AI Article Synopsis
- Neurons communicate information through variable action potentials that can differ significantly with each stimulus repetition.
- The study investigates the reliability of cortical neurons when stimulated with simulated synaptic inputs and finds that parvalbumin+ (PV) interneurons exhibit high spiking reliability compared to excitatory neurons.
- This high reliability in PV interneurons enables precise inhibition of other neurons, while the variability in excitatory neurons allows for better integration of synaptic inputs, ultimately influencing how information is processed in the brain.
Article Abstract
Neurons encode information in the highly variable spiking activity of neuronal populations, so that different repetitions of the same stimulus can generate action potentials that vary significantly in terms of the count and timing. How does spiking variability originate, and does it have a functional purpose? Leveraging large-scale intracellular electrophysiological data, we relate the spiking reliability of cortical neurons in-vitro during the intracellular injection of current resembling synaptic inputs to their morphologic, electrophysiologic, and transcriptomic classes. Our findings demonstrate that parvalbumin+ (PV) interneurons, a subclass of inhibitory neurons, show high reliability compared to other neuronal subclasses, particularly excitatory neurons. Through computational modeling, we predict that the high reliability of PV interneurons allows for strong and precise inhibition in downstream neurons, while the lower reliability of excitatory neurons allows for integrating multiple synaptic inputs leading to a spiking rate code. These findings illuminate how spiking variability in different neuronal classes affect information propagation in the brain, leading to precise inhibition and spiking rate codes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11697241 | PMC |
| http://dx.doi.org/10.1038/s41598-024-82536-y | DOI Listing |
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Article Synopsis
- Neurons communicate information through variable action potentials that can differ significantly with each stimulus repetition.
- The study investigates the reliability of cortical neurons when stimulated with simulated synaptic inputs and finds that parvalbumin+ (PV) interneurons exhibit high spiking reliability compared to excitatory neurons.
- This high reliability in PV interneurons enables precise inhibition of other neurons, while the variability in excitatory neurons allows for better integration of synaptic inputs, ultimately influencing how information is processed in the brain.
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