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10771 - 10780 of 52809 results
  • Journal Article
    Orbitofrontal state representations are related to choice adaptations and reward predictions | Journal of Neuroscience
    Animals can categorize the environment into “states,” defined by unique sets of available action-outcome contingencies in different contexts. Doing so helps them choose appropriate actions and make accurate outcome predictions when in each given state. State maps have been hypothesized to be held in the orbitofrontal cortex (OFC), an area implicated in decision making and encoding information about outcome predictions. Here we recorded neural activity in OFC in six male rats to test state representations. Rats were trained on an odor-guided choice task consisting of five trial blocks containing distinct sets of action-outcome contingencies, constituting states, with unsignaled transitions between them. OFC neural ensembles were analyzed using decoding algorithms. Results indicate that the vast majority of OFC neurons contributed to representations of the current state at any point in time, independent of odor cues and reward delivery, even at the level of individual neurons. Across state transitions, these...
    Jan 14, 2021 Thomas A. Stalnaker
  • Journal Article
    Premotor ramping of thalamic neuronal activity is modulated by nigral inputs and contributes to control the timing of action release | Journal of Neuroscience
    The ventromedial and ventro-anterior-lateral (VM/VAL) motor thalamus is a key junction within the brain circuits sustaining normal and pathological motor control functions and decision making. In this area of thalamus, on one hand, the inhibitory nigro-thalamic pathway provides a main output from the basal ganglia, and on the other hand motor thalamo-cortical loops are involved in the maintenance of ramping preparatory activity before goal directed movements. To better understand the nigral impact on thalamic activity, we recorded electrophysiological responses from VM/VAL neurons while male and female mice were performing a delayed right/left decision licking task. Analysis of correct and error trials revealed that thalamic ramping activity was stronger for premature licks (impulsive action), and weaker for trials with no licks (omission) compared to correct trials. Suppressing ramping activity through optogenetic activation of nigral terminals in the motor thalamus during the delay epoch of the task led...
    Jan 14, 2021 Julien Catanese
  • Journal Article
    Phase-locking requires efficient Ca2+ extrusion at the auditory hair cell ribbon synapses | Journal of Neuroscience
    Proper perception of sounds in the environment requires auditory signals to be encoded with extraordinary temporal precision up to tens of microseconds, but how it originates from the hearing organs in the periphery is poorly understood. In particular, sound-evoked spikes in auditory afferent fibers in vivo are phase-locked to sound frequencies up to 5 kHz, but it is not clear how hair cells can handle intracellular Ca2+ changes with such high speed and efficiency. In this study, we combined patch-clamp recording and two-photon Ca2+ imaging to examine Ca2+ dynamics in hair cell ribbon synapses in the bullfrog amphibian papilla of both sexes. We found that Ca2+ clearance from single synaptic ribbons followed a double exponential function, and the weight of the fast component, but not the two time constants, was significantly reduced for prolonged stimulation, and during inhibition of the plasma membrane Ca2+ ATPase (PMCA), the mitochondrial Ca2+ uptake (MCU), or the sarcolemma/endoplasmic reticulum Ca2+ ATP...
    Jan 14, 2021 Adolfo E. Cuadra
  • Journal Article
    Sleep analysis in adult C. elegans reveals state-dependent alteration of neural and behavioral responses | Journal of Neuroscience
    Sleep, a state of quiescence associated with growth and restorative processes, is conserved across species. Invertebrates including the nematode Caenorhabditis elegans exhibit sleep-like states during development, satiety and stress. Here we describe behavior and neural activity during sleep and awake states in adult C. elegans hermaphrodites using new microfluidic methods. We observed effects of fluid flow, oxygen, feeding, odors, and genetic perturbations on long-term sleep behavior over 12 h. We developed a closed-loop sleep detection system to automatically deliver chemical stimuli to assess sleep-dependent changes to evoked neural responses in individual animals. Sleep increased the arousal threshold to aversive stimulation, yet the associated sensory neuron and first-layer interneuron responses were unchanged. This localizes adult sleep-dependent neuromodulation within interneurons presynaptic to the premotor interneurons, rather than afferent sensory circuits. However, sleep prolonged responses in a...
    Jan 14, 2021 Daniel E. Lawler
  • Journal Article
    Complement Drives Synaptic Degeneration and Progressive Cognitive Decline in the Chronic Phase After Traumatic Brain Injury | Journal of Neuroscience
    Cognitive deficits following traumatic brain injury (TBI) remain a major cause of disability and early-onset dementia, and there is increasing evidence that chronic neuroinflammation occurring after TBI plays an important role in this process. However, little is known about the molecular mechanisms responsible for triggering and maintaining chronic inflammation after TBI. Here, we identify complement, and specifically complement-mediated microglial phagocytosis of synapses, as a pathophysiological link between acute insult and a chronic neurodegenerative response that is associated with cognitive decline. Three months after an initial insult, there is ongoing complement activation in the injured brain of male C57BL/6 mice, which drives a robust chronic neuroinflammatory response extending to both hemispheres. This chronic neuroinflammatory response promotes synaptic degeneration and predicts progressive cognitive decline. Synaptic degeneration was driven by microglial phagocytosis of complement opsonized s...
    Jan 14, 2021 Ali Alawieh
  • Journal Article
    Hypothalamic-extended amygdala circuit regulates temporal discounting | Journal of Neuroscience
    Choice behavior is characterized by temporal discounting, i.e., preference for immediate rewards given a choice between immediate and delayed rewards. Agouti-related peptide (AgRP) expressing neurons located in the arcuate nucleus of the hypothalamus regulate food intake and energy homeostasis, yet whether AgRP neurons influence choice behavior and temporal discounting is unknown. Here, we demonstrate that motivational state potently modulates temporal discounting. Hungry mice (both male and female) strongly preferred immediate food rewards, yet sated mice were largely indifferent to reward delay. More importantly, selective optogenetic activation of AgRP-expressing neurons or their axon terminals within the posterior bed nucleus of stria terminalis (BNST) produced temporal discounting in sated mice. Furthermore, activation of neuropeptide Y receptors (Y1Rs) within the BNST is sufficient to produce temporal discounting. These results demonstrate a profound influence of hypothalamic signaling on temporal di...
    Jan 13, 2021 Haofang E. Li
  • Journal Article
    Golgi-Dependent Copper Homeostasis Sustains Synaptic Development and Mitochondrial Content | Journal of Neuroscience
    Rare genetic diseases preponderantly affect the nervous system causing neurodegeneration to neurodevelopmental disorders. This is the case for both Menkes and Wilson disease, arising from mutations in ATP7A and ATP7B, respectively. The ATP7A and ATP7B proteins localize to the Golgi and regulate copper homeostasis. We demonstrate genetic and biochemical interactions between ATP7 paralogs with the conserved oligomeric Golgi (COG) complex, a Golgi apparatus vesicular tether. Disruption of Drosophila copper homeostasis by ATP7 tissue-specific transgenic expression caused alterations in epidermis, aminergic, sensory, and motor neurons. Prominent among neuronal phenotypes was a decreased mitochondrial content at synapses, a phenotype that paralleled with alterations of synaptic morphology, transmission, and plasticity. These neuronal and synaptic phenotypes caused by transgenic expression of ATP7 were rescued by downregulation of COG complex subunits. We conclude that the integrity of Golgi-dependent copper home...
    Jan 13, 2021 Cortnie Hartwig
  • Journal Article
    Prior Cocaine Use Alters the Normal Evolution of Information Coding in Striatal Ensembles during Value-Guided Decision-Making | Journal of Neuroscience
    Substance use disorders (SUDs) are characterized by maladaptive behavior. The ability to properly adjust behavior according to changes in environmental contingencies necessitates the interlacing of existing memories with updated information. This can be achieved by assigning learning in different contexts to compartmentalized “states.” Though not often framed this way, the maladaptive behavior observed in individuals with SUDs may result from a failure to properly encode states because of drug-induced neural alterations. Previous studies found that the dorsomedial striatum (DMS) is important for behavioral flexibility and state encoding, suggesting the DMS may be an important substrate for these effects. Here, we recorded DMS neural activity in cocaine-experienced male rats during a decision-making task where blocks of trials represented distinct states to probe whether the encoding of state and state-related information is affected by prior drug exposure. We found that DMS medium spiny neurons (MSNs) and ...
    Jan 13, 2021 Lauren E. Mueller
  • Journal Article
    Erratum: Marneweck and Grafton, “Representational Neural Mapping of Dexterous Grasping Before Lifting in Humans” | Journal of Neuroscience
    In the article, “Representational Neural Mapping of Dexterous Grasping Before Lifting in Humans,” by Michelle Marneweck and Scott T. Grafton, which appeared on pages [2708–2716][1] of the March 25, 2020 issue, an important detail was left out of the legend of Figure 2. The online version has
    Jan 13, 2021
  • Journal Article
    Regional Tau Effects on Prospective Cognitive Change in Cognitively Normal Older Adults | Journal of Neuroscience
    Studies suggest that tau deposition starts in the anterolateral entorhinal cortex (EC) with normal aging, and that the presence of β-amyloid (Aβ) facilitates its spread to neocortex, which may reflect the beginning of Alzheimer's disease (AD). Functional connectivity between the anterolateral EC and the anterior-temporal (AT) memory network appears to drive higher tau deposition in AT than in the posterior-medial (PM) memory network. Here, we investigated whether this differential vulnerability to tau deposition may predict different cognitive consequences of EC, AT, and PM tau. Using 18F-flortaucipir (FTP) and 11C-Pittsburgh compound-B (PiB) positron emission tomography (PET) imaging, we measured tau and Aβ in 124 cognitively normal human older adults (74 females, 50 males) followed for an average of 2.8 years for prospective cognition. We found that higher FTP in all three regions was individually related to faster memory decline, and that the effects of AT and PM FTP, but not EC, were driven by Aβ+ indi...
    Jan 13, 2021 Xi Chen
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