Publications by authors named "Mariko Miyata"

Functional refinement of neural circuits is a crucial developmental process in the brain. However, how synaptic maturation and axon wiring proceed cooperatively to establish reliable signal transmission is unclear. Here, we combined nanotopography of release machinery at the active zone (AZ), nanobiophysics of neurotransmitter release, and single-neuron reconstruction of axon arbors of lemniscal fibers (LFs) in the developing mouse somatosensory thalamus.

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 This article evaluates the ability of low-energy (40 keV) virtual monoenergetic images (VMIs) in the local diagnosis of cervical cancer compared with that of conventional computed tomography (C-CT) and magnetic resonance imaging (MRI), using clinicopathologic staging as a reference.  This prospective study included 33 patients with pathologically confirmed cervical cancer who underwent dual-energy CT and MRI between 2021 and 2022. The contrast-to-noise ratio (CNR) of the tumor-to-myometrium was compared between C-CT and VMI.

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Article Synopsis
  • The study aimed to compare the diagnostic effectiveness of virtual monoenergetic imaging (VMI), computed tomography (CT), and magnetic resonance imaging (MRI) in diagnosing endometrial cancer (EC).
  • It involved a retrospective analysis of 45 EC patients, focusing on the contrast-to-noise ratio (CNR) and the ability to detect myometrial invasion, cervical invasion, and lymph node metastasis.
  • Results indicated that VMI had higher sensitivity for detecting myometrial invasion, while C-CT showed superior sensitivity for cervical invasion, suggesting a potential advantage in using VMI alongside C-CT for preoperative staging of EC.
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  • Developmental synapse elimination is essential for forming mature neural circuits, particularly in the cerebellum of neonatal mice where Purkinje cells initially connect with multiple climbing fibers.
  • By postnatal day 20, all climbing fiber synapses except one are eliminated, with heterosynaptic interactions between climbing fibers and parallel fibers playing a key role in this process.
  • The study finds that the deletion of AMPA receptors in granule cells disrupts the elimination of climbing fiber synapses, highlighting the importance of parallel fiber activity, which may enhance synapse elimination by activating mGlu1 receptors in Purkinje cells and NMDA receptors in molecular layer interneurons.
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  • Unilateral spatial neglect (USN) is caused by issues in attentional networks and can affect different sensory inputs, especially in specific areas of the rodent medial agranular cortex (AGm), which is linked to spatial attention.* -
  • The study examined how the location of lesions in the AGm impacted recovery from neglect in a mouse model, finding that lesions in the more rostral (anterior) part resulted in slower recovery compared to other locations.* -
  • All lesions in the AGm caused USN-like behavior without affecting the mice’s motor skills, indicating a specific impact on attention rather than overall movement ability.*
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GABAergic inhibitory interneurons, originating from the embryonic ventral forebrain territories, traverse a convoluted migratory path to reach the neocortex. These interneuron precursors undergo sequential phases of tangential and radial migration before settling into specific laminae during differentiation. Here, we show that the developmental trajectory of expression is dynamically controlled in these interneuron precursors at critical junctures of migration.

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  • * In GBM with mutations in receptor tyrosine kinases, the mTORC2 complex suppresses the enzyme DNMT3A, leading to widespread DNA hypomethylation by redistributing EZH2 to the DNMT3A promoter, thus repressing its expression.
  • * This research shows that the hypomethylator phenotype alters glutamate metabolism and enhances GBM cell invasion and survival, highlighting mTORC2 as a promising target for cancer treatment through its role in epigenetic
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The somatosensory system organizes the topographic representation of body maps, termed somatotopy, at all levels of an ascending hierarchy. Postnatal maturation of somatotopy establishes optimal somatosensation, whereas deafferentation in adults reorganizes somatotopy, which underlies pathological somatosensation, such as phantom pain and complex regional pain syndrome. Here, we focus on the mouse whisker somatosensory thalamus to study how sensory experience shapes the fine topography of afferent connectivity during the critical period and what mechanisms remodel it and drive a large-scale somatotopic reorganization after peripheral nerve injury.

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Nociception, a somatic discriminative aspect of pain, is, like touch, represented in the primary somatosensory cortex (S1), but the separation and interaction of the two modalities within S1 remain unclear. Here, we show spatially distinct tactile and nociceptive processing in the granular barrel field (BF) and adjacent dysgranular region (Dys) in mouse S1. Simultaneous recordings of the multiunit activity across subregions revealed that Dys neurons are more responsive to noxious input, whereas BF neurons prefer tactile input.

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Cyclin-dependent kinase 5 (Cdk5) /p35 is involved in many developmental processes of the central nervous system. Cdk5/p35 is also implicated in synaptic plasticity, learning and memory. Several lines of conditional Cdk5 knockout mice (KO) have been generated and have shown different outcomes for learning and memory.

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Spike-and-wave discharges and an accompanying loss of consciousness are hallmarks of absence seizure, which is a childhood generalized epilepsy disorder. In absence seizure, dysfunction of the cortico-thalamo-cortico circuitry is thought to engage in abnormal cortical rhythms. Previous studies demonstrated that the thalamic reticular nucleus has a critical role in the formation of normal cortical rhythms; however, whether thalamic reticular nucleus dysfunction leads directly to abnormal rhythms, such as epilepsy, is largely unknown.

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Introduction: A bioabsorbable collagen conduit (Renerve™) filled with collagen filaments is currently approved as an artificial nerve conduit in Japan and is mainly used for connecting and repairing peripheral nerves after traumatic nerve injury. However, there are few reports on its applications for reconstructing and repairing the facial nerve. The present study evaluated the efficacy of the conduit on promoting nerve regeneration in a murine model with a nerve defect at the buccal branch of the facial nerve.

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In the central nervous system, developmental and pathophysiologic conditions cause a large-scale reorganization of functional connectivity of neural circuits. Here, by using a mouse model for peripheral sensory nerve injury, we present a protocol for combined electrophysiological and anatomical techniques to identify neural basis of synaptic remodeling in the mouse whisker thalamus. Our protocol provides comprehensive approaches to analyze both structural and functional components of synaptic remodeling.

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Abnormalities in GABAergic inhibitory circuits have been implicated in the aetiology of autism spectrum disorder (ASD). ASD is caused by genetic and environmental factors. Several genes have been associated with syndromic forms of ASD, including FOXG1.

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Whisker deafferentation in mice disrupts topographic connectivity from the brainstem to the thalamic ventral posteromedial nucleus (VPM), which represents whisker map, by recruiting "ectopic" axons carrying non-whisker information in VPM. However, mechanisms inducing this plasticity remain largely unknown. Here, we show the role of region-specific microglia in the brainstem principal trigeminal nucleus (Pr5), a whisker sensory-recipient region, in VPM whisker map plasticity.

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For neuronal circuits in the brain to mature, necessary synapses must be maintained and redundant synapses eliminated through experience-dependent mechanisms. However, the functional differentiation of these synapse types during the refinement process remains elusive. Here, we addressed this issue by distinct labeling and direct recordings of presynaptic terminals fated for survival and for elimination in the somatosensory thalamus.

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In the anterior lobe of the pituitary gland (AP), non-endocrine cells regulate hormone secretion by endocrine cells. However, the functions of non-endocrine cells in the AP during chronic pain are largely unclear. Here, we show that macrophages, but not folliculostellate (FS) cells, were selectively increased in the AP in the complete Freund's adjuvant (CFA)-induced chronic inflammatory pain model in rats.

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Unilateral spatial neglect is a disorder of higher brain function that occurs after a brain injury, such as stroke, traumatic brain injury, brain tumor, and surgical procedures etc., and leads to failure to attend or respond to stimuli presented to the side contralateral to the lesioned cerebral hemisphere. Because patients with this condition often have other symptoms due to the presence of several brain lesions, it is difficult to evaluate the recovery mechanisms and effect of training on unilateral spatial neglect.

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In this study, we devised a novel cross-facial nerve grafting (CFNG) procedure using an autologous nerve graft wrapped in an adipose-derived stem cell (ADSC) sheet that was formed on a temperature-responsive dish and examined its therapeutic effect in a rat model of facial palsy. The rat model of facial paralysis was prepared by ligating and transecting the main trunk of the left facial nerve. The sciatic nerve was used for CFNG, connecting the marginal mandibular branch of the left facial nerve and the marginal mandibular branch of the right facial nerve.

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Peripheral nerve injury induces functional and structural remodeling of neural circuits along the somatosensory pathways, forming the basis for somatotopic reorganization and ectopic sensations, such as referred phantom pain. However, the mechanisms underlying that remodeling remain largely unknown. Whisker sensory nerve injury drives functional remodeling in the somatosensory thalamus: the number of afferent inputs to each thalamic neuron increases from one to many.

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Article Synopsis
  • The text indicates a correction to a previously published article with the DOI: 10.1016/j.reth.2019.08.004.
  • This correction aims to address and rectify errors or inaccuracies found in the original publication.
  • It is a common practice in academic publishing to ensure the integrity and accuracy of research findings.
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Article Synopsis
  • - The "babysitter" procedure is a technique to treat complete facial nerve paralysis by using a healthy facial nerve to stimulate affected muscles, aiming to prevent atrophy.
  • - In a study with 16 rats, one group underwent the babysitter procedure while another had a simple nerve graft; results were assessed physiologically and histologically after 13 weeks.
  • - Findings showed that the babysitter procedure significantly improved muscle reinnervation and regeneration compared to the nerve graft, effectively reducing muscle atrophy and the denervation period.
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Mutations in the gene encoding the chromatin remodeler CHD8 are strongly associated with autism spectrum disorder (ASD). CHD8 haploinsufficiency also results in autistic phenotypes in humans and mice. Although myelination defects have been observed in individuals with ASD, whether oligodendrocyte dysfunction is responsible for autistic phenotypes has remained unknown.

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Primary motor cortex (M1) infarctions sometimes cause sensory impairment. Because sensory signals play a vital role in motor control, sensory impairment compromises the recovery and rehabilitation of motor disability. However, the neural mechanism of the sensory impairment is poorly understood.

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The metabotropic glutamate receptor subtype 1 (mGluR1) is a major subtype of group I mGluRs, which contributes to the development and plasticity of synapses in the brain. In the sensory thalamus, the thalamocortical neuron receives sensory afferents and massive feedback input from corticothalamic (CT) fibers. Notably, mGluR1 is more concentrated in CT synapses in the sensory thalamus.

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