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8601 - 8610
of 52807 results
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Journal ArticleIn the mammalian brain perivascular astrocytes (PAs) closely juxtapose blood vessels and are postulated to have important roles in the control of vascular physiology, including regulation of the blood-brain barrier (BBB). Deciphering specific functions for PAs in BBB biology, however, has been limited by the ability to distinguish these cells from other astrocyte populations. In order to characterize selective roles for PAs in vivo, a new mouse model has been generated in which the endogenous megalencephalic leukoencephalopathy with subcortical cysts 1 (Mlc1) gene drives expression of Cre fused to a mutated estrogen ligand-binding domain (Mlc1-T2A-CreERT2). This knock-in mouse model, which we term MLCT, allows for selective identification and tracking of PAs in the post-natal brain. We also demonstrate that MLCT-mediated ablation of PAs causes severe defects in BBB integrity, resulting in premature death. PA loss results in aberrant localization of Claudin 5 and VE-Cadherin in endothelial cell junctions as...Dec 29, 2021
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Journal ArticleWhile opioids produce both analgesia and side-effects by action at mu-opioid receptors (MOR), at spinal and supraspinal sites, potency of different opioids to produce these effects vary. While it has been suggested that these differences might be due to bias for signaling via β-arrestin versus G protein alpha (Gα), recent studies suggest that G protein biased MOR agonists still produce clinically important side-effects. Since bias also exists in the role of Gα subunits, we evaluated the role of Gαi/o subunits in analgesia, hyperalgesia, and hyperalgesic priming produced by fentanyl and morphine, in male rats. We found that intrathecal treatment with oligodeoxynucleotides antisense (AS-ODN) for Gαi2, Gαi3 and Gαo markedly attenuated hyperalgesia induced by sub-analgesic dose (sub-AD) fentanyl, while AS-ODN for Gαi1, as well as Gαi2 and Gαi3, but not Gαo, prevented hyperalgesia induced by sub-AD morphine. AS-ODN for Gαi1 and Gαi2 unexpectedly enhanced analgesia induced by analgesic dose (AD) fentanyl, while ...Dec 29, 2021
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Journal ArticleNarrowband gamma oscillations (NBG: ∼20-60Hz) in visual cortex reflect rhythmic fluctuations in population activity generated by underlying circuits tuned for stimulus location, orientation, and color. A variety of theories posit a specific role for NBG in encoding and communicating this information within visual cortex. However, recent findings suggest a more nuanced role for NBG, given its dependence on certain stimulus feature configurations, such as coherent oriented edges and specific hues. Motivated by these factors, we sought to quantify the independent and joint tuning properties of NBG to oriented and color stimuli using intracranial recordings from the human visual cortex (male & female). NBG was shown to display a cardinal orientation bias (horizontal) and also an end- and mid-spectral color bias (red/blue and green). When jointly probed, the cardinal bias for orientation was attenuated and an end-spectral preference for red and blue predominated. This loss of mid-spectral tuning occurred even f...Dec 28, 2021
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Journal ArticleThe physical interaction and functional cross-talk among the different subtypes of neuronal nicotinic receptors (nAChRs) expressed in the various tissues is unknown. Here we have investigated this issue between the only two nAChRs subtypes expressed, the α7 and α3β4 subtypes, in a human native neuroendocrine cell (the chromaffin cell) using electrophysiological patch-clamp, fluorescence, and FRET techniques. Our data show that α7 and α3β4 receptor subtypes require their mutual and maximal efficacy of activation to increase their expression, to avoid their desensitization, and therefore, to increase their activity. In this way, after repetitive stimulation with acetylcholine (ACh), α7 and α3β4 receptor subtypes do not desensitize, but they do with choline. The nicotinic current increase associated with the α3β4 subtype is dependent on Ca2+. In addition, both receptor subtypes physically interact. Interaction and expression of both subtypes are reversibly reduced by tyrosine and serine/threonine phosphatases...Dec 28, 2021
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Journal ArticleThe prefrontal cortex (PFC) and insula, amygdala, and striatum form interconnected networks that drive motivated behaviors. We previously found a connectional trend in which granularity of the ventromedial and orbital PFC/insula predicted connections to the amygdala, and also the breadth of amygdalo-striatal efferents, including projections beyond the 'classic' ventral striatum. To further interrogate connectional relationships among the cortex, amygdala, and striatum, and to further define the 'limbic (amygdala-recipient) striatum', we conducted tract tracing studies in two cohorts of Macaques (Male n = 14, Female n = 1). We focused on the cortico-amygdalo-striatal (indirect) and cortico-‘limbic’ striatal (direct) paths originating in the entire PFC and insula. Larger data sets and a quantitative approach revealed 'cortical rules' in which cortical granularity predicts the complexity and location of projections to both the basal nucleus of the amygdala and striatum. Remarkably, projections from 'cortical-...Dec 28, 2021
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Journal ArticleNeurons regulate the strength of their synapses in response to a perturbation in order to stabilize neuronal signaling through a form of homeostatic plasticity known as synaptic scaling. The process of scaling has the potential to alter all of a cell’s miniature postsynaptic current (mPSC) amplitudes by a single multiplicative factor (uniform scaling), and in doing so could change action potential-dependent or evoked synaptic strength by that factor. However, recent studies suggest that individual synapses scale with different scaling factors (non-uniform). This could complicate the simple multiplicative transform from mPSC scaling to the evoked response. We have previously identified a slow AMPAergic and GABAergic synaptic scaling in chick embryo motoneurons following 2-day in vivo perturbations inhibiting neuronal activity or GABAAR function, and now show a rapid form of scaling following NMDA receptor blockade in vitro . Slow GABAergic scaling appeared to be of a classical uniform pattern. Alternatively...Dec 27, 2021
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Journal ArticleCollagen VI is a key component of muscle basement membranes, and genetic variants can cause monogenic muscular dystrophies. Conversely, human genetic studies recently implicated collagen VI in central nervous system function, with variants causing the movement disorder dystonia. To elucidate the neurophysiological role of collagen VI, we generated mice with a truncation of the dystonia-related collagen α3 (VI) (COL6A3) C-terminal domain (CTD). These Col6a3 CTT mice showed a recessive dystonia-like phenotype in both sexes. We found that COL6A3 interacts with the cannabinoid receptor 1 (CB1R) complex in a CTD-dependent manner. Col6a3 CTT mice of both sexes have impaired homeostasis of excitatory input to the basal pontine nuclei (BPN), a motor control hub with dense COL6A3 expression, consistent with deficient endocannabinoid signaling. Aberrant synaptic input in the BPN was normalized by a CB1R agonist, and motor performance in Col6a3 CTT mice of both sexes was improved by CB1R agonist treatment. Our findin...Dec 27, 2021
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Journal ArticleCovert spatial attention (without concurrent eye movements) improves performance in many visual tasks (e.g., orientation discrimination and visual search). However, both covert attention systems—endogenous (voluntary) and exogenous (involuntary)—exhibit differential effects on performance in tasks mediated by spatial and temporal resolution suggesting an underlying mechanistic difference. We investigated whether these differences manifest in sensory tuning by assessing whether and how endogenous and exogenous attention differentially alter the representation of two basic visual dimensions–orientation and spatial frequency (SF). The same human observers detected a grating embedded in noise in two separate experiments (with endogenous or exogenous attention cues). Reverse correlation was used to infer the underlying neural representation from behavioral responses, and we linked our results to established neural computations via a normalization model of attention. Both endogenous and exogenous attention simil...Dec 27, 2021
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Journal ArticleIn presynaptic terminals, membrane-delimited Gi/o-mediated presynaptic inhibition is ubiquitous and acts through Gβγ to inhibit Ca2+ entry, or directly at SNARE complexes to inhibit Ca2+-dependent synaptotagmin-SNARE complex interactions. At CA1-subicular presynaptic terminals 5-HT1B and GABAB receptors colocalize. GABAB receptors inhibit Ca2+ entry, whereas 5-HT1B receptors target SNARE complexes. We demonstrate in male and female rats that GABAB receptors receptors alter Pr, whereas 5-HT1B receptors reduce evoked cleft glutamate concentrations allowing differential inhibition of AMPA and NMDA receptor EPSCs. This reduction in cleft glutamate concentration was confirmed by imaging glutamate release using a genetic sensor (iGluSnFR).Simulations of glutamate release and postsynaptic glutamate receptor currents were made. We tested effects of changes in vesicle numbers undergoing fusion at single synapses, relative placement of fusing vesicles and postsynaptic receptors, and the rate of release of glutamate ...Dec 23, 2021
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Journal ArticlePrimates explore their visual environment by making frequent saccades , discrete and ballistic eye movements that direct the fovea to specific regions of interest. Saccades produce large and rapid changes in input. The magnitude of these changes and the limited signaling range of visual neurons means that effective encoding requires rapid adaptation. Here, we explore how macaque cone photoreceptors maintain sensitivity under these conditions. Adaptation makes cone responses to naturalistic stimuli highly nonlinear and dependent on stimulus history. Such responses cannot be explained by linear or linear-nonlinear models but are well explained by a biophysical model of phototransduction based on well-established biochemical interactions. The resulting model can predict cone responses to a broad range of stimuli and enables the design of stimuli that elicit specific (e.g. linear) cone photocurrents. These advances will provide a foundation for investigating the contributions of cone phototransduction and post...Dec 23, 2021





