Jing Xu scite author profile

In normal adult retinas, NGF receptor TrkA is expressed in retinal ganglion cells (RGC), whereas glia express p75NTR . During retinal injury, endogenous NGF, TrkA, and p75 NTR are up-regulated. Paradoxically, neither endogenous NGF nor exogenous administration of wild type NGF can protect degenerating RGCs, even when administered at high frequency. Here we elucidate the relative contribution of NGF and each of its receptors to RGC degeneration in vivo. During retinal degeneration due to glaucoma or optic nerve transection, treatment with a mutant NGF that only activates TrkA, or with a biological response modifier that prevents endogenous NGF and pro-NGF from binding to p75 NTR affords significant neuroprotection. Treatment of normal eyes with an NGF mutant-selective p75 NTR agonist causes progressive RGC death, and in injured eyes it accelerates RGC death. The mechanism of p75 NTR action during retinal degeneration due to glaucoma is paracrine, by increasing production of neurotoxic proteins TNF-␣ and ␣ 2 -macroglobulin. Antagonists of p75 NTR inhibit TNF-␣ and ␣ 2 -macroglobulin up-regulation during disease, and afford neuroprotection. These data reveal a balance of neuroprotective and neurotoxic mechanisms in normal and diseased retinas, and validate each neurotrophin receptor as a pharmacological target for neuroprotection.Neuropathic diseases of the retina that involve the death of retinal ganglion cells (RGCs) 4 are irreversible. This is because RGCs are neurons whose fibers and axons make up the optic nerve (ON) and relay visual input from the retina to the cerebral cortex.Commonly used animal models of neuropathy that cause RGC death include ON axotomy and glaucoma. ON axotomy is an acute model of trauma where the optic nerve is completely severed, causing rapid death of the RGCs (ϳ90% within 2 weeks). Glaucoma is a chronic and progressive optic nerve neuropathy often concomitant with elevated intraocular pressure (IOP) (1). The etiology of RGC death in glaucoma remains unknown.One mechanism is the deprivation of survival signals that neurotrophins provide by acting through the TrkA and TrkB receptors expressed in RGCs (2, 3). Indeed, activation of TrkA (4) or TrkB (5) directly activate pro-survival signals during glaucoma and rescues RGCs from death during ON axotomy or glaucoma. However, it seems paradoxical that whereas TrkA activity is protective, neither endogenous nerve growth factor (NGF) (up-regulated in glaucoma (6)) nor exogenous NGF applied as a drug afford effective RGC neuroprotection during ON axotomy or glaucoma (4, 7).A second mechanism of RGC death in glaucoma is the increased production of tumor necrosis factor-␣ (TNF-␣) (8-10) and ␣ 2 -macroglobulin (␣ 2 M) (11). These neurotoxic factors are produced by activated microglia (12), which express the neurotrophin receptor p75 NTR (7). Indeed, the p75 NTR receptor has been implicated in the acute release of TNF-␣ during acute toxicity leading to RGC death within a few hours after intravitreal injection of glutamate (13) or after activatio...

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Taxonomic structure and functional association of foxtail millet root microbiome

Jin

Wang²,

Yue-ying³

et al. 2017

235

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The root microbes play pivotal roles in plant productivity, nutrient uptakes, and disease resistance. The root microbial community structure has been extensively investigated by 16S/18S/ITS amplicons and metagenomic sequencing in crops and model plants. However, the functional associations between root microbes and host plant growth are poorly understood. This work investigates the root bacterial community of foxtail millet (Setaria italica) and its potential effects on host plant productivity. We determined the bacterial composition of 2882 samples from foxtail millet rhizoplane, rhizosphere and corresponding bulk soils from 2 well-separated geographic locations by 16S rRNA gene amplicon sequencing. We identified 16 109 operational taxonomic units (OTUs), and defined 187 OTUs as shared rhizoplane core OTUs. The β-diversity analysis revealed that microhabitat was the major factor shaping foxtail millet root bacterial community, followed by geographic locations. Large-scale association analysis identified the potential beneficial bacteria correlated with plant high productivity. Besides, the functional prediction revealed specific pathways enriched in foxtail millet rhizoplane bacterial community. We systematically described the root bacterial community structure of foxtail millet and found its core rhizoplane bacterial members. Our results demonstrated that host plants enrich specific bacteria and functions in the rhizoplane. The potentially beneficial bacteria may serve as a valuable knowledge foundation for bio-fertilizer development in agriculture.

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Wavefront sensorless adaptive optics optical coherence tomography for in vivo retinal imaging in mice

Jian

Gradowski

et al. 2014

Biomed. Opt. Express

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We present wavefront sensorless adaptive optics (WSAO) Fourier domain optical coherence tomography (FD-OCT) for in vivo small animal retinal imaging. WSAO is attractive especially for mouse retinal imaging because it simplifies optical design and eliminates the need for wavefront sensing, which is difficult in the small animal eye. GPU accelerated processing of the OCT data permitted real-time extraction of image quality metrics (intensity) for arbitrarily selected retinal layers to be optimized. Modal control of a commercially available segmented deformable mirror (IrisAO Inc.) provided rapid convergence using a sequential search algorithm. Image quality improvements with WSAO OCT are presented for both pigmented and albino mouse retinal data, acquired in vivo.

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An Agonistic TrkB mAb Causes Sustained TrkB Activation, Delays RGC Death, and Protects the Retinal Structure in Optic Nerve Axotomy and in Glaucoma

Bai

Brahimi

et al. 2010

Invest. Ophthalmol. Vis. Sci.

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Label-Free Density Measurements of Radial Peripapillary Capillaries in the Human Retina

Balaratnasingam

et al. 2015

PLoS ONE

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Radial peripapillary capillaries (RPCs) comprise a unique network of capillary beds within the retinal nerve fibre layer (RNFL) and play a critical role in satisfying the nutritional requirements of retinal ganglion cell (RGC) axons. Understanding the topographical and morphological characteristics of these networks through in vivo techniques may improve our understanding about the role of RPCs in RGC axonal health and disease. This study utilizes a novel, non-invasive and label-free optical imaging technique, speckle variance optical coherence tomography (svOCT), for quantitatively studying RPC networks in the human retina. Six different retinal eccentricities from 16 healthy eyes were imaged using svOCT. The same eccentricities were histologically imaged in 9 healthy donor eyes with a confocal scanning laser microscope. Donor eyes were subject to perfusion-based labeling techniques prior to retinal dissection, flat mounting and visualization with the microscope. Capillary density and diameter measurements from each eccentricity in svOCT and histological images were compared. Data from svOCT images were also analysed to determine if there was a correlation between RNFL thickness and RPC density. The results are as follows: (1) The morphological characteristics of RPC networks on svOCT images are comparable to histological images; (2) With the exception of the nasal peripapillary region, there were no significant differences in RPC density measurements between svOCT and histological images; (3) Capillary diameter measurements were significantly greater in svOCT images compared to histology; (4) There is a positive correlation between RPC density and RNFL thickness. The findings in this study suggest that svOCT is a reliable modality for analyzing RPC networks in the human retina. It may therefore be a valuable tool for aiding our understanding about vasculogenic mechanisms that are involved in RGC axonopathies. Further work is required to explore the reason for some of the quantitative differences between svOCT and histology.

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Jing Xu

Chronic and Acute Models of Retinal Neurodegeneration TrkA Activity Are Neuroprotective whereas p75NTR Activity Is Neurotoxic through a Paracrine Mechanism

Taxonomic structure and functional association of foxtail millet root microbiome

Wavefront sensorless adaptive optics optical coherence tomography for in vivo retinal imaging in mice

An Agonistic TrkB mAb Causes Sustained TrkB Activation, Delays RGC Death, and Protects the Retinal Structure in Optic Nerve Axotomy and in Glaucoma

Label-Free Density Measurements of Radial Peripapillary Capillaries in the Human Retina

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