Self-generated whisker movements drive state-dependent sensory input to developing barrel cortex

Dooley, James C.; Glanz, Ryan M.; Sokoloff, Greta; Blumberg, Mark S.

doi:10.1101/2020.01.21.914259

Cited by 13 publications

(23 citation statements)

References 39 publications

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“…We here study how peripheral auditory activity shapes ACtx. SPNs are present in all sensory areas, and both the visual and the somatosensory system show early spontaneous or sensorily evoked activity, e.g., driven by vision through closed eyelids or self-generated movements (43)(44)(45)(46). We thus speculate that alterations of these early activity patterns will also affect SPNs in the respective cortices.…”

Section: Discussionmentioning

confidence: 87%

Early peripheral activity alters nascent subplate circuits in the auditory cortex

2021

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Cortical function can be shaped by sensory experience during a critical period. The onset of the critical period is thought to coincide with the onset of thalamocortical transmission to the thalamo-recipient layer 4 (L4). In early development, subplate neurons (SPNs), and not L4 neurons, are the first targets of thalamic afferents. SPNs are transiently involved in early development and are largely eliminated during development. Activation of L4 by thalamic afferents coincides with the opening of ear canal (~P11 in mice) and precedes the later critical period. Here, we show in mice that abolishing peripheral function or presenting sound stimuli even before P11 leads to bidirectionally altered functional connectivity of SPNs in auditory cortex. Thus, early sensory experience can sculpt subplate circuits before thalamocortical circuits to L4 are mature. Our results show that peripheral activity shapes cortical circuits in a sequential manner and from earlier ages than has been appreciated.

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Section: Discussionmentioning

confidence: 87%

Early peripheral activity alters nascent subplate circuits in the auditory cortex

2021

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“…These results suggest that self‐generated human fetal movements provide sensory feedback and drive delta brushes in the developing somatosensory cortex, contributing to the formation of cortical body maps 22 . Additionally, whisker movements in newborn rats trigger spindle bursts more often during active sleep than wake time 23 . These results indicate that twitches and rapid eye movements occurring during active sleep are important for cortical activity and early brain development in humans.…”

Section: What Does the Brush Reflect?mentioning

confidence: 80%

Delta brushes are not just a hallmark of EEG in human preterm infants

Kidokoro

2021

Pediatrics International

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The delta brush, a well‐known characteristic waveform of the human preterm electroencephalogram, represents spontaneous electrical activity. Recent experimental animal model evidence suggests that delta brushes are not only spontaneous intrinsic activity but are also evoked by external sensory stimulation or spontaneous movement. They are also likely to reflect the activity of subplate neurons, which play an important role in early brain development and network organization. Here, evidence about delta brushes in human preterm electroencephalogram is provided along with future perspectives.

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“…Thereafter, the isoflurane anesthesia was terminated and the animal was allowed to recover on a warming plate (34°C - 36°C) for at least one hour. This well established (Ackman et al, 2012; Adelsberger et al, 2005; Che et al, 2018; Dooley et al, 2020; Hagihara et al, 2015) protocol provided stable recording conditions with similar ongoing in vivo activity patterns, observed within and across experimental animals (Fig. 2-2).…”

Section: Methodsmentioning

confidence: 89%

Stable behavioral state-specific large scale activity patterns in the developing cortex of neonates

Mojtahedi

Kovalchuk

Boettcher

et al. 2021

Preprint

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Endogenous neuronal activity is a hallmark of the developing brain. In rodents a handful of such activities were described in different cortical areas but the unifying macroscopic perspective is still lacking. Here we combined large-scale in vivo Ca2+ imaging of the dorsal cortex in non-anesthetized neonatal mice with advanced mathematical analyses to reveal unique behavioral state-specific maps of endogenous activity. These maps were remarkably stable over time within and across experiments, and used patches of correlated activity with little hemispheric symmetry as well as stationary and propagating waves as building blocks. Importantly, the maps recorded during motion and rest were almost inverse, with sensory-motor areas active during motion and posterior-lateral areas active at rest. The retrosplenial cortex engaged in both resting- and motion-related activities, building functional long-range connections with respective cortical areas. The data obtained bind different region-specific activity patterns described so far into a single consistent picture and set the stage for future inactivation studies, probing the exact function of this complex activity pattern for cortical wiring in neonates.

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Self-generated whisker movements drive state-dependent sensory input to developing barrel cortex

Cited by 13 publications

References 39 publications

Early peripheral activity alters nascent subplate circuits in the auditory cortex

Early peripheral activity alters nascent subplate circuits in the auditory cortex

Delta brushes are not just a hallmark of EEG in human preterm infants

Stable behavioral state-specific large scale activity patterns in the developing cortex of neonates

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