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10571 - 10580 of 52807 results
  • Journal Article
    Retrograde suppression of post-tetanic potentiation at the mossy fiber-CA3 pyramidal cell synapse | eNeuro
    In the hippocampus, the excitatory synapse between dentate granule cell axons – or mossy fibers (MF) – and CA3 pyramidal cells (MF-CA3) expresses robust forms of short-term plasticity, such as frequency facilitation and post-tetanic potentiation (PTP). These forms of plasticity are due to increases in neurotransmitter release, and can be engaged when dentate granule cells fire in bursts (e.g. during exploratory behaviors) and bring CA3 pyramidal neurons above threshold. While frequency facilitation at this synapse is limited by endogenous activation of presynaptic metabotropic glutamate receptors, whether MF-PTP can be regulated in an activity-dependent manner is unknown. Here, using physiologically relevant patterns of mossy fiber stimulation in acute mouse hippocampal slices, we found that disrupting postsynaptic Ca2+ dynamics increases MF-PTP, strongly suggesting a form of Ca2+-dependent retrograde suppression of this form of plasticity. PTP suppression requires a few seconds of MF bursting activity and...
    Feb 15, 2021 Sachin Makani
  • Journal Article
    Combination of defined CatWalk gait parameters for predictive locomotion recovery in experimental spinal cord injury rat models | eNeuro
    In many preclinical spinal cord injury (SCI) studies, assessment of locomotion recovery is key to understanding the effectiveness of the experimental intervention. In such rat SCI studies, the most basic locomotor recovery scoring system is a subjective observation of animals freely roaming in an open field, the Basso Beattie Bresnahan (BBB)-score. In comparison, CatWalk is an automated gait analysis system, providing further parameter specifications. Although together the CatWalk parameters encompass gait, studies consistently report single parameters, which differ in significance from other behavioral assessments. Therefore, we believe no single parameter produced by the CatWalk can represent the fully-coordinated motion of gait. Typically, other locomotor assessments, such as the BBB-score, combine several locomotor characteristics into a representative score. For this reason, we ranked the most distinctive CatWalk parameters between uninjured and SC injured rats. Subsequently, we combined nine of the t...
    Feb 15, 2021 Ivanna K. Timotius
  • Journal Article
    Unique effects of social defeat stress in adolescent male mice on the Netrin-1/DCC pathway, prefrontal cortex dopamine and cognition (Social stress in adolescent vs. adult male mice) | eNeuro
    For some individuals, social stress is a risk factor for psychiatric disorders characterised by adolescent onset, prefrontal cortex (PFC) dysfunction and cognitive impairments. Social stress may be particularly harmful during adolescence when dopamine (DA) axons are still growing to the PFC, rendering them sensitive to environmental influences. The guidance cue Netrin-1 and its receptor, DCC, coordinate to control mesocorticolimbic DA axon targeting and growth during this age. Here we adapted the accelerated social defeat (AcSD) paradigm to expose male mice to social stress in either adolescence or adulthood and categorised them as “resilient” or “susceptible” based on social avoidance behaviour. We examined whether stress would alter the expression of DCC and Netrin-1 in mesolimbic dopamine regions and would have enduring consequences on PFC dopamine connectivity and cognition. While in adolescence the majority of mice are resilient but exhibit risk-taking behaviour, AcSD in adulthood leads to a majority ...
    Feb 12, 2021 Philip Vassilev
  • Journal Article
    MRI Compatible, Customizable, and 3D Printable Microdrive for Neuroscience Research | eNeuro
    The effective connectivity of brain networks can be assessed using functional magnetic resonance imaging (fMRI) to quantify the effects of local electrical microstimulation (EM) on distributed neuronal activity. The delivery of EM to specific brain regions, particularly with layer specificity, requires MRI compatible equipment that provides fine control of a stimulating electrode’s position within the brain while minimizing imaging artifacts. To this end, we developed a microdrive made entirely of MRI compatible materials. The microdrive uses an integrated penetration grid to guide electrodes and relies on a micro-drilling technique to eliminate the need for large craniotomies, further reducing implant maintenance and image distortions. The penetration grid additionally serves as a built-in MRI marker, providing a visible fiducial reference for estimating probe trajectories. Following the initial implant procedure, these features allow for multiple electrodes to be inserted, removed, and repositioned with ...
    Feb 12, 2021 Eunha Baeg
  • Journal Article
    Altered Activity of Lateral Orbitofrontal Cortex Neurons in Mice Following Chronic Intermittent Ethanol Exposure | eNeuro
    The Lateral Orbito-Frontal Cortex (LOFC) is thought to encode information associated with consumption of rewarding substances and is essential for flexible decision making. Indeed, firing patterns of LOFC neurons are modulated following changes in reward value associated with an action outcome relationship. Damage to the LOFC impairs behavioral flexibility in humans and is associated with sub-optimal performance in reward devaluation protocols in rodents. As chronic intermittent ethanol (CIE) exposure also impairs OFC-dependent behaviors, we hypothesized that CIE exposure would alter LOFC neuronal activity during alcohol drinking, especially under conditions when the reward value of ethanol was modulated by aversive or appetitive tastants. To test this hypothesis, we monitored LOFC activity using GCaMP6f fiber photometry in mice receiving acute injections of ethanol and in those trained in operant ethanol self-administration. In naïve mice, an acute injection of ethanol caused a dose-dependent decrease in ...
    Feb 12, 2021 D. A. Gioia
  • Journal Article
    Passive motor learning: Oculomotor adaptation in the absence of behavioral errors | eNeuro
    Motor adaptation is commonly thought to be a trial-and-error process in which the accuracy of movement improves with repetition of behavior. We challenged this view by testing whether erroneous movements are necessary for motor adaptation. In the eye movement system, the association between movements and errors can be disentangled, since errors in the predicted stimulus trajectory can be perceived even without movements. We modified a smooth pursuit eye movement adaptation paradigm in which monkeys learn to make an eye movement that predicts an upcoming change in target direction. We trained the monkeys to fixate on a target while covertly, an additional target initially moved in one direction and then changed direction after 250 ms. The monkeys showed a learned response to infrequent probe trials in which they were instructed to follow the moving target. Further experiments confirmed that probing learning or residual eye movements during fixation did not drive learning. These results show that motor adapt...
    Feb 12, 2021 Matan Cain
  • Journal Article
    Small size of recorded neuronal structures confines the accuracy in direct axonal voltage measurements | eNeuro
    Patch-clamp instruments including amplifier circuits and pipettes affect the recorded voltage signals. We hypothesized that realistic and complete in silico representation of recording instruments together with detailed morphology and biophysics of small recorded structures will reveal signal distortions and provide a tool that predicts native, instrument-free electrical signals from distorted voltage recordings. Therefore, we built a model that was verified by small axonal recordings. The model accurately recreated actual action potential measurements with typical recording artefacts and predicted the native electrical behavior. The simulations verified that recording instruments substantially filter voltage recordings. Moreover, we revealed that instrumentation directly interferes with local signal generation depending on the size of the recorded structures, which complicates the interpretation of recordings from smaller structures, such as axons. However, our model offers a straightforward approach that...
    Feb 12, 2021 Viktor János Oláh
  • Journal Article
    Outer hair cell glutamate signaling through type II spiral ganglion afferents activates neurons in the cochlear nucleus in response to non-damaging sounds | Journal of Neuroscience
    Cochlear outer hair cells (OHCs) are known to uniquely participate in auditory processing through their electromotility, and like inner hair cells (IHCs), are also capable of releasing vesicular glutamate onto spiral ganglion (SG) neurons; in this case onto the sparse type II SG neurons. However, unlike glutamate signaling at the inner hair cell (IHC) -type I SG synapse, which is robust across a wide spectrum of sound intensities, glutamate signaling at the OHC-type II SG synapse is weaker and has been hypothesized to occur only at intense, possibly damaging sound levels. Here, we tested the ability of the OHC-type II SG pathway to signal to the brain in response to moderate, non-damaging sound (80 dB SPL) as well as to intense sound (115 dB SPL). First, we determined the vesicular glutamate transporters (VGLUTs) associated with OHC signaling and then confirmed the loss of glutamatergic synaptic transmission from OHCs to type II SG neurons in knockout mice using dendritic patch-clamp recordings. Next, we g...
    Feb 11, 2021 Catherine J.C. Weisz
  • Journal Article
    Single-dimensional human brain signals for two-dimensional economic choice options | Journal of Neuroscience
    Rewarding choice options typically contain multiple components, but neural signals in single brain voxels are scalar and primarily vary up or down. In a previous study, we had designed reward bundles that contained the same two milkshakes with independently set amounts; we had used psychophysics and rigorous economic concepts to estimate two-dimensional choice indifference curves (IC) that represented revealed stochastic preferences for these bundles in a systematic, integrated manner. All bundles on the same ICs were equally revealed preferred (and thus had same utility, as inferred from choice indifference); bundles on higher ICs (higher utility) were preferred to bundles on lower ICs (lower utility). In the current study, we used the established behavior for testing with functional magnetic resonance imaging (fMRI). We now demonstrate neural responses in reward-related brain structures of human female and male participants, including striatum, midbrain and medial orbitofrontal cortex that followed the c...
    Feb 10, 2021 Leo Chi U Seak
  • Journal Article
    How to Interpret Resting-State fMRI: Ask Your Participants | Journal of Neuroscience
    Resting-state fMRI (rsfMRI) reveals brain dynamics in a task-unconstrained environment as subjects let their minds wander freely. Consequently, resting subjects navigate a rich space of cognitive and perceptual states (i.e., ongoing experience). How this ongoing experience shapes rsfMRI summary metrics (e.g., functional connectivity) is unknown, yet likely to contribute uniquely to within- and between-subject differences. Here we argue that understanding the role of ongoing experience in rsfMRI requires access to standardized, temporally resolved, scientifically validated first-person descriptions of those experiences. We suggest best practices for obtaining those descriptions via introspective methods appropriately adapted for use in fMRI research. We conclude with a set of guidelines for fusing these two data types to answer pressing questions about the etiology of rsfMRI.
    Feb 10, 2021 Javier Gonzalez-Castillo
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