E. I. Gerasimov scite author profile

Optogenetics approach is used widely in neurobiology as it allows control of cellular activity with high spatial and temporal resolution. In most studies, optogenetics is used to control neuronal activity. In the present study optogenetics was used to stimulate astrocytes with the aim to modulate neuronal activity. To achieve this goal, light stimulation was applied to astrocytes expressing a version of ChR2 (ionotropic opsin) or Opto-α1AR (metabotropic opsin). Optimal optogenetic stimulation parameters were determined using patch-clamp recordings of hippocampal pyramidal neurons’ spontaneous activity in brain slices as a readout. It was determined that the greatest increase in the number of spontaneous synaptic currents was observed when astrocytes expressing ChR2(H134R) were activated by 5 s of continuous light. For the astrocytes expressing Opto-α1AR, the greatest response was observed in the pulse stimulation mode (T = 1 s, t = 100 ms). It was also observed that activation of the astrocytic Opto-a1AR but not ChR2 results in an increase of the fEPSP slope in hippocampal neurons. Based on these results, we concluded that Opto-a1AR expressed in hippocampal astrocytes provides an opportunity to modulate the long-term synaptic plasticity optogenetically, and may potentially be used to normalize the synaptic transmission and plasticity defects in a variety of neuropathological conditions, including models of Alzheimer’s disease and other neurodegenerative disorders.

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Light Stimulation Parameters Determine Neuron Dynamic Characteristics

Ерофеев

Gerasimov

Lavrova

et al. 2019

Applied Sciences

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Optogenetics is a recently developed technique that is widely used to study neuronal function. In optogenetic experiments, neurons encode opsins (channelrhodopsins, halorhodopsins or their derivatives) by means of viruses, plasmids or genetic modification (transgenic lines). Channelrhodopsin are light activated ion channels. Their expression in neurons allows light-dependent control of neuronal activity. The duration and frequency of light stimulation in optogenetic experiments is critical for stable, robust and reproducible experiments. In this study, we performed systematic analyses of these parameters using primary cultures of hippocampal neurons transfected with channelrhodopsin-2 (ChR2). The main goal of this work was to identify the optimal parameters of light stimulation that would result in stable neuronal activity during a repeated light pulse train. We demonstrated that the dependency of the photocurrent on the light pulse duration is described by a right-skewed bell-shaped curve, while the dependence on the stimulus intensity is close to linear. We established that a duration between 10–30 ms of stimulation was the minimal time necessary to achieve a full response. Obtained results will be useful in planning and interpretation of optogenetic experiments.

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An Open-Source Wireless Electrophysiological Complex for In Vivo Recording Neuronal Activity in the Rodent’s Brain

Ерофеев

Kazakov

Makarevich

et al. 2021

Sensors

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Multi-electrode arrays (MEAs) are a widely used tool for recording neuronal activity both in vitro/ex vivo and in vivo experiments. In the last decade, researchers have increasingly used MEAs on rodents in vivo. To increase the availability and usability of MEAs, we have created an open-source wireless electrophysiological complex. The complex is scalable, recording the activity of neurons in the brain of rodents during their behavior. Schematic diagrams and a list of necessary components for the fabrication of a wireless electrophysiological complex, consisting of a base charging station and wireless wearable modules, are presented.

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Фотоактивность гибридных наноструктурированных систем TiO₂/CdS и SiO₂/CdS при парциальном окислении этанола под действием видимого излучения

Валеева¹,

Gerasimov²,

Gorbunova³

et al. 2015

Кинет. и катал.

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NeuroInfoViewer: A Software Package for Analysis of Miniscope Data

Ерофеев

Barinov²,

Gerasimov

et al. 2021

Neurosci Behav Physi

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E. I. Gerasimov

Optogenetic Activation of Astrocytes—Effects on Neuronal Network Function

Light Stimulation Parameters Determine Neuron Dynamic Characteristics

An Open-Source Wireless Electrophysiological Complex for In Vivo Recording Neuronal Activity in the Rodent’s Brain

Фотоактивность гибридных наноструктурированных систем TiO₂/CdS и SiO₂/CdS при парциальном окислении этанола под действием видимого излучения

NeuroInfoViewer: A Software Package for Analysis of Miniscope Data

Contact Info

Product

Resources

About

E. I. Gerasimov

Optogenetic Activation of Astrocytes—Effects on Neuronal Network Function

Light Stimulation Parameters Determine Neuron Dynamic Characteristics

An Open-Source Wireless Electrophysiological Complex for In Vivo Recording Neuronal Activity in the Rodent’s Brain

Фотоактивность гибридных наноструктурированных систем TiO2/CdS и SiO2/CdS при парциальном окислении этанола под действием видимого излучения

NeuroInfoViewer: A Software Package for Analysis of Miniscope Data

Contact Info

Product

Resources

About

Фотоактивность гибридных наноструктурированных систем TiO₂/CdS и SiO₂/CdS при парциальном окислении этанола под действием видимого излучения