center on Biology and Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai, China |
| Author_xml | – sequence: 1 givenname: Michelle C.D. surname: Bridi fullname: Bridi, Michelle C.D. organization: Mind/Brain Institute and Department of Neuroscience, Johns Hopkins University, Baltimore, MD 21218, USA – sequence: 2 givenname: Fang-Jiao surname: Zong fullname: Zong, Fang-Jiao organization: Interdisciplinary Research Center on Biology and Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai 200032, China – sequence: 3 givenname: Xia surname: Min fullname: Min, Xia organization: Interdisciplinary Research Center on Biology and Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai 200032, China – sequence: 4 givenname: Nancy surname: Luo fullname: Luo, Nancy organization: Mind/Brain Institute and Department of Neuroscience, Johns Hopkins University, Baltimore, MD 21218, USA – sequence: 5 givenname: Trinh surname: Tran fullname: Tran, Trinh organization: Mind/Brain Institute and Department of Neuroscience, Johns Hopkins University, Baltimore, MD 21218, USA – sequence: 6 givenname: Jiaqian surname: Qiu fullname: Qiu, Jiaqian organization: Interdisciplinary Research Center on Biology and Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai 200032, China – sequence: 7 givenname: Daniel surname: Severin fullname: Severin, Daniel organization: Mind/Brain Institute and Department of Neuroscience, Johns Hopkins University, Baltimore, MD 21218, USA – sequence: 8 givenname: Xue-Ting surname: Zhang fullname: Zhang, Xue-Ting organization: Interdisciplinary Research Center on Biology and Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai 200032, China – sequence: 9 givenname: Guanglin surname: Wang fullname: Wang, Guanglin organization: Interdisciplinary Research Center on Biology and Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai 200032, China – sequence: 10 givenname: Zheng-Jiang surname: Zhu fullname: Zhu, Zheng-Jiang organization: Interdisciplinary Research Center on Biology and Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai 200032, China – sequence: 11 givenname: Kai-Wen surname: He fullname: He, Kai-Wen email: kwhe@sioc.ac.cn organization: Interdisciplinary Research Center on Biology and Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai 200032, China – sequence: 12 givenname: Alfredo surname: Kirkwood fullname: Kirkwood, Alfredo email: kirkwood@jhu.edu organization: Mind/Brain Institute and Department of Neuroscience, Johns Hopkins University, Baltimore, MD 21218, USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31831331$$D View this record in MEDLINE/PubMed |
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| Snippet | A balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical processing.... SummaryA balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical... A dynamic balance between synaptic excitation and inhibition (E/I balance) maintained within a narrow window is widely regarded to be crucial for cortical... |
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| SubjectTerms | Animals Circadian Rhythm - physiology Circuits Developmental stages Excitatory Postsynaptic Potentials - physiology Female Hippocampus Inhibitory Postsynaptic Potentials - physiology Light Male Mice Mice, Inbred C57BL Mice, Transgenic Nerve Net - cytology Nerve Net - physiology Neural Inhibition - physiology Neurological diseases Organ Culture Techniques Pyramidal cells Pyramidal Cells - physiology Sleep Visual cortex Visual Cortex - cytology Visual Cortex - physiology Visual pathways Visual Pathways - cytology Visual Pathways - physiology |
| Title | Daily Oscillation of the Excitation-Inhibition Balance in Visual Cortical Circuits |
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