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9171 - 9180 of 52804 results
  • Journal Article
    Table of Contents — September 08, 2021, 41 (36) | Journal of Neuroscience
    Sep 8, 2021
  • Journal Article
    Neuropeptide Modulation Increases Dendritic Electrical Spread to Restore Neuronal Activity Disrupted by Temperature | Journal of Neuroscience
    Peptide neuromodulation has been implicated to shield neuronal activity from acute temperature changes that can otherwise lead to loss of motor control or failure of vital behaviors. However, the cellular actions neuropeptides elicit to support temperature-robust activity remain unknown. Here, we find that peptide neuromodulation restores rhythmic bursting in temperature-compromised central pattern generator (CPG) neurons by counteracting membrane shunt and increasing dendritic electrical spread. We show that acutely rising temperatures reduced spike generation and interrupted ongoing rhythmic motor activity in the crustacean gastric mill CPG. Neuronal release and extrinsic application of Cancer borealis tachykinin-related peptide Ia (CabTRP Ia), a substance-P-related peptide, restored rhythmic activity. Warming led to a significant decrease in membrane resistance and a shunting of the dendritic signals in the main gastric mill CPG neuron. Using a combination of fluorescent calcium imaging and electrophysi...
    Sep 8, 2021 Margaret L. DeMaegd
  • Journal Article
    Critical Role of Astrocyte NAD+ Glycohydrolase in Myelin Injury and Regeneration | Journal of Neuroscience
    Western-style diets cause disruptions in myelinating cells and astrocytes within the mouse central nervous system (CNS). CD38 shows increased expression in the cuprizone and experimental autoimmune encephalomyelitis models of demyelination; in addition, CD38 is the main nicotinamide adenine dinucleotide (NAD+)-depleting enzyme in the CNS. Altered NAD+ metabolism is linked to both high fat consumption and multiple sclerosis (MS). Here, we identify increased CD38 expression in the male mouse spinal cord following chronic high fat consumption, after focal toxin (lysolecithin[LL])-mediated demyelinating injury and in reactive astrocytes within active MS lesions. We demonstrate that CD38-catalytically inactive mice are substantially protected from high fat-induced NAD+ depletion, oligodendrocyte loss, oxidative damage, and astrogliosis. A CD38 inhibitor, 78c, increased NAD+ and attenuated neuroinflammatory changes induced by saturated fat applied to astrocyte cultures. Conditioned media from saturated fat-expos...
    Sep 7, 2021 Monica R. Langley
  • Journal Article
    Reliable sensory processing in mouse visual cortex through cooperative interactions between somatostatin and parvalbumin interneurons | Journal of Neuroscience
    Intrinsic neuronal variability significantly limits information encoding in the primary visual cortex (V1). However, under certain conditions, neurons can respond reliably with highly precise responses to the same visual stimuli from trial to trial. This suggests that there exist intrinsic neural circuit mechanisms that dynamically modulate the inter-trial variability of visual cortical neurons. Here, we sought to elucidate the role of different inhibitory interneurons in reliable coding in mouse V1. To study the interactions between somatostatin-expressing (SST) and parvalbumin-expressing (PV) interneurons, we used a dual-color calcium imaging technique that allowed us to simultaneously monitor these two neural ensembles while awake mice, of both sexes, passively viewed natural movies. SST neurons were more active during epochs of reliable pyramidal neuron firing whereas PV neurons were more active during epochs of unreliable firing. SST neuron activity lagged that of PV neurons, consistent with a feedbac...
    Sep 7, 2021 Rajeev V. Rikhye
  • Journal Article
    Common and unique inhibitory control signatures of action-stopping and attentional capture suggest that actions are stopped in two stages | Journal of Neuroscience
    The ability to stop an already initiated action is paramount to adaptive behavior. Much scientific debate in the field of human action-stopping currently focuses on two interrelated questions. First: Which cognitive and neural processes uniquely underpin the implementation of inhibitory control when actions are stopped after explicit stop-signals, and which processes are instead commonly evoked by all salient signals, even those that do not require stopping? Second: Why do purported (neuro)physiological signatures of inhibition occur at two different latencies after stop-signals? Here, we address both questions via two pre-registered experiments that combined measurements of cortico-spinal excitability (CSE), electromyography (EMG), and whole-scalp electroencephalography (EEG). Adult human subjects performed a stop-signal task that also contained ‘ignore’ signals – equally salient signals that did not require stopping but rather completion of the Go response. We found that both stop- and ignore-signals pro...
    Sep 7, 2021 Joshua R. Tatz
  • Journal Article
    Beneficial Effects of Transplanted Human Bone Marrow Endothelial Progenitors on Functional and Cellular Components of Blood-Spinal Cord Barrier in ALS Mice | eNeuro
    Convincing evidence of blood-spinal cord barrier (BSCB) alterations has been demonstrated in amyotrophic lateral sclerosis (ALS) and barrier repair is imperative to prevent motor neuron dysfunction. We showed benefits of human bone marrow-derived CD34+ cells (hBM34+) and endothelial progenitor cells (hBM-EPCs) intravenous transplantation into symptomatic G93A SOD1 mutant mice on barrier reparative processes. These gains likely occurred by replacement of damaged endothelial cells, prolonging motor neuron survival. However, additional investigations are needed to confirm the effects of administered cells on integrity of the microvascular endothelium. The aim of this study was to determine tight junction protein levels, capillary pericyte coverage, microvascular basement membrane, and endothelial F-actin status in spinal cord capillaries of G93A SOD1 mutant mice treated with human bone marrow-derived stem cells. Tight junction proteins were detected in the spinal cords of cell-treated vs. non-treated mice via...
    Sep 3, 2021 Svitlana Garbuzova-Davis
  • Journal Article
    Sex differences in behavioral and brainstem transcriptomic neuroadaptations following neonatal opioid exposure in outbred mice | eNeuro
    The opioid epidemic led to an increase in the number of Neonatal Opioid Withdrawal Syndrome ( NOWS ) cases in infants born to opioid-dependent mothers. Hallmark features of NOWS include weight loss, severe irritability, respiratory problems, and sleep fragmentation. Mouse models provide an opportunity to identify brain mechanisms that contribute to NOWS. Neonatal outbred Swiss Webster Cartworth Farms White (CFW) mice were administered morphine (15mg/kg, s.c.) twice daily for postnatal days (P) 1-14, an approximate of the third trimester of human gestation. Female and male mice underwent behavioral testing on P7 and P14 to determine the impact of opioid exposure on anxiety and pain sensitivity. Ultrasonic vocalizations (USVs) and daily body weights were also recorded. Brainstems containing pons and medulla were collected during morphine withdrawal on P14 for RNA-sequencing. Morphine induced weight loss from P2-14, which persisted during adolescence (P21) and adulthood (P50). USVs markedly increased at P7 in...
    Sep 3, 2021 Kristyn N. Borrelli
  • Journal Article
    Transient oxygen-glucose deprivation causes region- and cell type-dependent functional deficits in the mouse hippocampus in vitro | eNeuro
    Neurons are highly vulnerable to conditions of hypoxia-ischemia (HI) such as stroke or transient ischemic attacks. Recovery of cognitive and behavioral functions requires re-emergence of coordinated network activity, which, in turn, relies on the well-orchestrated interaction of pyramidal cells (PYR) and interneurons. We therefore modelled HI in the mouse hippocampus, a particularly vulnerable region showing marked loss of PYR and fast-spiking interneurons (FSI) after hypoxic-ischemic insults. Transient oxygen-glucose deprivation (OGD) in ex vivo hippocampal slices led to a rapid loss of neuronal activity and spontaneous network oscillations (sharp wave-ripple complexes, SPW-R), and to the occurrence of a spreading depolarization. Following reperfusion, both SPW-R and neuronal spiking resumed, but FSI activity remained strongly reduced compared to PYR. Whole-cell recordings in CA1 PYR revealed, however, a similar reduction of both excitatory and inhibitory postsynaptic currents, leaving inhibition-excitati...
    Sep 2, 2021 Paul Grube
  • Journal Article
    Mu opioid receptor stimulation in the nucleus accumbens increases vocal-social interactions in flocking European starlings, Sturnus vulgaris | eNeuro
    Social connections in gregarious species are vital for safety and survival. For these reasons, many bird species form large flocks outside the breeding season. It has been proposed that such large social groups may be maintained via reward induced by positive interactions with conspecifics and via the reduction of a negative affective state caused by social separation. Moreover, within a flock optimal social spacing between conspecifics is important, indicating that individuals may optimize spacing to be close but not too close to conspecifics. Mu opioid receptors (MORs) in the nucleus accumbens (NAc) are well known for their role in both reward and the reduction of negative affective states, suggesting that MOR stimulation in NAc may play a critical role in flock cohesion. To begin to test this hypothesis, social and non-social behaviors were examined in male and female European starlings ( Sturnus vulgaris ) in non-breeding flocks after intra-NAc infusion of saline and three doses of the selective MOR ag...
    Sep 2, 2021 A.N. Maksimoski
  • Journal Article
    The Akt-mTOR pathway drives myelin sheath growth by regulating cap-dependent translation | Journal of Neuroscience
    In the vertebrate central nervous system, oligodendrocytes produce myelin, a specialized membrane, to insulate and support axons. Individual oligodendrocytes wrap multiple axons with myelin sheaths of variable lengths and thicknesses. Myelin grows at the distal ends of oligodendrocyte processes and multiple lines of work have provided evidence that mRNAs and RNA binding proteins localize to myelin, together supporting a model where local translation controls myelin sheath growth. What signal transduction mechanisms could control this? One strong candidate is the Akt-mTOR pathway, a major cellular signaling hub that coordinates transcription, translation, metabolism, and cytoskeletal organization. Here, using zebrafish as a model system, we found that Akt-mTOR signaling promotes myelin sheath growth and stability during development. Through cell-specific manipulations to oligodendrocytes, we show that the Akt-mTOR pathway drives cap-dependent translation to promote myelination and that restoration of cap-de...
    Sep 2, 2021 Karlie N. Fedder-Semmes
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