Jing You scite author profile

After traumatic spinal cord injury, functional deficits increase as axons die back from the center of the lesion and the glial scar forms. Axonal die back occurs in two phases: an initial axon intrinsic stage that occurs over the first several hours and a secondary phase which takes place over the first few weeks after injury. Here, we examine the secondary phase, which is marked by infiltration of macrophages. Using powerful time lapse multi-photon imaging, we captured images of interactions between Cx3cr1+/GFP macrophages and microglia and Thy-1YFP axons in a mouse dorsal column crush spinal cord injury model. Over the first few weeks after injury, axonal retraction bulbs within the lesion are static except when axonal fragments are lost by a blebbing mechanism in response to physical contact followed by phagocytosis by mobile Cx3Cr1+/GFP cells. Utilizing a radiation chimera model to distinguish marrow-derived cells from radio-resistant CNS resident microglia, we determined that the vast majority of accumulated cells in the lesion are derived from the blood and only these are associated with axonal damage. Interestingly, CNS-resident Cx3Cr1+/GFP microglia did not increasingly accumulate nor participate in neuronal destruction in the lesion during this time period. Additionally, we found that the blood-derived cells consisted mainly of singly labeled Ccr2+/RFP macrophages, singly labeled Cx3Cr1+/GFP macrophages and a small population of double-labeled cells. Since all axon destructive events were seen in contact with a Cx3Cr1+/GFP cell, we infer that the CCR2 single positive subset is likely not robustly involved in axonal dieback. Finally, in our model, deletion of CCR2, a chemokine receptor, did not alter the position of axons after dieback. Understanding the in vivo cellular interactions involved in secondary axonal injury may lead to clinical treatment candidates involving modulation of destructive infiltrating blood monocytes.

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Magnesium Regulates Endothelial Barrier Functions through TRPM7, MagT1, and S1P1

Zhu

You

Zhao

et al. 2019

Advanced Science

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Mg2+‐deficiency is linked to hypertension, Alzheimer's disease, stroke, migraine headaches, cardiovascular diseases, and diabetes, etc., but its exact role in these pathophysiological conditions remains elusive. Mg2+ can regulate vascular functions, yet the mechanistic insight remains ill‐defined. Data show that extracellular Mg2+ enters endothelium mainly through the TRPM7 channel and MagT1 transporter. Mg2+ can act as an antagonist to reduce Ca2+ signaling in endothelium. Mg2+ also reduces the intracellular reactive oxygen species (ROS) level and inflammation. In addition, Mg2+‐signaling increases endothelial survival and growth, adhesion, and migration. Endothelial barrier integrity is significantly enhanced with Mg2+‐treatment through S1P1‐Rac1 pathways and barrier‐stabilizing mediators including cAMP, FGF1/2, and eNOS. Mg2+ also promotes cytoskeletal reorganization and junction proteins to tighten up the barrier. Moreover, Mg2+‐deficiency enhances endothelial barrier permeability in mice, and Mg2+‐treatment rescues histamine‐induced transient vessel hyper‐permeability in vivo. In summary, Mg2+‐deficiency can cause deleterious effects in endothelium integrity, and Mg2+‐treatment may be effective in the prevention or treatment of vascular dysfunction.

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Rabies viruses leader RNA interacts with host Hsc70 and inhibits virus replication

et al. 2017

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Viruses have been shown to be equipped with regulatory RNAs to evade host defense system. It has long been known that rabies virus (RABV) transcribes a small regulatory RNA, leader RNA (leRNA), which mediates the transition from viral RNA transcription to replication. However, the detailed molecular mechanism remains enigmatic. In the present study, we determined the genetic architecture of RABV leRNA and demonstrated its inhibitory effect on replication of wild-type rabies, DRV-AH08. The RNA immunoprecipitation results suggest that leRNA inhibits RABV replication via interfering the binding of RABV nucleoprotein with genomic RNA. Furthermore, we identified heat shock cognate 70 kDa protein (Hsc70) as a leRNA host cellular interacting protein, of which the expression level was dynamically regulated by RABV infection. Notably, our data suggest that Hsc70 was involved in suppressing RABV replication by leader RNA. Finally, our experiments imply that leRNA might be potentially useful as a novel drug in rabies post-exposure prophylaxis. Together, this study suggested leRNA in concert with its host interacting protein Hsc70, dynamically down-regulate RABV replication.

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Spatial and temporal profile of high-frequency oscillations in posttraumatic epileptogenesis

Kumar

You

et al. 2021

Neurobiology of Disease

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The Effect of Magnesium Deficiency on Neurological Disorders: A Narrative Review Article

Xue¹,

You

et al. 2019

ijph

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Background: Magnesium (Mg) is an essential element for the body. It is a cofactor for ATP, DNA, and RNA and more than 600 enzymes. As it is similar to Ca2+, this element can also act as a cell signaling molecule and play multiple important roles in the nervous, muscle, and immune systems. Recent studies have associated Mg-deficiency with many neurological disorders, such as cerebral vasospasm, Alzheimer’s disease, stroke, and migraine. As it plays such a crucial role in human body, therefore, we summarized the role of Mg in neurological disorders to illustrate the symptoms caused by Mg-deficiency and the possible underlying mechanisms. Methods: We critically discuss the role of it that we review the recent literature of magnesium. We also review the available data which are concerning the role of magnesium in neurological disorders. Results: Magnesium is related to neurological disorders on the basis of the study of animals and humans experiments. Furthermore, these nervous systems related diseases include cerebral vasospasm, Alzheimer’s disease, Parkinson’s disease, stroke and migraine. Conclusion: Magnesium has effects on neurological disorders, such as its utility in cerebral vasospasm, Alzheimer’s disease, Parkinson’s disease, stroke and migraine. So here we make a brief review to conclude it.

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The anatomy and metabolome of the lymphatic system in the brain in health and disease

You

Wan

et al. 2019

Brain Pathology

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Recent studies have demonstrated that the brain is equipped with a lymphatic drainage system that is actively involved in parenchymal waste clearance, brain homeostasis and immune regulation. However, the exact anatomic drainage routes of brain lymph fluid (BLF) remain elusive, hampering the physiological study and clinical application of this system. In this study, we systematically dissected the anatomy of the BLF pathways in a rat model. Moreover, we developed a protocol to collect BLF from the afferent lymphatic vessels of deep cervical lymph nodes (dcLNs) and cerebrospinal fluid (CSF) from the fourth ventricle. Nuclear magnetic resonance spectroscopy showed that BLF contains more metabolites than CSF, suggesting that BLF might be a more sensitive indicator of brain dynamics under physiological and pathological conditions. Finally, we identified several metabolites as potential diagnostic biomarkers for glioma, Parkinson's disease and CNS infectious diseases. Together, these data may provide insight into the physiology of the lymphatic system in the brain and into the clinical diagnosis of CNS disorders.

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Automatic Electrophysiological Noise Reduction and Epileptic Seizure Detection for Stereoelectroencephalography

Zhou

You

Zhu

et al. 2021

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The objective of this study was to develop a computational algorithm capable of locating artifacts and identifying epileptic seizures, which specifically implementing in clinical stereoelectroencephalography (SEEG) recordings.Based on the nonstationary nature and broadband features of SEEG signals, a comprehensive strategy combined with the complex wavelet transform (CWT) and multi-layer thresholding method was implemented for both noise reduction and seizure detection. The artifacts removal pipeline integrated edge artifact removal, discrete spectrum analysis, and peak density evaluation. For automatic seizure detection, integrated power analysis and multi-dynamic thresholding were applied. The F1score was applied to evaluate overall performance of the algorithm. The algorithm was tested using expert-marked, double-blinded, clinical SEEG data from seven patients undergoing presurgical evaluation. This approach achieved the F1 score of 0.86 for noise reduction and 0.88 for seizure detection. This offline-approach method with minimum parameter tuning procedures and no prior information required, proved to be a feasible and solid solution for clinical SEEG data evaluation. Moreover, the algorithm can be improved with additional tuning and implemented with machine learning postprocessing pipelines.

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Hydrogen generating patch improves skin cell viability, migration activity, and collagen expression

Safonov¹,

You

Lee

et al. 2020

Engineered Regeneration

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Jing You

High-resolution intravital imaging reveals that blood-derived macrophages but not resident microglia facilitate secondary axonal dieback in traumatic spinal cord injury

Magnesium Regulates Endothelial Barrier Functions through TRPM7, MagT1, and S1P1

Rabies viruses leader RNA interacts with host Hsc70 and inhibits virus replication

Spatial and temporal profile of high-frequency oscillations in posttraumatic epileptogenesis

The Effect of Magnesium Deficiency on Neurological Disorders: A Narrative Review Article

The anatomy and metabolome of the lymphatic system in the brain in health and disease

Automatic Electrophysiological Noise Reduction and Epileptic Seizure Detection for Stereoelectroencephalography

Hydrogen generating patch improves skin cell viability, migration activity, and collagen expression

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