Non-invasive, opsin-free mid-infrared modulation activates cortical neurons and accelerates associative learning
Neurostimulant drugs or magnetic/electrical stimulation techniques can overcome attention deficits, but these drugs or techniques are weakly beneficial in boosting the learning capabilities of healthy subjects. Here, we report a stimulation technique, mid-infrared modulation (MIM), that delivers mid...
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| Published in | Nature communications Vol. 12; no. 1; pp. 2730 - 9 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
12.05.2021
Nature Publishing Group Nature Portfolio |
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| Abstract | Neurostimulant drugs or magnetic/electrical stimulation techniques can overcome attention deficits, but these drugs or techniques are weakly beneficial in boosting the learning capabilities of healthy subjects. Here, we report a stimulation technique, mid-infrared modulation (MIM), that delivers mid-infrared light energy through the opened skull or even non-invasively through a thinned intact skull and can activate brain neurons in vivo without introducing any exogeneous gene. Using c-Fos immunohistochemistry, in vivo single-cell electrophysiology and two-photon Ca
2+
imaging in mice, we demonstrate that MIM significantly induces firing activities of neurons in the targeted cortical area. Moreover, mice that receive MIM targeting to the auditory cortex during an auditory associative learning task exhibit a faster learning speed (~50% faster) than control mice. Together, this non-invasive, opsin-free MIM technique is demonstrated with potential for modulating neuronal activity.
Neurostimulant drugs or magnetic/electrical stimulation techniques have shown limited effects on learning capabilities of healthy subjects. The authors show that, without introducing an exogeneous gene, mid-infrared light can modulate firing activity of neurons in vivo and accelerate learning in mice. |
|---|---|
| AbstractList | Neurostimulant drugs or magnetic/electrical stimulation techniques can overcome attention deficits, but these drugs or techniques are weakly beneficial in boosting the learning capabilities of healthy subjects. Here, we report a stimulation technique, mid-infrared modulation (MIM), that delivers mid-infrared light energy through the opened skull or even non-invasively through a thinned intact skull and can activate brain neurons in vivo without introducing any exogeneous gene. Using c-Fos immunohistochemistry, in vivo single-cell electrophysiology and two-photon Ca
2+
imaging in mice, we demonstrate that MIM significantly induces firing activities of neurons in the targeted cortical area. Moreover, mice that receive MIM targeting to the auditory cortex during an auditory associative learning task exhibit a faster learning speed (~50% faster) than control mice. Together, this non-invasive, opsin-free MIM technique is demonstrated with potential for modulating neuronal activity.
Neurostimulant drugs or magnetic/electrical stimulation techniques have shown limited effects on learning capabilities of healthy subjects. The authors show that, without introducing an exogeneous gene, mid-infrared light can modulate firing activity of neurons in vivo and accelerate learning in mice. Neurostimulant drugs or magnetic/electrical stimulation techniques can overcome attention deficits, but these drugs or techniques are weakly beneficial in boosting the learning capabilities of healthy subjects. Here, we report a stimulation technique, mid-infrared modulation (MIM), that delivers mid-infrared light energy through the opened skull or even non-invasively through a thinned intact skull and can activate brain neurons in vivo without introducing any exogeneous gene. Using c-Fos immunohistochemistry, in vivo single-cell electrophysiology and two-photon Ca2+ imaging in mice, we demonstrate that MIM significantly induces firing activities of neurons in the targeted cortical area. Moreover, mice that receive MIM targeting to the auditory cortex during an auditory associative learning task exhibit a faster learning speed (~50% faster) than control mice. Together, this non-invasive, opsin-free MIM technique is demonstrated with potential for modulating neuronal activity.Neurostimulant drugs or magnetic/electrical stimulation techniques can overcome attention deficits, but these drugs or techniques are weakly beneficial in boosting the learning capabilities of healthy subjects. Here, we report a stimulation technique, mid-infrared modulation (MIM), that delivers mid-infrared light energy through the opened skull or even non-invasively through a thinned intact skull and can activate brain neurons in vivo without introducing any exogeneous gene. Using c-Fos immunohistochemistry, in vivo single-cell electrophysiology and two-photon Ca2+ imaging in mice, we demonstrate that MIM significantly induces firing activities of neurons in the targeted cortical area. Moreover, mice that receive MIM targeting to the auditory cortex during an auditory associative learning task exhibit a faster learning speed (~50% faster) than control mice. Together, this non-invasive, opsin-free MIM technique is demonstrated with potential for modulating neuronal activity. Neurostimulant drugs or magnetic/electrical stimulation techniques have shown limited effects on learning capabilities of healthy subjects. The authors show that, without introducing an exogeneous gene, mid-infrared light can modulate firing activity of neurons in vivo and accelerate learning in mice. Neurostimulant drugs or magnetic/electrical stimulation techniques can overcome attention deficits, but these drugs or techniques are weakly beneficial in boosting the learning capabilities of healthy subjects. Here, we report a stimulation technique, mid-infrared modulation (MIM), that delivers mid-infrared light energy through the opened skull or even non-invasively through a thinned intact skull and can activate brain neurons in vivo without introducing any exogeneous gene. Using c-Fos immunohistochemistry, in vivo single-cell electrophysiology and two-photon Ca imaging in mice, we demonstrate that MIM significantly induces firing activities of neurons in the targeted cortical area. Moreover, mice that receive MIM targeting to the auditory cortex during an auditory associative learning task exhibit a faster learning speed (~50% faster) than control mice. Together, this non-invasive, opsin-free MIM technique is demonstrated with potential for modulating neuronal activity. Neurostimulant drugs or magnetic/electrical stimulation techniques can overcome attention deficits, but these drugs or techniques are weakly beneficial in boosting the learning capabilities of healthy subjects. Here, we report a stimulation technique, mid-infrared modulation (MIM), that delivers mid-infrared light energy through the opened skull or even non-invasively through a thinned intact skull and can activate brain neurons in vivo without introducing any exogeneous gene. Using c-Fos immunohistochemistry, in vivo single-cell electrophysiology and two-photon Ca2+ imaging in mice, we demonstrate that MIM significantly induces firing activities of neurons in the targeted cortical area. Moreover, mice that receive MIM targeting to the auditory cortex during an auditory associative learning task exhibit a faster learning speed (~50% faster) than control mice. Together, this non-invasive, opsin-free MIM technique is demonstrated with potential for modulating neuronal activity.Neurostimulant drugs or magnetic/electrical stimulation techniques have shown limited effects on learning capabilities of healthy subjects. The authors show that, without introducing an exogeneous gene, mid-infrared light can modulate firing activity of neurons in vivo and accelerate learning in mice. Neurostimulant drugs or magnetic/electrical stimulation techniques can overcome attention deficits, but these drugs or techniques are weakly beneficial in boosting the learning capabilities of healthy subjects. Here, we report a stimulation technique, mid-infrared modulation (MIM), that delivers mid-infrared light energy through the opened skull or even non-invasively through a thinned intact skull and can activate brain neurons in vivo without introducing any exogeneous gene. Using c-Fos immunohistochemistry, in vivo single-cell electrophysiology and two-photon Ca 2+ imaging in mice, we demonstrate that MIM significantly induces firing activities of neurons in the targeted cortical area. Moreover, mice that receive MIM targeting to the auditory cortex during an auditory associative learning task exhibit a faster learning speed (~50% faster) than control mice. Together, this non-invasive, opsin-free MIM technique is demonstrated with potential for modulating neuronal activity. |
| ArticleNumber | 2730 |
| Author | Liao, Xiang Zhang, Jianxiong Li, Tong Jia, Hongbo Qiao, Zhi Chang, Chao He, Yong Chen, Xiaowei Liang, Shanshan |
| Author_xml | – sequence: 1 givenname: Jianxiong orcidid: 0000-0003-2245-8752 surname: Zhang fullname: Zhang, Jianxiong organization: Brain Research Center and State Key Laboratory of Trauma, Burns, and Combined Injury, Third Military Medical University – sequence: 2 givenname: Yong surname: He fullname: He, Yong organization: Innovation Laboratory of Terahertz Biophysics, National Innovation Institute of Defense Technology – sequence: 3 givenname: Shanshan surname: Liang fullname: Liang, Shanshan organization: Brain Research Center and State Key Laboratory of Trauma, Burns, and Combined Injury, Third Military Medical University – sequence: 4 givenname: Xiang orcidid: 0000-0001-6324-5206 surname: Liao fullname: Liao, Xiang organization: Center for Neurointelligence, School of Medicine, Chongqing University – sequence: 5 givenname: Tong surname: Li fullname: Li, Tong organization: Brain Research Center and State Key Laboratory of Trauma, Burns, and Combined Injury, Third Military Medical University – sequence: 6 givenname: Zhi orcidid: 0000-0002-0847-875X surname: Qiao fullname: Qiao, Zhi organization: Innovation Laboratory of Terahertz Biophysics, National Innovation Institute of Defense Technology – sequence: 7 givenname: Chao orcidid: 0000-0002-4081-1583 surname: Chang fullname: Chang, Chao email: changc@xjtu.edu.cn organization: Innovation Laboratory of Terahertz Biophysics, National Innovation Institute of Defense Technology – sequence: 8 givenname: Hongbo orcidid: 0000-0003-1585-2161 surname: Jia fullname: Jia, Hongbo email: jiahb@sibet.ac.cn organization: Advanced Institute for Brain and Intelligence and School of Physical Science and Technology, Guangxi University, Brain Research Instrument Innovation Center, Suzhou Institute of Biomedical Engineering and Technology, Chinese Academy of Sciences – sequence: 9 givenname: Xiaowei orcidid: 0000-0003-0906-6666 surname: Chen fullname: Chen, Xiaowei email: xiaowei_chen@tmmu.edu.cn organization: Brain Research Center and State Key Laboratory of Trauma, Burns, and Combined Injury, Third Military Medical University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33980868$$D View this record in MEDLINE/PubMed |
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| Snippet | Neurostimulant drugs or magnetic/electrical stimulation techniques can overcome attention deficits, but these drugs or techniques are weakly beneficial in... Neurostimulant drugs or magnetic/electrical stimulation techniques have shown limited effects on learning capabilities of healthy subjects. The authors show... |
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| Title | Non-invasive, opsin-free mid-infrared modulation activates cortical neurons and accelerates associative learning |
| URI | https://link.springer.com/article/10.1038/s41467-021-23025-y https://www.ncbi.nlm.nih.gov/pubmed/33980868 https://www.proquest.com/docview/2525889551 https://www.proquest.com/docview/2526303443 https://pubmed.ncbi.nlm.nih.gov/PMC8115038 https://doaj.org/article/891d514655cf4c7482c1daffd44b9c26 |
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