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8751 - 8760 of 52802 results
  • Journal Article
    Three water restriction schedules used in rodent behavioral tasks transiently impair growth and differentially evoke a stress hormone response without causing dehydration | eNeuro
    Water restriction is commonly used to motivate rodents to perform behavioral tasks; however, its effects on hydration and stress hormone levels are unknown. Here, we report daily body weight and bi-weekly packed red blood cell volume and corticosterone in adult male rats across 80 days for three commonly used water restriction schedules. We also assessed renal adaptation to water restriction using post-mortem histological evaluation of renal medulla. A control group received ad libitum water. After one week of water restriction, rats on all restriction schedules resumed similar levels of growth relative to the control group. Normal hydration was observed, and water restriction did not drive renal adaptation. An intermittent restriction schedule was associated with an increase in corticosterone relative to the control group. However, intermittent restriction evokes a stress response which could affect behavioral and neurobiological results. Our results also suggest that stable motivation in behavioral tasks...
    Nov 23, 2021 Dmitrii Vasilev
  • Journal Article
    Decreasing alertness modulates perceptual decision-making | Journal of Neuroscience
    The ability to make decisions based on external information, prior knowledge and evidence, is a crucial aspect of cognition and may determine the success and survival of an organism. Despite extensive work on decision-making mechanisms/models, understanding the effects of alertness on neural and cognitive processes remain limited. Here we use electroencephalography and behavioural modelling to characterise cognitive and neural dynamics of perceptual decision-making in awake/low alertness periods in humans (14 male, 18 female) and characterise the compensatory mechanisms as alertness decreases. Well-rested human participants, changing between full-wakefulness and low alertness, performed an auditory tone-localisation task and its behavioural dynamics was quantified with psychophysics, signal detection theory and drift-diffusion modelling, revealing slower reaction times, inattention to the left side of space, and a lower rate of evidence accumulation in periods of low alertness. Unconstrained multivariate p...
    Nov 23, 2021 Sridhar R. Jagannathan
  • Journal Article
    Functional connectivity basis and underlying cognitive mechanisms for gender differences in guilt aversion | eNeuro
    Prosocial behavior is pivotal to our society. Guilt aversion, which describes the tendency to reduce the discrepancy between a partner’s expectation and his/her actual outcome, drives human prosocial behavior as does well-known inequity aversion. Although women are known to be more inequity averse than men, gender differences in guilt aversion remain unexplored. Here we conducted a functional magnetic resonance imaging (fMRI) study ( n = 52) and a large-scale online behavioral study ( n = 4723) of a trust game designed to investigate guilt and inequity aversions. The fMRI study demonstrated that men exhibited stronger guilt aversion and recruited right DLPFC-VMPFC connectivity more for guilt aversion than women, while VMPFC-DMPFC connectivity was commonly used in both genders. Furthermore, our regression analysis of the online behavioral data collected with Big Five and demographic factors replicated the gender differences and revealed that Big Five Conscientiousness (rule-based decision) correlated with g...
    Nov 23, 2021 Tsuyoshi Nihonsugi
  • Journal Article
    Loss of RNA-binding protein HuR leads to defective ependymal cells and hydrocephalus | Journal of Neuroscience
    Multiciliated ependymal cells line the ventricle wall and generate cerebrospinal fluid flow through ciliary beating. Defects in ependymal cells cause hydrocephalus, however, there are still significant gaps in our understanding the molecular, cellular and developmental mechanisms involved in the pathogenesis of hydrocephalus. Here, we demonstrate that specific deletion of RNA-binding protein HuR in the mouse brain results in hydrocephalus and causes postnatal death. HuR deficiency leads to impaired ependymal cell development with defective motile ciliogenesis in both female and male mice. Transcriptome-wide analysis reveals that HuR binds to mRNA transcripts related to ciliogenesis, including cilia and flagella associated protein 52 ( Cfap52 ), the effector gene of Foxj-1 and Rfx transcriptional factors. HuR deficiency accelerates the degradation of Cfap52 mRNA, while overexpression of Cfap52 is able to promote the development of HuR-deficient ependymal cells. Taken together, our results unravel the import...
    Nov 23, 2021 Xiu Han
  • Journal Article
    D1/D5 dopamine receptors and mGluR5 jointly enable non-Hebbian long-term potentiation at sensory synapses onto lamina I spinoparabrachial neurons | Journal of Neuroscience
    Highly correlated firing of primary afferent inputs and lamina I projection neurons evokes synaptic long-term potentiation (LTP), a mechanism by which ascending nociceptive transmission can be amplified at the level of the spinal dorsal horn. However, the degree to which neuromodulatory signaling shapes the temporal window governing spike timing-dependent plasticity (STDP) at sensory synapses onto projection neurons remains unclear. The present study demonstrates that activation of spinal D1/D5 dopamine receptors (D1/D5Rs) creates a highly permissive environment for the production of LTP in male and female adult mouse spinoparabrachial neurons by promoting ‘non-Hebbian’ plasticity. Bath application of the mixed D1/D5R agonist SKF82958 unmasked LTP at STDP pairing intervals that normally fail to alter synaptic efficacy. Furthermore, during D1/D5R signaling, action potential discharge in projection neurons became dispensable for LTP generation and primary afferent stimulation alone was sufficient to induce s...
    Nov 23, 2021 Jie Li
  • Journal Article
    Increased connectivity among sensory and motor regions during visual and audiovisual speech perception | Journal of Neuroscience
    In everyday conversation, we usually process the talker’s face as well as the sound of their voice. Access to visual speech information is particularly useful when the auditory signal is degraded. Here we used fMRI to monitor brain activity while adult humans (n = 60) were presented with visual-only, auditory-only, and audiovisual words. The audiovisual words were presented in quiet and several signal-to-noise ratios. As expected, audiovisual speech perception recruited both auditory and visual cortex, with some evidence for increased recruitment of premotor cortex in some conditions (including in substantial background noise). We then investigated neural connectivity using psychophysiological interaction (PPI) analysis with seed regions in both primary auditory cortex and primary visual cortex. Connectivity between auditory and visual cortices was stronger in audiovisual conditions than in unimodal conditions, including a wide network of regions in posterior temporal cortex and prefrontal cortex. In addit...
    Nov 23, 2021 Jonathan E. Peelle
  • Journal Article
    Gephyrin interacts with the K-Cl co-transporter KCC2 to regulate its surface expression and function in cortical neurons | Journal of Neuroscience
    The K+-Cl- co-transporter KCC2, encoded by the Slc12a5 gene, is a neuron-specific chloride extruder that tunes the strength and polarity of GABAA receptor-mediated transmission. Besides its canonical ion-transport function, KCC2 also regulates spinogenesis and excitatory synaptic function through interaction with a variety of molecular partners. KCC2 is enriched in the vicinity of both glutamatergic and GABAergic synapses, the activity of which in turn regulates its membrane stability and function. KCC2 interaction with the submembrane actin cytoskeleton via 4.1N is known to control its anchoring in the vicinity of glutamatergic synapses on dendritic spines. However, the molecular determinants of KCC2 clustering near GABAergic synapses remain unknown. Here, we used proteomics to identify novel KCC2 interacting proteins in the adult rat neocortex. We identified both known and novel candidate KCC2 partners, including some involved in neuronal development and synaptic transmission. These include gephyrin, the...
    Nov 22, 2021 Sana Al Awabdh
  • Journal Article
    Microglial correlates of late life physical activity: Relationship with synaptic and cognitive aging in older adults | Journal of Neuroscience
    Physical activity relates to reduced dementia risk, though the cellular and molecular mechanisms are unknown. We translated animal and in-vitro studies demonstrating a causal link between physical activity and microglial homeostasis into humans. Decedents from Rush MAP completed actigraphy monitoring (average daily activity) and cognitive evaluation in life, and neuropathological examination at autopsy. Brain tissue was analyzed for microglial activation via immunohistochemistry (anti-human HLA-DP-DQ-DR) and morphology (% stage I, II, or III), and synaptic protein levels (SNAP-25, synaptophysin, complexin-I, VAMP, syntaxin, synaptotagmin-1). Proportion of morphologically activated microglia (PAM) was estimated in ventromedial caudate, posterior putamen, inferior temporal (IT), and middle frontal gyrus. The 167 decedents averaged 90-years-old at death, two-thirds were nondemented, and 60% evidenced pathologic Alzheimer’s disease (AD). Adjusting for age, sex, education, and motor performances, greater physic...
    Nov 22, 2021 Kaitlin B. Casaletto
  • Journal Article
    Presenilin/γ-secretase activity is located in acidic compartments of live neurons | Journal of Neuroscience
    Presenilin (PSEN)/γ-secretase is a protease complex responsible for the proteolytic processing of numerous substrates. These substrates include the amyloid precursor protein (APP), the cleavage of which by γ-secretase results in the production of β-amyloid (Aβ) peptides. Yet, exactly where within the neuron γ-secretase processes APP C99 to generate Aβ and APP intracellular domain (AICD) is still not fully understood. Here, we employ novel Förster resonance energy transfer (FRET)-based multiplexed imaging assays to directly “visualize” the subcellular compartment(s) in which γ-secretase primarily cleaves C99 in mouse cortex primary neurons (from both male and female embryos). Our results demonstrate that γ-secretase processes C99 mainly in LysoTrackerTM-positive low-pH compartments. Using a new immunostaining protocol which distinguishes Aβ from C99, we also show that intracellular Aβ is significantly accumulated in the same subcellular loci. Furthermore, we found functional correlation between the endo-lys...
    Nov 22, 2021 Masato Maesako
  • Journal Article
    Rapid Analysis of Visual Receptive Fields by Iterative Tomography | eNeuro
    Many receptive fields in the early visual system show standard (center-surround) structure and can be analyzed using simple drifting patterns and a difference-of-Gaussians (DoG) model, which treats the receptive field as a linear filter of the visual image. But many other receptive fields show nonlinear properties such as selectivity for direction of movement. Such receptive fields are typically studied using discrete stimuli (moving or flashed bars and edges) and are modelled according to the features of the visual image to which they are most sensitive. Here, we harness recent advances in tomographic image analysis to characterize rapidly and simultaneously both the linear and nonlinear components of visual receptive fields. Spiking and intracellular voltage potential responses to briefly flashed bars are analyzed using non-negative matrix factorization (NNMF) and iterative reconstruction tomography (IRT). The method yields high-resolution receptive field maps of individual neurons and neuron ensembles i...
    Nov 19, 2021 Calvin. D. Eiber
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