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8951 - 8960 of 52804 results
  • Journal Article
    Knockdown of heterogeneous nuclear ribonucleoprotein A1 results in neurite damage, altered stress granule biology and cellular toxicity in differentiated neuronal cells | eNeuro
    Heterogeneous nuclear ribonucleoprotein A1 (hnRNP A1) is an RNA binding protein (RBP) that is localized within neurons and plays crucial roles in RNA metabolism. Its importance in neuronal functioning is underscored from the study of its pathogenic features in many neurodegenerative diseases where neuronal hnRNP A1 is mislocalized from the nucleus to the cytoplasm resulting in loss of hnRNP A1 function. Here, we model hnRNP A1 loss-of-function by siRNA mediated knockdown in differentiated Neuro-2a cells. Through RNA sequencing (RNA-seq) followed by gene ontology (GO) analyses, we show that hnRNP A1 is involved in important biological processes, including RNA metabolism, neuronal function, neuronal morphology, neuronal viability, and stress granule (SG) formation. We further confirmed several of these roles by showing that hnRNP A1 knockdown results in a reduction of neurite outgrowth, increase in cell cytotoxicity and changes in SG formation. In summary, these findings indicate that hnRNP A1 loss-of-functi...
    Oct 22, 2021 Amber Anees
  • Journal Article
    MIF versus SIF motoneurons, what are their respective contribution in the oculomotor medial rectus pool? | Journal of Neuroscience
    Multiply-innervated muscle fibers (MIFs) are peculiar to the extraocular muscles as they are non-twitch but produce a slow build up in tension upon repetitive stimulation. The motoneurons innervating MIFs establish en grappe terminals along the entire length of the fiber, instead of the typical en plaque terminals that singly-innervated muscle fibers (SIFs) motoneurons establish around the muscle belly. MIF motoneurons have been proposed to participate only in gaze holding and slow eye movements. We aimed to discern the function of MIF motoneurons by recording medial rectus motoneurons of the oculomotor nucleus. Single-unit recordings in awake cats demonstrated that electrophysiologically-identified medial rectus MIF motoneurons participated in different types of eye movements, including fixations, rapid eye movements or saccades, convergences, and the slow and fast phases of the vestibulo-ocular nystagmus, the same as SIF motoneurons did. However, MIF medial rectus motoneurons presented lower firing frequ...
    Oct 21, 2021 Génova Carrero-Rojas
  • Journal Article
    A Precuneal Causal Loop Mediates External and Internal Information Integration in the Human Brain | Journal of Neuroscience
    Human brains interpret external stimuli based on internal representations. One untested hypothesis is that the default-mode network (DMN), widely considered responsible for internally oriented cognition, can decode external information. Here, we posit that the unique structural and functional fingerprint of the precuneus (PCu) supports a prominent role for the posterior part of the DMN in this process. By analyzing the imaging data of 100 participants performing two attention-demanding tasks, we found that the PCu is functionally divided into dorsal and ventral subdivisions. We then conducted a comprehensive examination of their connectivity profiles and found that at rest, both the ventral PCu (vPCu) and dorsal PCu (dPCu; d/vPCu) are mainly connected with the DMN but also are differentially connected with internally oriented network (IoN) and externally oriented network (EoN). During tasks, the double associations between the d/vPCu and the IoN/EoN are correlated with task performance and can switch depen...
    Oct 21, 2021 Dian Lyu
  • Journal Article
    Arcuate nucleus overexpression of NHLH2 reduces body mass and attenuates obesity-associated anxiety/depression-like behavior | Journal of Neuroscience
    Nescient helix-loop-helix 2 (NHLH2) is a hypothalamic transcription factor that controls the expression of prohormone convertase 1/3, therefore having an impact on the processing of proopiomelanocortin and thus on energy homeostasis. Studies have shown that knockout of Nhlh2 results in increased body mass, reduced physical activity and hypogonadism. In humans, a polymorphism of the NHLH2 gene is associated with obesity, and in Prader-Willi syndrome, a condition characterized by obesity, hypogonadism and behavioral abnormalities, the expression of NHLH2 is reduced. Despite clinical and experimental evidence suggesting that NHLH2 could be a good target for the treatment of obesity, no previous study has evaluated the impact of NHLH2 overexpression in obesity. Here, in mice fed a high-fat diet introduced right after the arcuate nucleus intracerebroventricular injection of a lentivirus that promoted 40% increase in NHLH2, there was prevention of the development of obesity by a mechanism dependent on the reduct...
    Oct 21, 2021 Rodrigo S. Carraro
  • Journal Article
    Medial entorhinal cortex excitatory neurons are necessary for accurate timing | Journal of Neuroscience
    The hippocampal region has long been considered critical for memory of time, and recent evidence shows that network operations and single unit activity in the hippocampus (HIPP) and medial entorhinal cortex (MEC) correlate with elapsed time. However, whether the MEC activity is necessary for timing remains largely unknown. Here we expressed DREADDs under the CAMKIIa promoter to preferentially target MEC excitatory neurons for chemogenetic silencing, while freely moving male rats reproduced a memorized time interval by waiting inside a ROI (region of interest). We found that such silencing impaired the reproduction of the memorized interval and led to an overestimation of elapsed time. Trial history analyses under this condition revealed a reduced influence of previous trials on current waiting times, suggesting an impairment in maintaining temporal memories across trials. Moreover, using GLM (logistic regression) we show that decoding behavioral performance from preceding waiting times was significantly co...
    Oct 20, 2021 Marcelo Dias
  • Journal Article
    Evidence for layer-specific connectional heterogeneity in the mouse auditory corticocollicular system | Journal of Neuroscience
    The auditory cortex (AC) sends long-range projections to virtually all subcortical auditory structures. One of the largest and most complex of these - the projection between AC and inferior colliculus (IC, the corticocollicular pathway) - originates from layer 5 and deep layer 6. Though previous work has shown that these two corticocollicular projection systems have different physiological properties and network connectivities, their functional organization is poorly understood. Here, using a combination of traditional and viral tracers combined with in vivo imaging in both sexes of the mouse, we observed that layer 5 and layer 6 corticocollicular neurons differ in their areas of origin and termination patterns. Layer 5 corticocollicular neurons are concentrated in primary AC while layer 6 corticocollicular neurons emanate from broad auditory and limbic areas in the temporal cortex. In addition, layer 5 sends dense projections of both small and large (> 1 µm2 area) terminals to all regions of non-lemniscal...
    Oct 20, 2021 Georgiy Yudintsev
  • Journal Article
    Distal CA1 maintains a more coherent spatial representation than proximal CA1 when local and global cues conflict | Journal of Neuroscience
    Entorhinal cortical projections show segregation along the transverse axis of CA1, with the medial entorhinal cortex (MEC) sending denser projections to proximal CA1 (pCA1) and the lateral entorhinal cortex (LEC) sending denser projections to distal CA1 (dCA1). Previous studies have reported functional segregation along the transverse axis of CA1 correlated with the functional differences in MEC and LEC. pCA1 shows higher spatial selectivity than dCA1 in these studies. We employ a double rotation protocol, which creates an explicit conflict between the local and the global cues, to understand the differential contributions of these reference frames to the spatial code in pCA1 and dCA1 in male Long Evans rats. We show that pCA1 and dCA1 respond differently to this local-global cue conflict. pCA1 representation splits as predicted from the strong conflicting inputs it receives from MEC and distal CA3 (dCA3). In contrast, dCA1 rotates more in concert with the global cues. In addition, pCA1 and dCA1 display co...
    Oct 20, 2021 Sachin S. Deshmukh
  • Journal Article
    Table of Contents — October 20, 2021, 41 (42) | Journal of Neuroscience
    Oct 20, 2021
  • Journal Article
    APOE4 Affects Basal and NMDAR-Mediated Protein Synthesis in Neurons by Perturbing Calcium Homeostasis | Journal of Neuroscience
    Apolipoprotein E (APOE), one of the primary lipoproteins in the brain has three isoforms in humans, APOE2, APOE3, and APOE4. APOE4 is the most well-established risk factor increasing the predisposition for Alzheimer's disease (AD). The presence of the APOE4 allele alone is shown to cause synaptic defects in neurons and recent studies have identified multiple pathways directly influenced by APOE4. However, the mechanisms underlying APOE4-induced synaptic dysfunction remain elusive. Here, we report that the acute exposure of primary cortical neurons or synaptoneurosomes to APOE4 leads to a significant decrease in global protein synthesis. Primary cortical neurons were derived from male and female embryos of Sprague Dawley (SD) rats or C57BL/6J mice. Synaptoneurosomes were prepared from P30 male SD rats. APOE4 treatment also abrogates the NMDA-mediated translation response indicating an alteration of synaptic signaling. Importantly, we demonstrate that both APOE3 and APOE4 generate a distinct translation resp...
    Oct 20, 2021 Sarayu Ramakrishna
  • Journal Article
    Differential Effects of Cerebellar Degeneration on Feedforward versus Feedback Control across Speech and Reaching Movements | Journal of Neuroscience
    Errors that result from a mismatch between predicted movement outcomes and sensory afference are used to correct ongoing movements through feedback control and to adapt feedforward control of future movements. The cerebellum has been identified as a critical part of the neural circuit underlying implicit adaptation across a wide variety of movements (reaching, gait, eye movements, and speech). The contribution of this structure to feedback control is less well understood. Although it has recently been shown in the speech domain that individuals with cerebellar degeneration produce larger online corrections for sensory perturbations than control participants, similar behavior has not been observed in other motor domains. Currently, comparisons across domains are limited by different population samples and potential ceiling effects in existing tasks. To assess the relationship between changes in feedforward and feedback control associated with cerebellar degeneration across motor domains, we evaluated adapti...
    Oct 20, 2021 Benjamin Parrell
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