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10671 - 10680 of 52809 results
  • Journal Article
    Parvalbumin interneurons are differentially connected to principal cells in inhibitory feedback microcircuits along the dorso-ventral axis of the medial entorhinal cortex | eNeuro
    The medial entorhinal cortex (mEC) shows a high degree of spatial tuning, predominantly grid-cell activity, which is reliant on robust, dynamic inhibition provided by local interneurons (INs). In fact, feedback inhibitory microcircuits involving fast-spiking parvalbumin (PV) basket cells (BCs) are believed to contribute dominantly to the emergence of grid-field firing in principal cells (PrCs). However, the strength of PV BC-mediated inhibition onto PrCs is not uniform in this region, but high in the dorsal and weak in the ventral mEC. This is in good correlation with divergent grid field sizes, but the underlying morphological and physiological mechanisms remain unknown. In this study, we examined PV BCs in layer 2/3 of the mEC characterizing their intrinsic physiology, morphology, and synaptic connectivity in the juvenile rat. We show that while intrinsic physiology and morphology are broadly similar over the dorso-ventral axis, PV BCs form more connections onto local PrCs in the dorsal mEC, independent ...
    Feb 1, 2021 Sabine Grosser
  • Journal Article
    Erratum: Zheng et al., “Adult Hippocampal Neurogenesis along the Dorsoventral Axis Contributes Differentially to Environmental Enrichment Combined with Voluntary Exercise in Alleviating Chronic Inflammatory Pain in Mice” | Journal of Neuroscience
    Feb 1, 2021
  • Journal Article
    Gemfibrozil Protects Dopaminergic Neurons in a Mouse Model of Parkinson’s disease via PPARα-Dependent Astrocytic GDNF Pathway | Journal of Neuroscience
    Parkinson’s disease (PD) is the most common neurodegenerative movement disorder in human. Despite intense investigations, effective therapies are not yet available to halt the progression of PD. Gemfibrozil, an FDA-approved lipid-lowering drug, is known to decrease the risk of coronary heart disease by increasing the level of high-density lipoprotein cholesterol and decreasing the level of low-density lipoprotein cholesterol. This study underlines the importance of gemfibrozil in protecting dopaminergic neurons in an animal model of PD. Oral administration of human equivalent dose of gemfibrozil protected tyrosine hydroxylase (TH)-positive dopaminergic neurons in the substantia nigra pars compacta (SNpc) and TH fibers in the striatum of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-insulted mice of both sexes. Accordingly, gemfibrozil also normalized striatal neurotransmitters and improved locomotor activities in MPTP-intoxicated mice. Gemfibrozil-mediated protection of the nigrostriatal and locomoto...
    Jan 29, 2021 Carl G. Gottschalk
  • Journal Article
    Caenorhabditis elegans F-box protein promotes axon regeneration by inducing degradation of the Mad transcription factor | Journal of Neuroscience
    In Caenorhabditis elegans , axon regeneration is activated by a signaling cascade through the receptor tyrosine kinase (RTK) SVH-2. Axonal injury induces svh-2 gene expression by degradation of the Mad-like transcription factor MDL-1. In this study, we identify the svh-24 / sdz-33 gene encoding a protein containing F-box and F-box associated domains as a regulator of axon regeneration in motor neurons. We find that sdz-33 is required for axon injury-induced svh-2 expression. SDZ-33 targets MDL-1 for poly-ubiquitylation and degradation. Furthermore, we demonstrate that SDZ-33 promotes axotomy-induced nuclear degradation of MDL-1, resulting in the activation of svh-2 expression in animals. These results suggest that the F-box protein is required for RTK signaling in the control of axon regeneration. SIGNIFICANCE STATEMENT: In C. elegans , axon regeneration is positively regulated by the growth factor SVH-1 and its receptor tyrosine kinase SVH-2. Expression of the svh-2 gene is induced by axonal injury via...
    Jan 29, 2021 Tatsuhiro Shimizu
  • Journal Article
    Insulin bi-directionally alters NAc glutamatergic transmission; interactions between insulin receptor activation, endogenous opioids, and glutamate release | Journal of Neuroscience
    Human fMRI studies show that insulin influences brain activity in regions that mediate reward and motivation, including the nucleus accumbens (NAc). Insulin receptors are expressed by NAc medium spiny neurons (MSNs), and studies of cultured cortical and hippocampal neurons suggest that insulin influences excitatory transmission via pre-synaptic and post-synaptic mechanisms. However, nothing is known about how insulin influences excitatory transmission in the NAc. Furthermore, insulin dysregulation accompanying obesity is linked to cognitive decline, depression, anxiety, and aberrant motivation that rely on NAc excitatory transmission. Using whole-cell patch clamp and biochemical approaches we determined how insulin affects NAc glutamatergic transmission in non-obese and obese male rats and the underlying mechanisms. We find that there are concentration-dependent, bi-directional effects of insulin on excitatory transmission, with insulin receptor activation increasing and IGF receptor activation decreasing ...
    Jan 29, 2021 Tracy L. Fetterly
  • Journal Article
    Insulin bi-directionally alters NAc glutamatergic transmission; interactions between insulin receptor activation, endogenous opioids, and glutamate release | Journal of Neuroscience
    Human fMRI studies show that insulin influences brain activity in regions that mediate reward and motivation, including the nucleus accumbens (NAc). Insulin receptors are expressed by NAc medium spiny neurons (MSNs), and studies of cultured cortical and hippocampal neurons suggest that insulin influences excitatory transmission via pre-synaptic and post-synaptic mechanisms. However, nothing is known about how insulin influences excitatory transmission in the NAc. Furthermore, insulin dysregulation accompanying obesity is linked to cognitive decline, depression, anxiety, and aberrant motivation that rely on NAc excitatory transmission. Using whole-cell patch clamp and biochemical approaches we determined how insulin affects NAc glutamatergic transmission in non-obese and obese male rats and the underlying mechanisms. We find that there are concentration-dependent, bi-directional effects of insulin on excitatory transmission, with insulin receptor activation increasing and IGF receptor activation decreasing ...
    Jan 29, 2021 Tracy L. Fetterly
  • Journal Article
    Caenorhabditis elegans F-box protein promotes axon regeneration by inducing degradation of the Mad transcription factor | Journal of Neuroscience
    In Caenorhabditis elegans , axon regeneration is activated by a signaling cascade through the receptor tyrosine kinase (RTK) SVH-2. Axonal injury induces svh-2 gene expression by degradation of the Mad-like transcription factor MDL-1. In this study, we identify the svh-24 / sdz-33 gene encoding a protein containing F-box and F-box associated domains as a regulator of axon regeneration in motor neurons. We find that sdz-33 is required for axon injury-induced svh-2 expression. SDZ-33 targets MDL-1 for poly-ubiquitylation and degradation. Furthermore, we demonstrate that SDZ-33 promotes axotomy-induced nuclear degradation of MDL-1, resulting in the activation of svh-2 expression in animals. These results suggest that the F-box protein is required for RTK signaling in the control of axon regeneration. SIGNIFICANCE STATEMENT: In C. elegans , axon regeneration is positively regulated by the growth factor SVH-1 and its receptor tyrosine kinase SVH-2. Expression of the svh-2 gene is induced by axonal injury via...
    Jan 29, 2021 Tatsuhiro Shimizu
  • Journal Article
    Direct structural connections between auditory and visual motion selective regions in humans | Journal of Neuroscience
    In humans, the occipital middle-temporal region (hMT+/V5) specializes in the processing of visual motion, while the Planum Temporale (hPT) specializes in auditory motion processing. It has been hypothesized that these regions might communicate directly to achieve fast and optimal exchange of multisensory motion information. Here we investigated for the first time in humans (male and female) the presence of direct white matter connections between visual and auditory motion-selective regions using a combined functional- and diffusion-MRI approach. We found evidence supporting the potential existence of direct white matter connections between individually and functionally defined hMT+/V5 and hPT. We show that projections between hMT+/V5 and hPT do not overlap with large white matter bundles such as the Inferior Longitudinal Fasciculus (ILF) nor the Inferior Frontal Occipital Fasciculus (IFOF). Moreover, we did not find evidence suggesting the presence of projections between the fusiform face area and hPT, sup...
    Jan 29, 2021 A. Gurtubay-Antolin
  • Journal Article
    Rapid Aging in the Perforant Path Projections to the Rodent Dentate Gyrus | Journal of Neuroscience
    Why layers II/III of entorhinal cortex (EC) deteriorate in advance of other regions during the earliest stages of Alzheimer’s disease is poorly understood. Failure of retrograde trophic support from synapses to cell bodies is a common cause of neuronal atrophy, and we accordingly tested for early life deterioration in projections of rodent layer II EC neurons. Using electrophysiology and quantitative imaging, changes in EC terminals during young adulthood were evaluated in male rats and mice. Field excitatory postsynaptic potentials, input/output curves, and frequency following capacity by lateral perforant path (LPP) projections from lateral EC to dentate gyrus were unchanged from 3 to 8-10 months of age. In contrast, the unusual presynaptic form of long-term potentiation (LTP) expressed by the LPP was profoundly impaired by 8 months in rats and mice. This impairment was accompanied by a reduction in the spine to terminal endocannabinoid signaling needed for LPP-LTP induction and was offset by an agent th...
    Jan 29, 2021 Mohammad Amani
  • Journal Article
    Erratum: Xiao et al., “The c-Abl-MST1 Signaling Pathway Mediates Oxidative Stress-Induced Neuronal Cell Death” | Journal of Neuroscience
    Jan 29, 2021
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