Optogenetic Stimulation Using Anion Channelrhodopsin (GtACR1) Facilitates Termination of Reentrant Arrhythmias With Low Light Energy Requirements: A Computational Study

Ochs, Alexander; Karathanos, Thomas V.; Trayanova, Natalia A.; Boyle, Patrick

doi:10.3389/fphys.2021.718622

Cited by 14 publications

(11 citation statements)

References 89 publications

(193 reference statements)

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“…First, the amplitude and likelihood of recording oPSCs directly depends on the expression rate and tropism of our viruses and this may differ in subtle ways across the 4 pathways we report on here. Second, measurement of optically evoked PPR at 50ms should be interpreted cautiously because of the off kinetics of eGtACR1 32,33 . Lastly, there are intrinsic limitations to mapping synaptic connectivity in brain slices due to the potential of severing dendrites and other neuronal processes.…”

Section: Resultsmentioning

confidence: 99%

“…The use of eGtACR1, while granting high amplitude photocurrents, limits our ability to precisely study synaptic properties due to its slow off kinetics (≈ 100ms) 32,33,52 . This directly affects the steady state of the presynaptic terminals, especially upon multiple stimulations in a short timeframe (such as our protocol for PPR calculation).…”

Section: Discussionmentioning

confidence: 99%

“…Future studies will need to employ conditions of minimal stimulation that may further characterize the specific properties of monosynaptic and polysynaptic neurotransmission in the examined inputs. • The use of eGtACR1, while granting high amplitude photocurrents, limits our ability to precisely study synaptic properties due to its slow off kinetics (≈ 100ms) 32,33,52 . This directly affects the steady state of the presynaptic terminals, especially upon multiple stimulations in a short timeframe (such as our protocol for PPR calculation).…”

Section: Ongoing and Future Directionsmentioning

confidence: 99%

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Synaptic Connectivity of Sensorimotor Circuits for Vocal Imitation in the Songbird

Trusel

Alam

Roberts

2022

Preprint

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Birdsong is a complex and volitionally produced skilled behavior that, like speech and language, is dependent on forebrain circuits for its fluent production. The well delineated neural circuits associated with song provide a powerful system in which to study how synaptically linked networks of neurons control a natural and complex behavior. The premotor cortical analog HVC is necessary for song production and for song learning. Although the main input and output pathways of HVC have in most cases been known for decades, we still lack a detailed synaptic wiring diagram of this core circuit. Here we report our progress in building this wiring diagram. HVC has at least three non-overlapping classes of projection neurons and receives input from at least five song associated regions, totaling 15 potential synaptic pathways. Combining optogenetic stimulation of axon terminals from HVCs different afferent pathways with targeted whole-cell patch-clamp recordings of HVC projection neurons, we now provide an initial synaptic connectivity map of 12 of these potential pathways. We report on 435 whole-cell patch-clamp recordings from the 3 classes of HVC projection neurons, examining 4 different input pathways, from NIf, Uva, mMAN, Av, and mapping the polysynaptic and monosynaptic connections in each pathway. We find that the synaptic connectivity of HVCs input-output pathways is complex. Each class of projection neuron receives monosynaptic input from three of the four afferents and all in different combinations. At this stage, only one input pathway, NIf, appears to monosynaptically project onto all three classes of HVC projection neurons. We provide this initial synaptic mapping as an update for the field and will build on this wiring diagram, by updating this bioRxiv manuscript, as more data is collected, and additional pathways are characterized.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Ongoing and Future Directionsmentioning

confidence: 99%

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Synaptic Connectivity of Sensorimotor Circuits for Vocal Imitation in the Songbird

Trusel

Alam

Roberts

2022

Preprint

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“…Such an approach would address some of the limitations of electric defibrillators, such as reducing the risk of myocardial tissue damage and pain. A recent paper utilizing computational simulation pointed out that GtACR1 may be used to defibrillate human hearts (Ochs et al, 2021). Majumder et al (2020) developed a theoretical ion channel called the Biologically Integrated Cardiac Defibrillator (BioICD), whose activation can lead to a rapid and repeated restoration of normal rhythm for arrhythmia in the human atrium and ventricle (Majumder et al, 2020).…”

Section: Cardiac Optogeneticsmentioning

confidence: 99%

Applications and challenges of rhodopsin-based optogenetics in biomedicine

et al. 2022

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Optogenetics is an emerging bioengineering technology that has been rapidly developed in recent years by cross-integrating optics, genetic engineering, electrophysiology, software control, and other disciplines. Since the first demonstration of the millisecond neuromodulation ability of the channelrhodopsin-2 (ChR2), the application of optogenetic technology in basic life science research has been rapidly progressed, especially in neurobiology, which has driven the development of the discipline. As the optogenetic tool protein, microbial rhodopsins have been continuously explored, modified, and optimized, with many variants becoming available, with structural characteristics and functions that are highly diversified. Their applicability has been broadened, encouraging more researchers and clinicians to utilize optogenetics technology in research. In this review, we summarize the species and variant types of the most important class of tool proteins in optogenetic techniques, the microbial rhodopsins, and review the current applications of optogenetics based on rhodopsin qualitative light in biology and other fields. We also review the challenges facing this technology, to ultimately provide an in-depth technical reference to support the application of optogenetics in translational and clinical research.

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“…Co‐expression of ChR2 and NpHR allows blocking of intrinsic activation or pacing of the zebrafish heart at specific rates using light pulses at different wavelengths (Arrenberg et al., 2010). Recently, activation of anion channelrhodopsin during the repolarization phase of the action potential (AP) enabled precisely controlled shortening of AP duration (Ochs et al., 2021; Ordog et al., 2021).…”

Section: Introductionmentioning

confidence: 99%

Ultra‐low power deep sustained optogenetic excitation of human ventricular cardiomyocytes with red‐shifted opsins: a computational study

Pyari

Bansal

Roy

2022

The Journal of Physiology

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Optogenetic Stimulation Using Anion Channelrhodopsin (GtACR1) Facilitates Termination of Reentrant Arrhythmias With Low Light Energy Requirements: A Computational Study

Cited by 14 publications

References 89 publications

Synaptic Connectivity of Sensorimotor Circuits for Vocal Imitation in the Songbird

Synaptic Connectivity of Sensorimotor Circuits for Vocal Imitation in the Songbird

Applications and challenges of rhodopsin-based optogenetics in biomedicine

Ultra‐low power deep sustained optogenetic excitation of human ventricular cardiomyocytes with red‐shifted opsins: a computational study

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