Your search keyword '"Rong Ji"' showing total 378 results

1. Characterizing the distributions of IDO-1 expressing macrophages/microglia in human and murine brains and evaluating the immunological and physiological roles of IDO-1 in RAW264.7/BV-2 cells.

Author

Rong Ji, Lixiang Ma, Xinyu Chen, Renqiang Sun, Li Zhang, Hexige Saiyin, and Wenshi Wei

Subjects

Medicine, Science

Abstract

Indoleamine 2,3-dioxygenase 1 (IDO-1) is an immunosuppressive enzyme expressed in the placenta, neoplastic cells, and macrophages to reject T cells by converting tryptophan into kynurenine. However, the role of IDO-1 in brain immunity, especially in the meninges, is unclear. We aim to elucidate the distribution pattern of IDO-1+ macrophages/microglia in the human brain tissues, human glioblastoma, APP/PS1 mouse brains, and quinolinic acid model brains and explore the physiological and immunological roles of IDO-1+ macrophages/microglia. Here, we find that both human and mouse macrophages/microglia of the perivascular and subarachnoid space and in glioblastoma (GBM) expressed IDO-1 but not macrophages/microglia of parenchyma. Using IDO-1 inhibitors including 1-MT and INCB24360, we observed that inhibiting IDO-1 reduced the cellular size and filopodia growth, fluid uptake, and the macropinocytic and phagocytic abilities of human blood monocytes and RAW264.7/BV-2 cells. Inhibiting IDO-1 with 1-MT or INCB24360 increased IL-1β secretion and suppressed NLRP3 expression in RAW264.7/BV-2 cells. Our data collectively show that IDO-1 expression in perivascular and meninges macrophages/microglia increases cellular phagocytic capacity and might suppress overactivation of inflammatory reaction.

Published

2021

2. Elevated CO2 accelerates polycyclic aromatic hydrocarbon accumulation in a paddy soil grown with rice.

Author

Fuxun Ai, Nico Eisenhauer, Yuwei Xie, Jianguo Zhu, Alexandre Jousset, Wenchao Du, Ying Yin, Xiaowei Zhang, Rong Ji, and Hongyan Guo

Subjects

Medicine, Science

Abstract

The concentration of atmospheric carbon dioxide (CO2) and polycyclic aromatic hydrocarbons (PAHs) contents in the environment have been rising due to human activities. Elevated CO2 (eCO2) levels have been shown to affect plant physiology and soil microbes, which may alter the degradation of organic pollutants. Here, we study the effect of eCO2 on PAH accumulation in a paddy soil grown with rice. We collected soil and plant samples after rice harvest from a free-air CO2 enrichment (FACE) system, which had already run for more than 15 years. Our results show that eCO2 increased PAH concentrations in the soil, and we link this effect to a shift in soil microbial community structure and function. Elevated CO2 changed the composition of soil microbial communities, especially by reducing the abundance of some microbial groups driving PAH degradation. Our study indicates that elevated CO2 levels may weaken the self-cleaning ability of soils related to organic pollutants. Such changes in the function of soil microbial communities may threaten the quality of crops, with unknown implications for food safety and human health in future climate scenarios.

Published

2018

3. Assessment of cloud service trusted state based on fuzzy entropy and Markov chain

Author

Ming Yang, Rong Jiang, Jia Wang, Bin Gui, and Leijin Long

Subjects

Fuzzy entropy, Markov chain, Cloud service, Trustworthiness, Trustworthiness assessment, Medicine, Science

Abstract

Abstract In the era of cloud service popularization, the trustworthiness of service is particularly important. If users cannot prevent the potential trustworthiness problem of the service during long-term use, once the trustworthiness problem occurs, it will cause significant losses. In order to objectively assess the cloud service trustworthiness, and predict its change, this paper establishes a special hierarchical model of cloud service trustworthiness attributes. This paper proposes corresponding management countermeasures around the model, defines the cloud service trustworthiness level, defines the cloud service trusted state based on fuzzy entropy and Markov chain, constructs the membership function of the cloud service trusted state, and realizes the assessment of cloud service trustworthiness and its changes according to the prediction method of Markov chain. Through case analysis and method comparison, it shows that the method proposed in this paper is effective and feasible. This method can provide objective and comprehensive assessment data for the cloud service trustworthiness and its change, makes up the deficiency of fuzzy entropy assessment method. This research has important reference value and significance for the research of cloud service trustworthiness assessment.

Published

2024

4. C-Reactive Protein Protects Against Acetaminophen-Induced Liver Injury by Preventing Complement Overactivation

Author

Zhe Wang, Bin Cheng, Jian-Min Lv, Shang-Rong Ji, Xiao-Ling Liu, Hai-Yun Li, Zhao-Ming Tang, Yi Wu, Yu-Lin Liang, and Ning Gao

Subjects

Inflammation, RC799-869, Pharmacology, Mice, Animals, Medicine, Receptor, Acetaminophen, Liver injury, Hepatology, biology, business.industry, C-reactive protein, Pattern Recognition Receptor, Gastroenterology, Pattern recognition receptor, Biomarker, Diseases of the digestive system. Gastroenterology, medicine.disease, Rats, Mice, Inbred C57BL, C-Reactive Protein, Editorial, Chemical and Drug Induced Liver Injury, Chronic, Knockout mouse, Hepatocytes, biology.protein, Biomarker (medicine), Chemical and Drug Induced Liver Injury, medicine.symptom, business, medicine.drug

Abstract

Background and aims C-reactive protein (CRP) is a hepatocyte-produced marker of inflammation yet with undefined function in liver injury. We aimed to examine the role of CRP in acetaminophen-induced liver injury (AILI). Methods The effects of CRP in AILI were investigated using CRP knockout mice and rats combined with human CRP rescue. The mechanisms of CRP action were investigated in vitro and in mice with Fcγ receptor 2B knockout, C3 knockout, or hepatic expression of CRP mutants defective in complement interaction. The therapeutic potential of CRP was investigated by intraperitoneal administration at 2 or 6 hours post–AILI induction in wild-type mice. Results CRP knockout exacerbated AILI in mice and rats, which could be rescued by genetic knock-in, adeno-associated virus–mediated hepatic expression or direct administration of human CRP. Mechanistically, CRP does not act via its cellular receptor Fcγ receptor 2B to inhibit the early phase injury to hepatocytes induced by acetaminophen; instead, CRP acts via factor H to inhibit complement overactivation on already injured hepatocytes, thereby suppressing the late phase amplification of inflammation likely mediated by C3a-dependent actions of neutrophils. Importantly, CRP treatment effectively alleviated AILI with a significantly extended therapeutic time window than that of N-acetyl cysteine. Conclusion Our results thus identify CRP as a crucial checkpoint that limits destructive activation of complement in acute liver injury, and we argue that long-term suppression of CRP expression or function might increase the susceptibility to AILI.

Published

2022

5. Molecular Sensors of Temperature, Pressure, and Pain with Special Focus on TRPV1, TRPM8, and PIEZO2 Ion Channels

Author

Seok-Yong Lee and Ru-Rong Ji

Subjects

medicine.medical_specialty, Focus (computing), Physiology, business.industry, General Neuroscience, Pain medicine, Temperature, MEDLINE, Pain, TRPM Cation Channels, TRPV Cation Channels, General Medicine, Human physiology, Ion Channels, Pressure, medicine, Humans, Medical physics, Insight, business

Published

2021

6. Repurposing cancer drugs identifies kenpaullone which ameliorates pathologic pain in preclinical models via normalization of inhibitory neurotransmission

Author

Zilong Wang, Ru-Rong Ji, Wolfgang Liedtke, Andrey V. Bortsov, Kaiyuan Wang, Yong Chen, Michele Yeo, Maria I. Lioudyno, Qian Zeng, Changyu Jiang, Jorge Busciglio, Peng Wang, Sharat Chandra, and Gang Chen

Subjects

Spinal Cord Dorsal Horn, Delta Catenin, Indoles, Science, Central nervous system, Drug Evaluation, Preclinical, General Physics and Astronomy, Action Potentials, Chronic pain, Pharmacology, Neurotransmission, Inhibitory postsynaptic potential, Neuroprotection, Synaptic Transmission, General Biochemistry, Genetics and Molecular Biology, Article, Mice, Gene expression, medicine, Animals, Humans, Transcription factor, Cells, Cultured, gamma-Aminobutyric Acid, Neurons, Analgesics, Multidisciplinary, Glycogen Synthase Kinase 3 beta, Symporters, Chemistry, Drug Repositioning, Catenins, General Chemistry, Cancer Pain, Nerve injury, Benzazepines, Rats, medicine.anatomical_structure, nervous system, Drug screening, Gene Expression Regulation, Neuralgia, medicine.symptom, Intracellular, Transcription Factors

Abstract

Inhibitory GABA-ergic neurotransmission is fundamental for the adult vertebrate central nervous system and requires low chloride concentration in neurons, maintained by KCC2, a neuroprotective ion transporter that extrudes intracellular neuronal chloride. To identify Kcc2 gene expression‑enhancing compounds, we screened 1057 cell growth-regulating compounds in cultured primary cortical neurons. We identified kenpaullone (KP), which enhanced Kcc2/KCC2 expression and function in cultured rodent and human neurons by inhibiting GSK3ß. KP effectively reduced pathologic pain-like behavior in mouse models of nerve injury and bone cancer. In a nerve-injury pain model, KP restored Kcc2 expression and GABA-evoked chloride reversal potential in the spinal cord dorsal horn. Delta-catenin, a phosphorylation-target of GSK3ß in neurons, activated the Kcc2 promoter via KAISO transcription factor. Transient spinal over-expression of delta-catenin mimicked KP analgesia. Our findings of a newly repurposed compound and a novel, genetically-encoded mechanism that each enhance Kcc2 gene expression enable us to re-normalize disrupted inhibitory neurotransmission through genetic re-programming., Lack of expression and function of chloride ion-extruding transporter KCC2 in central neurons, a consequence of various forms of neural injury, is strongly suggested to contribute to chronic pain. Here the authors identify from a screen of cancer drugs a kinase-inhibitor, kenpaullone, as an enhancer of Kcc2/KCC2 gene expression and show that it (i) alleviates pain like behaviour in animal models, (ii) repairs neural-circuit disrupting elevated chloride in pain relay neurons in the dorsal spinal cord.

Published

2021

7. Influence of moxibustion on NR2B and PKMζ after neural stem cell transplantation in the rats with vascular dementia

Author

Rong Ji (季荣), Wan-lin Zhang (张万林), Jing-cheng Cui (崔竞成), Pin Wang (王频), Yin-qiu Fan (樊吟秋), Rui Sun (孙睿), Shan Wang (王珊), and Jun Yang

Subjects

business.industry, medicine.medical_treatment, Therapeutic effect, Neurogenesis, 0211 other engineering and technologies, Morris water navigation task, Hippocampus, 02 engineering and technology, Moxibustion, Pharmacology, medicine.disease, 030226 pharmacology & pharmacy, Neural stem cell, 03 medical and health sciences, 0302 clinical medicine, nervous system, Complementary and alternative medicine, 021105 building & construction, medicine, Spatial learning, business, Vascular dementia

Abstract

Objective To observe the influence of moxibustion on learning and memory ability in the rats with vascular dementia (VD) and explore the potential effect mechanism. Methods A total of 80 rats, screened by Morris water maze, were randomly divided into a sham-operation group, a model group, a neural stem cells (NSCs) group, a NSCs + piracetam group and a NSCs + moxibustion group, 16 rats in each group. After corresponding treatments, Morris water maze and immunofluorescence technique were adopted to evaluate the therapeutic effect respectively. Results Comparison among groups after modeling: compared with the sham-operation group, the escape latency was longer (P Conclusion Moxibustion improves the spatial learning and memory ability of the VD rats and promotes the reconstruction of neurogenesis and synaptic function, which may be related to the up-regulation of the expressions of hippocampus NR2B and PKMζ expressions.

Published

2021

8. Identification and characterization of novel candidate compounds targeting 6‐ and 7‐transmembrane μ‐opioid receptor isoforms

Author

Alexander Samoshkin, Jeffrey S. Mogil, Jing Wang, Alexander Linton, Arjun Muralidharan, Marino Convertino, Changyu Jiang, William Maixner, Richard Klares, Ru-Rong Ji, Marjo Piltonen, Nikolay V. Dokholyan, Pavel Gris, and Luda Diatchenko

Subjects

Mice, Knockout, Pharmacology, Virtual screening, medicine.drug_class, Chemistry, Receptors, Opioid, mu, Pain, Inhibitory postsynaptic potential, In vitro, Analgesics, Opioid, Mice, Opioid, Opioid receptor, In vivo, medicine, Animals, Protein Isoforms, Receptor, Ex vivo, medicine.drug

Abstract

Background and purpose The μ-opioid receptor (μ receptor) is the primary target for opioid analgesics. The 7-transmembrane (TM) and 6TM μ receptor isoforms mediate inhibitory and excitatory cellular effects. Here, we developed compounds selective for 6TM- or 7TM-μ receptors to further our understanding of the pharmacodynamic properties of μ receptors. Experimental approach We performed virtual screening of the ZINC Drug Now library of compounds using in silico 7TM- and 6TM-μ receptor structural models and identified potential compounds that are selective for 6TM- and/or 7TM-μ receptors. Subsequently, we characterized the most promising candidate compounds in functional in vitro studies using Be2C neuroblastoma transfected cells, behavioural in vivo pain assays using various knockout mice and in ex vivo electrophysiology studies. Key results Our virtual screen identified 30 potential candidate compounds. Subsequent functional in vitro cellular assays shortlisted four compounds (#5, 10, 11 and 25) that demonstrated 6TM- or 7TM-μ receptor-dependent NO release. In in vivo pain assays these compounds also produced dose-dependent hyperalgesic responses. Studies using mice that lack specific opioid receptors further established the μ receptor-dependent nature of identified novel ligands. Ex vivo electrophysiological studies on spontaneous excitatory postsynaptic currents in isolated spinal cord slices also validated the hyperalgesic properties of the most potent 6TM- (#10) and 7TM-μ receptor (#5) ligands. Conclusion and implications Our novel compounds represent a new class of ligands for μ receptors and will serve as valuable research tools to facilitate the development of opioids with significant analgesic efficacy and fewer side-effects.

Published

2021

9. Degradable polymeric vehicles for postoperative pain management

Author

Matthew L. Becker, Ru-Rong Ji, and Natasha C. Brigham

Subjects

medicine.medical_specialty, Polymers, Postoperative pain, Science, General Physics and Astronomy, General Biochemistry, Genetics and Molecular Biology, Biomaterials, Drug Delivery Systems, medicine, Animals, Humans, Pain Management, Quality of care, Medical prescription, Intensive care medicine, Patient comfort, Analgesics, Pain, Postoperative, Multidisciplinary, business.industry, General Chemistry, Surgical procedures, Pain management, Social Control, Formal, Perspective, Drug delivery, Extended release, business

Abstract

Effective control of pain management has the potential to significantly decrease the need for prescription opioids following a surgical procedure. While extended release products for pain management are available commercially, the implementation of a device that safely and reliably provides extended analgesia and is sufficiently flexible to facilitate a diverse array of release profiles would serve to advance patient comfort, quality of care and compliance following surgical procedures. Herein, we review current polymeric systems that could be utilized in new, controlled post-operative pain management devices and highlight where opportunities for improvement exist., Pain management is an extremely important topic both medically and socio-economically. Here the authors offer an overview of the use of degrading polymeric materials for delivery of pharmaceutical agents for pain management and offer a perspective of the future directions of the field.

Published

2021

10. Epithelial stem cells from human small bronchi offer a potential for therapy of idiopathic pulmonary fibrosisResearch in context

Author

Zeyu Liu, Qi Zheng, Zhoubin Li, Moli Huang, Cheng Zhong, Ruize Yu, Rong Jiang, Haotian Dai, Jingyuan Zhang, Xiaohua Gu, Yongle Xu, Chunwei Li, Shan Shan, Feng Xu, Yue Hong, and Tao Ren

Subjects

Basal stem cells, Human small bronchi, Therapy of idiopathic pulmonary fibrosis, Bronchoscopic implantation, Senescent phenotype, Medicine, Medicine (General), R5-920

Abstract

Summary: Background: Idiopathic pulmonary fibrosis (IPF) is a fibrosing interstitial pneumonia with restrictive ventilation. Recently, the structural and functional defects of small airways have received attention in the early pathogenesis of IPF. This study aimed to elucidate the characteristics of small airway epithelial dysfunction in patients with IPF and explore novel therapeutic interventions to impede IPF progression by targeting the dysfunctional small airways. Methods: Airway trees spanning the proximal–distal axis were harvested from control lungs and explanted lungs with end-stage IPF undergoing transplant. Qualified basal cells (BCs, p63/Krt5/ITGA6/NGFR) were expanded, and their cellular functions, feasibility, safety and efficacy for transplantation therapy in IPF were validated with experiments in vitro and mouse model. Single-cell RNA-sequencing was employed to elucidate the underlying mechanisms governing the BCs based therapy. Based upon these evidences, three patients with advanced IPF and small airway dysfunction received autologous-BCs transplantation. Post-transplantation assessments included lung function, exercise capacity and high resolution computed tomography (HRCT) scans were analyzed to quantify the clinical benefits conferred by the BCs transplantation. Findings: An overall landscape of senescent phenotype in airway epithelial cells and airway stem/progenitor cells along the proximal–distal axis of the airway tree in IPF were outlined. In contrast to the cells situated in distal airways, BCs located in small bronchi in IPF displayed a non-senescent phenotype, with comparable proliferative, differentiative capabilities, and similar transcriptomic profiles to normal controls. In a mouse model of pulmonary fibrosis, BCs exhibited promising protective efficacy and safety for transplantation therapy. Autologous BCs transplantation in three advanced IPF patients with small airway dysfunction yielded significant clinical improvements in pulmonary function, particularly evidence in lung volume and small airway function. Interpretation: Epithelia of small bronchi in IPF contain functional and expandable basal stem cells, which exert therapeutic benefits via bronchoscopic implantation. Our findings offer a potential for IPF treatment by targeting small airways. Funding: National Natural Science Foundation of China (82430001, 81930001, and 81900059), Shanghai Shenkang Hospital Development Center (SHDC2020CR3063B), Department of Science and Technology of Shandong Province (2024HWYQ-058).

Published

2025

11. STING controls nociception via type I interferon signalling in sensory neurons

Author

Ru-Rong Ji, Christopher R. Donnelly, Yu Lei, Huiping Ding, Michael S. Lee, Mei-Chuan Ko, Zilong Wang, William Maixner, Changyu Jiang, Kaiyuan Wang, Junli Zhao, Xin Luo, and Amanda S. Andriessen

Subjects

Male, Nociception, 0301 basic medicine, Sensory Receptor Cells, Regulator, Pain, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Interferon, medicine, Animals, Humans, Multidisciplinary, Innate immune system, business.industry, Chronic pain, Membrane Proteins, medicine.disease, Macaca mulatta, eye diseases, Sting, 030104 developmental biology, Interferon Type I, Nociceptor, Female, Analgesia, Signal transduction, business, Neuroscience, 030217 neurology & neurosurgery, Signal Transduction, medicine.drug

Abstract

The innate immune regulator STING is a critical sensor of self- and pathogen-derived DNA. DNA sensing by STING leads to the induction of type-I interferons (IFN-I) and other cytokines, which promote immune-cell-mediated eradication of pathogens and neoplastic cells1,2. STING is also a robust driver of antitumour immunity, which has led to the development of STING activators and small-molecule agonists as adjuvants for cancer immunotherapy3. Pain, transmitted by peripheral nociceptive sensory neurons (nociceptors), also aids in host defence by alerting organisms to the presence of potentially damaging stimuli, including pathogens and cancer cells4,5. Here we demonstrate that STING is a critical regulator of nociception through IFN-I signalling in peripheral nociceptors. We show that mice lacking STING or IFN-I signalling exhibit hypersensitivity to nociceptive stimuli and heightened nociceptor excitability. Conversely, intrathecal activation of STING produces robust antinociception in mice and non-human primates. STING-mediated antinociception is governed by IFN-Is, which rapidly suppress excitability of mouse, monkey and human nociceptors. Our findings establish the STING-IFN-I signalling axis as a critical regulator of physiological nociception and a promising new target for treating chronic pain.

Published

2021

12. The role of pulmonary mast cells activation and degranulation in the process of increased pulmonary artery pressure

Author

Chengzhu Cao, Qiao-Rong Ji, Xiaozhou Wang, Ying Han, Wei Zhang, Jie Liu, and Shuang Ma

Subjects

Physiology, Hypertension, Pulmonary, Biophysics, Tryptase, Altitude Sickness, Pulmonary Artery, Pharmacology, behavioral disciplines and activities, medicine.artery, medicine, Animals, Mast Cells, Hypoxia, Lung, biology, business.industry, Degranulation, General Medicine, Hypoxia (medical), Pulmonary edema, medicine.disease, Pulmonary hypertension, humanities, Rats, medicine.anatomical_structure, Hypobaric chamber, Pulmonary artery, biology.protein, medicine.symptom, business

Abstract

Hypoxia exposure often cause the increases of pulmonary arterial pressure (PAP). Studies reported that mast cells (MCs) participate in pulmonary vascular remodeling and promote the formation of chronic pulmonary hypertension. Current studies mainly focus on the change of MCs under chronic hypoxia, but few studies on the regulatory role and mechanism of MCs under acute hypoxia. T herefore, present study investigated the dynamic change of MCs in lung tissues under acute hypoxia and the role of MCs activation in the increasement of PAP. In our study, we established an experimental rat model of acute hypobaric hypoxia using a hypobaric chamber (simulated altitude of 7,000 m) and pretreated with MCs degranulation inhibitor sodium cromoglycate (SCG) to study the MCs changes under acute hypoxic exposure. We found that acute hypobaric hypoxia contributed to the increased quantity, activity, and degranulation of MCs and SCG pretreatment showed attenuated PAP elevation under acute hypoxia. Our findings implied that there is a possible mechanism of acute hypoxia cause rapid recruitment of MCs, activation, and explosive degranulation to release Tryptase, Chymase, IL-6, His, 5-HT, and Ang II, which further contributed to pulmonary microvascular contraction and increase in PAP. This work extends the knowledge about MCs, providing a potential profile of MCs as an alternative treatment for high-altitude pulmonary edema (HAPE)-related increased pulmonary artery pressure.

Published

2021

13. A new synthetic protectin D1 analog 3-oxa-PD1n-3 DPA reduces neuropathic pain and chronic itch in mice

Author

Charles N. Serhan, Ru-Rong Ji, Ouyang Chen, Xin Luo, Jannicke Irina Nesman, and Trond Vidar Hansen

Subjects

chemistry.chemical_classification, Organic Chemistry, Inflammation, Pharmacology, Protectin D1, Biochemistry, chemistry.chemical_compound, chemistry, In vivo, Neuropathic pain, medicine, Itching, Physical and Theoretical Chemistry, medicine.symptom, Autacoid, Chronic itch, Polyunsaturated fatty acid

Abstract

The resolution of inflammation is a biosynthetically active process controlled by the interplay between oxygenated polyunsaturated mediators and G-protein coupled receptor-signaling pathways. These enzymatically oxygenated polyunsaturated fatty acids belong to distinct families of specialized pro-resolving autacoids. The protectin family of mediators has attracted an interest because of their potent pro-resolving and anti-inflammatory actions verified in several in vivo disease models. Herein, we present the stereoselective synthesis and biological evaluations of 3-oxa-PD1n-3 DPA, a protectin D1 analog. Results from mouse models indicate that the mediators protectin D1, PD1n-3 DPA and the new analog 3-oxa-PD1n-3 DPA all relieved streptozotocin-induced diabetic neuropathic pain at doses of 90 and 300 pmol, equivalent to 30 and 100 ng, respectively, following intrathecal (I.T.) injection. Of interest, at a low dose of only 30 pmol (10 ng; I.T.) only 3-oxa PD1n-3 DPA was able to alleviate neuropathic pain, directly compared to vehicle controls. Moreover, using a chronic itch model of cutaneous T-cell lymphoma (CTCL), all three compounds at 300 pmol (100 ng) showed a significant reduction in itching for several hours. The biomolecular information on the structure-functions of the protectins and the new synthetic analog 3-oxa-PD1n-3 DPA is of interest towards developing new immunoresolvents.

Published

2021

14. Low Concentrations of Silver Nanoparticles and Silver Ions Perturb the Antioxidant Defense System and Nitrogen Metabolism in N2-Fixing Cyanobacteria

Author

Lijuan Zhao, Min Huang, Bing Wu, Rong Ji, Xiaomi Wang, Arturo A. Keller, and Liyan Tian

Subjects

Antioxidant, Chemistry, medicine.medical_treatment, General Chemistry, Phenolic acid, 010501 environmental sciences, 01 natural sciences, Silver nanoparticle, Cinnamic acid, Ferulic acid, chemistry.chemical_compound, Chlorogenic acid, Polyphenol, medicine, Environmental Chemistry, Gallic acid, 0105 earth and related environmental sciences, Nuclear chemistry

Abstract

Although toxic effects of silver nanoparticles (AgNPs) on aquatic organisms have been extensively reported, responses of nitrogen-fixing cyanobacteria to AgNPs/Ag+ under environmentally relevant concentrations are largely unknown. Here, cyanobacteria were exposed to different concentrations of AgNPs (0.01, 0.1, and 1 mg/L) or Ag+ (0.1, 1, and 10 μg/L) for 96 h. The impacts of AgNPs and Ag+ on photosynthesis and N2 fixation in cyanobacteria (Nostoc sphaeroides) were evaluated. In addition, gas chromatography-mass spectrometry (GC-MS)-based metabolomics was employed to give an instantaneous snapshot of the physiological status of the cells under AgNP/Ag+ exposure. Exposure to high doses of AgNPs (1 mg/L) or Ag+ (10 μg/L) caused growth inhibition, reactive oxygen species overproduction, malondialdehyde accumulation, and decreased N2 fixation. In contrast, low doses of AgNPs (0.01 and 0.1 mg/L) and Ag+ (0.1 and 1 μg/L) did not induce observable responses. However, metabolomics revealed that metabolic reprogramming occurred even at low concentrations of AgNP and Ag+ exposure. Levels of a number of antioxidant defense-related metabolites, especially phenolic acid and polyphenols (gallic acid, resveratrol, isochlorogenic acid, chlorogenic acid, cinnamic acid, 3-hydroxybenzoic acid, epicatechin, catechin, and ferulic acid), significantly decreased in response to AgNPs or Ag+. This indicates that AgNPs and Ag+ can disrupt the antioxidant defense system and disturb nitrogen metabolism even at low-dose exposure. Metabolomics was shown to be a powerful tool to detect "invisible" changes, not observable by typical phenotypic-based endpoints.

Published

2020

15. How Do Sensory Neurons Sense Danger Signals?

Author

Christopher R. Donnelly, Ru-Rong Ji, and Ouyang Chen

Subjects

0301 basic medicine, Damp, Sensory Receptor Cells, General Neuroscience, Toll-Like Receptors, Pattern recognition receptor, Pain, Sensory system, Biology, Article, Mechanoreceptor, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Immune system, Receptors, Pattern Recognition, medicine, Nociceptor, Humans, Premovement neuronal activity, Receptor, Neuroscience, 030217 neurology & neurosurgery, Signal Transduction

Abstract

Sensory neurons are activated by physical and chemical stimuli, eliciting sensations such as temperature, touch, pain, and itch. From an evolutionary perspective, sensing danger is essential for organismal survival. Upon infection and injury, immune cells respond to pathogen/damage-associated molecular patterns (PAMPs/DAMPs) through pattern recognition receptors (PRRs) such as Toll-like receptors (TLRs), and produce inflammatory mediators that activate sensory neurons through neuro–immune interactions. Sensory neurons also express TLRs and other PRRs that directly sense danger signals after injury or during infection, leading to pain, itch, or analgesia. In addition to slow-acting canonical TLR signaling, TLRs function uniquely in sensory neurons through non-canonical coupling to ion channels, enabling rapid modulation of neuronal activity. We discuss how sensory neurons utilize TLRs and other PRR pathways to detect danger signals in their environment.

Published

2020

16. LncRNA SNHG4 Attenuates Inflammatory Responses by Sponging miR-449c-5p and Up-Regulating STAT6 in Microglial During Cerebral Ischemia-Reperfusion Injury

Author

Xiaohuan Chen, Shuo Zhang, Min-jie Wei, Wenchong Sun, Ling Pei, Zuodi Liang, Xiuru Yin, and Zhen-rong Ji

Subjects

Male, 0301 basic medicine, medicine.medical_treatment, ischemia-reperfusion injury, Ischemia, Pharmaceutical Science, Inflammation, Pharmacology, Brain Ischemia, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Cerebrospinal fluid, In vivo, SNHG4, Drug Discovery, medicine, Animals, Humans, Cells, Cultured, STAT6, Original Research, Drug Design, Development and Therapy, Microglia, business.industry, medicine.disease, Rats, Up-Regulation, MicroRNAs, 030104 developmental biology, Cytokine, medicine.anatomical_structure, Reperfusion Injury, 030220 oncology & carcinogenesis, RNA, Long Noncoding, miR-449c-5p, medicine.symptom, STAT6 Transcription Factor, business, Reperfusion injury

Abstract

Shuo Zhang,1,2 Wen-chong Sun,2 Zuo-di Liang,2 Xiu-ru Yin,2 Zhen-rong Ji,2 Xiao-huan Chen,2 Min-jie Wei,1 Ling Pei2 1Department of Pharmacology, School of Pharmacy, China Medical University, Shenyang, Liaoning 110001, People’s Republic of China; 2Department of Anesthesiology, The First Affiliated Hospital of China Medical University, Shenyang, Liaoning 110001, People’s Republic of ChinaCorrespondence: Min-jie Wei; Ling Pei Email koxu078nzod@163.com; lingpei49@sina.comBackground: Inflammatory response mediated by microglia plays a key role in cerebral ischemia-reperfusion injury. This study intends to probe the role of lncRNA SNHG4 in regulating the inflammatory response of the microglia during cerebral ischemia reperfusion.Materials and Methods: Blood samples and cerebrospinal fluid samples were collected from acute cerebral infarction (ACI) patients and healthy controls. The middle cerebral artery occlusion (MCAO) models were constructed with rats. LPS induction and oxygen-glucose deprivation methods were respectively applied to simulate the activation of microglia in vitro. qRT-PCR was employed to determine the expressions of SNHG4, miR-449c-5p and related inflammatory factors in vivo and in vitro. The inflammatory responses of the microglia subject to the varied expressions of SNHG4 and miR-449c-5p were detected. Luciferase assays were conducted to verify the crosstalk involving SNHG4, miR-449c-5p and STAT6.Results: Compared with the control group, the expression of SNHG4 derived from the samples of ACI patients and the microglia of MCAO group were remarkably down-regulated, but the expression of miR-449c-5p was dramatically up-regulated. Overexpression of SNHG4 and knock-down of miR-449c-5p could inhibit the expression of pro-inflammatory cytokine in the microglia and promote the expression of anti-inflammatory factors. Meanwhile, the phospho-STAT6 was up-regulated, whereas the knock-down of SNHG4 and over-expression of miR-449c-5p in microglia had the opposite effects. Luciferase assay confirmed that SNHG4 could target miR-449c-5p, while miR-449c-5p could target STAT6.Conclusion: SNHG4 can regulate STAT6 and repress inflammation by adsorbing miR-449c-5p in microglia during cerebral ischemia-reperfusion injury.Keywords: SNHG4, STAT6, miR-449c-5p, ischemia-reperfusion injury

Published

2020

17. Central Nervous System Targets: Glial Cell Mechanisms in Chronic Pain

Author

Amanda S. Andriessen, Christopher R. Donnelly, Ru-Rong Ji, Changyu Jiang, Kaiyuan Wang, Gang Chen, and William Maixner

Subjects

Central Nervous System, 0301 basic medicine, Cell type, Central nervous system, Review, 03 medical and health sciences, Drug Delivery Systems, 0302 clinical medicine, Ganglia, Spinal, medicine, Animals, Humans, Pharmacology (medical), Pharmacology, Analgesics, Microglia, business.industry, Chronic pain, Inflammasome, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, nervous system, Astrocytes, Neuropathic pain, Neurology (clinical), Chronic Pain, Cell activation, business, Neuroglia, Neuroscience, 030217 neurology & neurosurgery, medicine.drug, Astrocyte

Abstract

Interactions between central glial cells and neurons in the pain circuitry are critical contributors to the pathogenesis of chronic pain. In the central nervous system (CNS), two major glial cell types predominate: astrocytes and microglia. Injuries or pathological conditions which evoke pain are concurrently associated with the presence of a reactive microglia or astrocyte state, which is characterized by a variety of changes in the morphological, molecular, and functional properties of these cells. In this review, we highlight the changes that reactive microglia and astrocytes undergo following painful injuries and insults and discuss the critical and interactive role these two cell types play in the initiation and maintenance of chronic pain. Additionally, we focus on several crucial mechanisms by which microglia and astrocytes contribute to chronic pain and provide commentary on the therapeutic promise of targeting these pathways. In particular, we discuss how the inflammasome in activated microglia drives maturation and release of key pro-inflammatory cytokines, which drive pain through neuronal- and glial regulations. Moreover, we highlight several potentially-druggable hemichannels and proteases produced by reactive microglia and astrocytes in pain states and discuss how these pathways regulate distinct phases during pain pathogenesis. We also review two emerging areas in chronic pain research: 1) sexually dimorphic glial cell signaling and 2) the role of oligodendrocytes. Finally, we highlight important considerations for potential pain therapeutics targeting glial cell mediators as well as questions that remain in our conceptual understanding of glial cell activation in pain states. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s13311-020-00905-7) contains supplementary material, which is available to authorized users.

Published

2020

18. PD-1 blockade inhibits osteoclast formation and murine bone cancer pain

Author

Sangsu Bang, Anthony J. Mirando, Christopher R. Donnelly, Xueshu Tao, Yihan Liao, Ouyang Chen, Matthew J. Hilton, Kaiyuan Wang, Yun Gu, and Ru-Rong Ji

Subjects

0301 basic medicine, Bone disease, medicine.medical_treatment, Programmed Cell Death 1 Receptor, Osteoclasts, Bone Neoplasms, Carcinoma, Lewis Lung, Mice, 03 medical and health sciences, 0302 clinical medicine, Osteoclast, medicine, Animals, Mice, Knockout, Bone cancer, business.industry, Bone metastasis, Cancer, Cancer Pain, General Medicine, Immunotherapy, medicine.disease, Neoplasm Proteins, Nivolumab, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Cancer research, Female, Cancer pain, business, Research Article

Abstract

Emerging immune therapy, such as with the anti–programmed cell death–1 (anti–PD-1) monoclonal antibody nivolumab, has shown efficacy in tumor suppression. Patients with terminal cancer suffer from cancer pain as a result of bone metastasis and bone destruction, but how PD-1 blockade affects bone cancer pain remains unknown. Here, we report that mice lacking Pdcd1 (Pd1(−/−)) demonstrated remarkable protection against bone destruction induced by femoral inoculation of Lewis lung cancer cells. Compared with WT mice, Pd1(−/−) mice exhibited increased baseline pain sensitivity, but the development of bone cancer pain was compromised in Pd1(−/−) mice. Consistently, these beneficial effects in Pd1(−/−) mice were recapitulated by repeated i.v. applications of nivolumab in WT mice, even though nivolumab initially increased mechanical and thermal pain. Notably, PD-1 deficiency or nivolumab treatment inhibited osteoclastogenesis without altering tumor burden. PD-L1 and CCL2 are upregulated within the local tumor microenvironment, and PD-L1 promoted RANKL-induced osteoclastogenesis through JNK activation and CCL2 secretion. Bone cancer upregulated CCR2 in primary sensory neurons, and CCR2 antagonism effectively reduced bone cancer pain. Our findings suggest that, despite a transient increase in pain sensitivity following each treatment, anti–PD-1 immunotherapy could produce long-term benefits in preventing bone destruction and alleviating bone cancer pain by suppressing osteoclastogenesis.

Published

2020

19. Neuroimmune modulation of pain and regenerative pain medicine

Author

Yul Huh, Jianguo Cheng, Ru-Rong Ji, William Maixner, and Thomas Buchheit

Subjects

0301 basic medicine, Neuroimmunomodulation, business.industry, Pain medicine, Analgesic, Chronic pain, Review, General Medicine, Regenerative Medicine, medicine.disease, Regenerative medicine, 03 medical and health sciences, Neuroimmune modulation, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Animals, Humans, Medicine, Chronic Pain, business, Neuroscience

Abstract

Regenerative pain medicine, which seeks to harness the body’s own reparative capacity, is rapidly emerging as a field within pain medicine and orthopedics. It is increasingly appreciated that common analgesic mechanisms for these treatments depend on neuroimmune modulation. In this Review, we discuss recent progress in mechanistic understanding of nociceptive sensitization in chronic pain with a focus on neuroimmune modulation. We also examine the spectrum of regenerative outcomes, including preclinical and clinical outcomes. We further distinguish the analgesic mechanisms of regenerative therapies from those of cellular replacement, creating a conceptual and mechanistic framework to evaluate future research on regenerative medicine.

Published

2020

20. Silencing of ATP2B1‐AS1 contributes to protection against myocardial infarction in mouse via blocking NFKBIA‐mediated NF‐κB signalling pathway

Author

Xian-Zhao Zhang, Kai-You Song, Feng Li, and Qing-Rong Ji

Subjects

0301 basic medicine, Myocardial Infarction, Apoptosis, Inflammation, Biology, NF‐kappa‐B inhibitor alpha, Proinflammatory cytokine, Mice, Plasma Membrane Calcium-Transporting ATPases, 03 medical and health sciences, 0302 clinical medicine, NF-KappaB Inhibitor alpha, medicine, Animals, Humans, Gene silencing, Myocytes, Cardiac, Gene Silencing, Viability assay, nuclear factor‐kappa‐B signalling pathway, Myocardium, NF-kappa B, Transcription Factor RelA, Original Articles, Cell Biology, Cell cycle, Hedgehog signaling pathway, Antisense RNA, Disease Models, Animal, 030104 developmental biology, 030220 oncology & carcinogenesis, Cancer research, Molecular Medicine, RNA, Long Noncoding, Original Article, mouse ATPase plasma membrane Ca2+ transporting 1 antisense RNA 1, medicine.symptom, Signal Transduction

Abstract

Myocardial infarction (MI) is an acute coronary syndrome that refers to tissue infarction of the myocardium. This study aimed to investigate the effect of long intergenic non‐protein‐coding RNA (lincRNA) ATPase plasma membrane Ca2+ transporting 1 antisense RNA 1 (ATP2B1‐AS1) against MI by targeting nuclear factor‐kappa‐B inhibitor alpha (NFKBIA) and mediating the nuclear factor‐kappa‐B (NF‐κB) signalling pathway. An MI mouse model was established and idenepsied by cardiac function evaluation. It was determined that ATP2B1‐AS1 was highly expressed, while NFKBIA was poorly expressed and NF‐κB signalling pathway was activated in MI mice. Cardiomyocytes were extracted from mice and introduced with a series of mouse ATP2B1‐AS1 vector, NFKBIA vector, siRNA‐mouse ATP2B1‐AS1 and siRNA‐NFKBIA. The expression of NF‐κBp50, NF‐κBp65 and IKKβ was determined to idenepsy whether ATP2B1‐AS1 and NFKBIA affect the NF‐κB signalling pathway, the results of which suggested that ATP2B1‐AS1 down‐regulated the expression of NFKBIA and activated the NF‐κB signalling pathway in MI mice. Based on the data from assessment of cell viability, cell cycle, apoptosis and levels of inflammatory cytokines, either silencing of mouse ATP2B1‐AS1 or overexpression of NFKBIA was suggested to result in reduced cardiomyocyte apoptosis and expression of inflammatory cytokines, as well as enhanced cardiomyocyte viability. Our study provided evidence that mouse ATP2B1‐AS1 silencing may have the potency to protect against MI in mice through inhibiting cardiomyocyte apoptosis and inflammation, highlighting a great promise as a novel therapeutic target for MI.

Published

2020

21. Development and experimental validation of hypoxia-related gene signatures for osteosarcoma diagnosis and prognosis based on WGCNA and machine learning

Author

Bo Wen, Jian Chen, Tianqi Ding, Zhiyou Mao, Rong Jin, Yirui Wang, Meiqin Shi, Lixun Zhao, Asang Yang, Xianyun Qin, and Xuewei Chen

Subjects

Osteosarcoma, Hypoxia, Diagnosis, Prognosis, WGCNA, LASSO, Medicine, Science

Abstract

Abstract Osteosarcoma (OS) is the most common primary malignant tumour of the bone with high mortality. Here, we comprehensively analysed the hypoxia signalling in OS and further constructed novel hypoxia-related gene signatures for OS prediction and prognosis. This study employed Gene Set Enrichment Analysis (GSEA), Weighted correlation network analysis (WGCNA) and Least absolute shrinkage and selection operator (LASSO) analyses to identify Stanniocalcin 2 (STC2) and Transmembrane Protein 45A (TMEM45A) as the diagnostic biomarkers, which further assessed by Receiver Operating Characteristic (ROC), decision curve analysis (DCA), and calibration curves in training and test dataset. Univariate and multivariate Cox regression analyses were used to construct the prognostic model. STC2 and metastasis were devised to forge the OS risk model. The nomogram, risk score, Kaplan Meier plot, ROC, DCA, and calibration curves results certified the excellent performance of the prognostic model. The expression level of STC2 and TMEM45A was validated in external datasets and cell lines. In immune cell infiltration analysis, cancer-associated fibroblasts (CAFs) were significantly higher in the low-risk group. And the immune infiltration of CAFs was negatively associated with the expression of STC2 (P

Published

2024

22. Early predictive value of ultrasound measurements of rectus femoris cross-sectional area to diagnose ICU-acquired weakness in patients undergoing invasive mechanical ventilation: a prospective cohort study

Author

Huiming Yao, Jie Zhang, Rong Jiang, Qian Xie, Chaoqi Zhou, Yuting Yang, Zhenguo Zeng, and Wei Zhang

Subjects

ICU-acquired weakness, Ultrasound measurements, Rectus femoris cross-sectional area, Mechanical ventilation, Medical Research Council, Medicine

Abstract

Abstract Background The diagnosis of ICU-acquired weakness (ICUAW) may be delayed due to the complexity of critically ill patients. This study aimed to investigate the value of ultrasound measurements of rectus femoris cross-sectional area (RFCSA) in predicting ICUAW in patients undergoing invasive mechanical ventilation. Methods This was a prospective cohort study of patients undergoing mechanical ventilation for at least 48 h. RFCSA was measured using ultrasound in patients upon ICU admission and followed until discharge. Using the Medical Research Council score as the gold standard, we evaluated the diagnostic value of ultrasound measurements in predicting ICUAW. Kaplan–Meier curves were constructed to evaluate and compare the length of ICU stay and duration of invasive mechanical ventilation between patients with and without ICUAW. Results Among the 76 patients, 34 (44.7%) were diagnosed with ICUAW using the Medical Research Council score as the gold standard. The RFCSA atrophy rate between day 1 and day 3 was significantly higher in the ICUAW group (7.9 ± 2.8% vs. 4.3 ± 2.1%, p

Published

2024

23. Synthesis of typical sulfonamide antibiotics with [14C]- and [13C]-labelling on phenyl ring for environmental studies

Author

Philippe F.-X. Corvini, Rong Ji, Lianhong Wang, Dashun Zhou, Yao Yao, Feifei Sun, Jianqiu Chen, and Xuan Wu

Subjects

chemistry.chemical_classification, Stereochemistry, medicine.drug_class, Chemistry, Labelling, Antibiotics, medicine, Ring (chemistry), Sulfonamide

Abstract

Background As a kind of widely used antibiotics, sulfonamide antibiotics (SAs) has become ubiquitous environmental contaminants that caused public concerns. The behavior of SAs in complex environmental system need to be elucidated, which is hampered by unavailability or high cost of isotope-labelled SAs. Results Using commercially available uniformly [l4C]- and [l3C]-labelled aniline as starting material, we synthesized [phenyl-ring-14C]- and [phenyl-ring-l3C]-labelled sulfamethoxazole (SMX), sulfamonomethoxine (SMM), and sulfadiazine (SDZ) using four-step (via condensation of labelled N-acetylsulfanilyl chloride and aminoheterocycles) or five-step (via condensation of labelled N-acetylsulfonamide and chloroheterocycles) reactions in good yields (5.0−22.5% and 28.1−54.1% for [14C]- and [13C]-labelled SAs, respectively) and high purities (> 98.0%). Conclusion The synthesis of [l4C]-labelled SAs could be completed on milligram-level, being feasible for preparation of labelled SAs with high specific radioactivity. This study provides efficient and maneuverable methods to obtain a variety of [14C]- or [13C]-labelled SAs for studies on their environmental behavior, such as fate, transformation, and bioaccumulation.

Published

2021

24. Interferons in Pain and Infections: Emerging Roles in Neuro-Immune and Neuro-Glial Interactions

Author

Ping-Heng Tan, Jasmine Ji, Chun-Chang Yeh, and Ru-Rong Ji

Subjects

Central nervous system, Immunology, microglia, Review, Neurotransmission, Interferon-gamma, Immune system, medicine, Immunology and Allergy, Animals, Humans, Receptor, IFN-γ, Neuroinflammation, IFN-β, IFN-α, Receptors, Interferon, Microglia, business.industry, Multiple sclerosis, astrocytes, spinal cord, Nociceptors, RC581-607, medicine.disease, Acute Pain, infection, Disease Models, Animal, medicine.anatomical_structure, Interferon Type I, Neuroinflammatory Diseases, Nociceptor, Immunologic diseases. Allergy, Chronic Pain, business, Neuroscience, Neuroglia, Signal Transduction

Abstract

Interferons (IFNs) are cytokines that possess antiviral, antiproliferative, and immunomodulatory actions. IFN-α and IFN-β are two major family members of type-I IFNs and are used to treat diseases, including hepatitis and multiple sclerosis. Emerging evidence suggests that type-I IFN receptors (IFNARs) are also expressed by microglia, astrocytes, and neurons in the central and peripheral nervous systems. Apart from canonical transcriptional regulations, IFN-α and IFN-β can rapidly suppress neuronal activity and synaptic transmission via non-genomic regulation, leading to potent analgesia. IFN-γ is the only member of the type-II IFN family and induces central sensitization and microglia activation in persistent pain. We discuss how type-I and type-II IFNs regulate pain and infection via neuro-immune modulations, with special focus on neuroinflammation and neuro-glial interactions. We also highlight distinct roles of type-I IFNs in the peripheral and central nervous system. Insights into IFN signaling in nociceptors and their distinct actions in physiological vs. pathological and acute vs. chronic conditions will improve our treatments of pain after surgeries, traumas, and infections.

Published

2021

25. Interleukin-6 Signaling Mediates Cartilage Degradation and Pain in Post-Traumatic Osteoarthritis

Author

Abigail Leinroth, Jason T. Long, Yinshi Ren, Yihan Liao, Matthew J. Hilton, Anthony J. Mirando, Ru-Rong Ji, and Xin Luo

Subjects

MAPK/ERK pathway, Anabolism, business.industry, Catabolism, Cartilage, Chronic pain, Osteoarthritis, Bioinformatics, medicine.disease, Chondrocyte, medicine.anatomical_structure, Medicine, business, Janus kinase

Abstract

Osteoarthritis (OA) and post-traumatic OA (PTOA) are prevalent joint disorders and leading causes of chronic pain. The disease pathology of OA/PTOA is caused by imbalanced catabolic and anabolic responses and pro-inflammatory changes; however, their connection to pain is not well studied. Since IL-6 is involved in cartilage degradation and conditions of inflammatory pain, we set out to identify whether IL-6 and IL-6 signaling mechanisms contribute to both PTOA-associated cartilage degradation and pain. We performed a modified destabilization of the medial meniscus (DMM) surgery, a model of PTOA, on conventional IL-6 KO and control mice and assessed both cartilage degradation and pain-associated phenotypes. Genetic removal of Il6 in males attenuates PTOA-associated cartilage catabolism, decreases innervation of soft tissues associated with the knee joint, and reduces nociceptive pain signaling, without improving subchondral bone sclerosis or chondrocyte apoptosis. We further demonstrate that specific downstream mediators of IL-6 signaling, the Janus kinases (JAKs), are critical in regulating both cartilage catabolism and pain signaling. We identified STAT3 as a key regulator of cartilage catabolism downstream of JAK; however, inhibition of STAT3 decreases cartilage anabolism while enhancing pain signals. ERK was found to be important for neurite outgrowth and pain signaling; however, inhibition of ERK was less effective in reducing cartilage catabolism. Therefore, our data demonstrate that IL-6 mediates both PTOA-associated cartilage degradation and pain, and provides critical details regarding the downstream mediators of IL-6 signaling as therapeutic targets for disease-modifying osteoarthritis drugs.Single Sentence SummaryIL-6 mediates PTOA-associated cartilage degradation and pain via specific downstream signaling mechanisms in a gender specific manner.

Published

2021

26. Mn3O4 nanozymes boost endogenous antioxidant metabolites in cucumber (Cucumis sativus) plant and enhance resistance to salinity stress

Author

Philippe F.-X. Corvini, Rong Ji, Yuxiong Huang, Lijuan Zhao, Min Huang, and Li Lu

Subjects

Hydroxybenzoic acid, Antioxidant, Materials Science (miscellaneous), medicine.medical_treatment, 02 engineering and technology, Photosynthesis, 03 medical and health sciences, chemistry.chemical_compound, Chlorogenic acid, medicine, Food science, 030304 developmental biology, General Environmental Science, 2. Zero hunger, 0303 health sciences, biology, Phenylpropanoid, fungi, technology, industry, and agriculture, food and beverages, Catechin, Quinic acid, 021001 nanoscience & nanotechnology, biology.organism_classification, chemistry, 0210 nano-technology, Cucumis

Abstract

Nanomaterials with enzyme-like activities (nanozyme) have shown potential to augment the inherent functions of plants, e.g. photosynthesis and stress resistance. Mechanistically understanding the interaction between plants and nanozymes is important. In this study, Mn3O4 NPs (1 and 5 mg per plant) with excellent antioxidant enzyme mimicking activities were synthesized and were foliarly applied to 3 week-old cucumber plants for 7 days. The response of plants to Mn3O4 NPs was determined at physiological and metabolic levels. Results showed that Mn3O4 NPs at 1 mg per plant significantly increased leaf photosynthetic pigment content, net photosynthesis, and biomass. Gas chromatography-mass spectrometry based metabolomics revealed that Mn3O4 NPs at 1 mg per plant altered the metabolomes in the cucumber leaves. A notable change was that both precursors (phenylalanine and tyrosine) and down-stream products (resveratrol, chlorogenic acid, dihydroxycinnamic acid, benzenetriol, hydroxybenzoic acid, trihydroxybenzene, quinic acid, and catechin) in shikimate and phenylpropanoid pathways were up-regulated in response to the Mn3O4 NPs, indicating the boosting of endogenous antioxidants. Mn3O4 NPs were then applied to 3 week-old cucumber plants subjected to salinity stress to test their performance to stress tolerance. Mn3O4 NPs at 1 mg per plant levels were found to successfully alleviate oxidative stress in cucumber plants allowing them to maintain their biomass. These results indicate that Mn3O4 NPs can boost endogenous antioxidant defenses in the plant, which may enable Mn3O4 NPs to be a promising nano-regulator helping to counter the undesirable effects of oxidative stress.

Published

2020

27. Transcriptome Reveals the Rice Response to Elevated Free Air CO2 Concentration and TiO2 Nanoparticles

Author

Kai-Hua Gu, Hongyan Guo, Jianguo Zhu, Ying Yin, Yong-Guan Zhu, Meiling Xu, Wenchao Du, and Rong Ji

Subjects

Oryza sativa, Antioxidant, biology, Chemistry, medicine.medical_treatment, food and beverages, Biomass, General Chemistry, Metabolism, 010501 environmental sciences, Oryza, biology.organism_classification, Photosynthesis, 01 natural sciences, Transcriptome, Horticulture, medicine, Environmental Chemistry, 0105 earth and related environmental sciences, Panicle

Abstract

Increasing CO2 levels are speculated to change the effects of engineered nanomaterials in soil and on plant growth. How plants will respond to a combination of elevated CO2 and nanomaterials stress has rarely been investigated, and the underlying mechanism remains largely unknown. Here, we conducted a field experiment to investigate the rice (Oryza sativa L. cv. IIyou) response to TiO2 nanoparticles (nano-TiO2, 0 and 200 mg kg-1) using a free-air CO2 enrichment system with different CO2 levels (ambient ∼370 μmol mol-1 and elevated ∼570 μmol mol-1). The results showed that elevated CO2 or nano-TiO2 alone did not significantly affect rice chlorophyll content and antioxidant enzyme activities. However, in the presence of nano-TiO2, elevated CO2 significantly enhanced the rice height, shoot biomass, and panicle biomass (by 9.4%, 12.8%, and 15.8%, respectively). Furthermore, the Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis revealed that genes involved in photosynthesis were up-regulated while most genes associated with secondary metabolite biosynthesis were down-regulated in combination-treated rice. This indicated that elevated CO2 and nano-TiO2 might stimulate rice growth by adjusting resource allocation between photosynthesis and metabolism. This study provides novel insights into rice responses to increasing contamination under climate change.

Published

2019

28. 14C-Labelling of the natural steroid estrogens 17α-estradiol, 17β-estradiol, and estrone

Author

Franziska Ewald, Ting Wang, Lan Xianjin, Rong Ji, Cui Kai, Lianhong Wang, Andreas Schäffer, and Zaixin Chen

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, medicine.medical_treatment, 0211 other engineering and technologies, Estrone, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, law.invention, Steroid, chemistry.chemical_compound, law, medicine, Environmental Chemistry, Organic chemistry, Waste Management and Disposal, Walden inversion, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, Pollution, Enol, chemistry, Nandrolone, Mitsunobu reaction, Glucuronide, Sodium acetate, medicine.drug

Abstract

The worldwide environmental occurrence of natural steroid estrogens has drawn increasing concerns. However, the fate of the estrogens, especially the α-isomer of estradiol, in the environmental matrices is still obscure. Using 14C-radioactively labelled forms of these estrogens can facilitate and is sometimes a prerequisite for studying their transformation and residual distribution in the environment, but the availability of labelled compounds (owing to commercially high prices or unavailable) hampers such studies. Here we developed simple and stable methods to synthesize 14C-labelled estradiol isomers and estrone using relatively low-priced [carboxyl-14C]-labelled sodium acetate as a precursor. The radiochemical syntheses started from an enol lactone, which was prepared from nandrolone by oxidation to open the A-ring followed by recyclization. Inversion of the 17β-hydroxyl group into its 17α-form was achieved via the Walden inversion using the Mitsunobu reaction. [3-14C]-17β-estradiol, [3-14C]-17α-estradiol, and [3-14C]-estrone were synthesized in five, six, and seven steps with an overall radiochemical yield of 17.4%, 16.2%, and 13.9%, respectively. The synthesized 14C-labelled compounds provide materials for studying the fate and behavior of estrogens in complex environmental matrixes and for further synthesis of their 14C-labelled sulfate and glucuronide conjugates.

Published

2019

29. Effects of veterinary antibiotics on the fate and persistence of 17β-estradiol in swine manure

Author

Lianhong Wang, Feifei Sun, Rong Ji, Ting Wang, and Yujie He

Subjects

Veterinary medicine, Environmental Engineering, Swine, medicine.drug_class, Health, Toxicology and Mutagenesis, Antibiotics, 0211 other engineering and technologies, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Residual distribution, Persistence (computer science), medicine, High doses, Animals, Environmental Chemistry, Livestock manure, Waste Management and Disposal, Incubation, 0105 earth and related environmental sciences, Sulfonamides, 021110 strategic, defence & security studies, Estradiol, Chemistry, Veterinary Drugs, Estrogens, Mineralization (soil science), Pollution, Manure, Anti-Bacterial Agents, Aminoglycosides, Biodegradation, Environmental, Chloramphenicol, Tetracyclines, Female, Macrolides, Fluoroquinolones

Abstract

The fate and persistence of natural estrogens from livestock manure and the interactions of these compounds with veterinary antibiotics (VAs) have not been well studied. We therefore employed 14C-labeling to explore the mineralization, degradation, and residual distribution of 17β-estradiol (E2) in swine manure in the absence and presence of six categories of VAs at concentrations of 10 and 100 mg/kg. After 16 days of incubation, 94% of the E2 dissipated, of which 28% was mineralized to 14CO2, 18% was transformed into organic-extractable E1 (9%) and other unknown metabolites (9%), and 48% into non-extractable residues (NER). VAs inhibited, enhanced or had no effect on E2 mineralization or its degradation to E1 and other metabolites. Principal component analysis showed that the overall effect of VAs was not necessarily related to their physicochemical properties or concentrations. However, high doses of macrolides inhibited E2 mineralization in manure and increased the retention of E2 and its metabolites in both free and NER forms. Our study demonstrates that considerable amounts of E2 and NER are retained in manure, despite nearly complete mineralization. Thus, VAs administered to livestock may increase the persistence of natural estrogens in manure and, accordingly, the environmental risks posed by these compounds.

Published

2019

30. Functional selection of protease inhibitory antibodies

Author

Chris Benitez, Ru-Rong Ji, Chuan Chen, Zahid Mustafa, Ki Baek Lee, Xin Luo, Aaron Ramirez, Tyler Lopez, and Xin Ge

Subjects

Proteases, medicine.drug_class, medicine.medical_treatment, Matrix Metalloproteinase Inhibitors, Monoclonal antibody, Cathepsin B, law.invention, Mice, 03 medical and health sciences, 0302 clinical medicine, Alzheimer Disease, law, Neoplasms, Escherichia coli, Matrix Metalloproteinase 14, medicine, Animals, Aspartic Acid Endopeptidases, Aspergillosis, Humans, Protease Inhibitors, Protease inhibitor (pharmacology), Amino Acid Sequence, 030304 developmental biology, Serine protease, 0303 health sciences, Amyloid beta-Peptides, Multidisciplinary, Protease, biology, Chemistry, Antibodies, Monoclonal, Biological Sciences, Cysteine protease, Recombinant Proteins, 3. Good health, Matrix Metalloproteinase 9, Biochemistry, 030220 oncology & carcinogenesis, Periplasm, Proteolysis, Recombinant DNA, biology.protein, Amyloid Precursor Protein Secretases, Serine Proteases, Peptide Hydrolases

Abstract

Critical for diverse biological processes, proteases represent one of the largest families of pharmaceutical targets. To inhibit pathogenic proteases with desired selectivity, monoclonal antibodies (mAbs) hold great promise as research tools and therapeutic agents. However, identification of mAbs with inhibitory functions is challenging because current antibody discovery methods rely on binding rather than inhibition. This study developed a highly efficient selection method for protease inhibitory mAbs by coexpressing 3 recombinant proteins in the periplasmic space of Escherichia coli—an antibody clone, a protease of interest, and a β-lactamase modified by insertion of a protease cleavable peptide sequence. During functional selection, inhibitory antibodies prevent the protease from cleaving the modified β-lactamase, thereby allowing the cell to survive in the presence of ampicillin. Using this method to select from synthetic human antibody libraries, we isolated panels of mAbs inhibiting 5 targets of 4 main protease classes: matrix metalloproteinases (MMP-14, a predominant target in metastasis; MMP-9, in neuropathic pain), β-secretase 1 (BACE-1, an aspartic protease in Alzheimer’s disease), cathepsin B (a cysteine protease in cancer), and Alp2 (a serine protease in aspergillosis). Notably, 37 of 41 identified binders were inhibitory. Isolated mAb inhibitors exhibited nanomolar potency, exclusive selectivity, excellent proteolytic stability, and desired biological functions. Particularly, anti-Alp2 Fab A4A1 had a binding affinity of 11 nM and inhibition potency of 14 nM, anti-BACE1 IgG B2B2 reduced amyloid beta (Aβ(40)) production by 80% in cellular assays, and IgG L13 inhibited MMP-9 but not MMP-2/-12/-14 and significantly relieved neuropathic pain development in mice.

Published

2019

31. Macrophage Toll-like Receptor 9 Contributes to Chemotherapy-Induced Neuropathic Pain in Male Mice

Author

Ru-Rong Ji, Sangsu Bang, Linlin Zhang, Megumi Matsuda, Yul Huh, Qianru He, and Xin Luo

Subjects

Male, Pain Threshold, 0301 basic medicine, Paclitaxel, Resiniferatoxin, TRPV1, Antineoplastic Agents, Pharmacology, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, Animals, Research Articles, Pain Measurement, Microglia, business.industry, Macrophages, General Neuroscience, Peripheral Nervous System Diseases, hemic and immune systems, medicine.disease, CXCL1, 030104 developmental biology, medicine.anatomical_structure, Peripheral neuropathy, chemistry, Hyperalgesia, Toll-Like Receptor 9, Neuropathic pain, TLR4, Neuralgia, Female, Tumor necrosis factor alpha, business, 030217 neurology & neurosurgery

Abstract

Chemotherapy-induced peripheral neuropathy (CIPN) remains a pressing clinical problem; however, our understanding of sexual dimorphism in CIPN remains unclear. Emerging studies indicate a sex-dimorphic role of Toll-like receptor 4 (TLR4) in driving neuropathic pain. In this study, we examined the role of TLR9 in CIPN induced by paclitaxel in WT and Tlr9 mutant mice of both sexes. Baseline pain sensitivity was not affected in either Tlr9 mutant male or female mice. Intraplantar and intrathecal injection of the TLR9 agonist ODN 1826 induced mechanical allodynia in both sexes of WT and Tlr4 KO mice but failed to do so in Tlr9 mutant mice. Moreover, Trpv1 KO or C-fiber blockade by resiniferatoxin failed to affect intraplantar ODN 1826-induced mechanical allodynia. Interestingly, the development of paclitaxel-evoked mechanical allodynia was attenuated by TLR9 antagonism or Tlr9 mutation only in male mice. Paclitaxel-induced CIPN caused macrophage infiltration to DRGs in both sexes, and this infiltration was not affected by Tlr9 mutation. Paclitaxel treatment also upregulated TNF and CXCL1 in macrophage cultures and DRG tissues in both sexes, but these changes were compromised by Tlr9 mutation in male animals. Intraplantar adoptive transfer of paclitaxel-activated macrophages evoked mechanical allodynia in both sexes, which was compromised by Tlr9 mutation or by treatment with TLR9 inhibitor only in male animals. Finally, TLR9 antagonism reduced paclitaxel-induced mechanical allodynia in female nude mice (T-cell and B-cell deficient). Together, these findings reveal sex-dimorphic macrophage TLR9 signaling in chemotherapy-induced neuropathic pain. SIGNIFICANCE STATEMENT Chemotherapy-induced peripheral neuropathy (CIPN) is a major side effect in cancer patients undergoing clinical chemotherapy treatment regimens. The role of sex dimorphism with regards to the mechanisms of CIPN and analgesia against CIPN remains unclear. Previous studies have found that the infiltration of immune cells, such as macrophages into DRGs and their subsequent activation promote CIPN. Interestingly, the contribution of microglia to CIPN appears to be limited. Here, we show that macrophage TLR9 signaling promotes CIPN in male mice only. This study suggests that pathways in macrophages may be sex-dimorphic in CIPN. Our findings provide new insights into the role of macrophage signaling mechanisms underlying sex dimorphism in CIPN, which may inspire the development of more precise and effective therapies.

Published

2019

32. Stabilization of μ‐opioid receptor facilitates its cellular translocation and signaling

Author

Marino Convertino, Alexander Linton, Ru-Rong Ji, Luda Diatchenko, Qingjian Han, Nikolay V. Dokholyan, Edgar M. Faison, Cheng Zhu, and Alexander Samoshkin

Subjects

Models, Molecular, Agonist, Protein Conformation, medicine.drug_class, Mutant, Receptors, Opioid, mu, Stimulation, medicine.disease_cause, Biochemistry, Article, 03 medical and health sciences, Structural Biology, Opioid receptor, medicine, Humans, Receptor, Molecular Biology, 030304 developmental biology, G protein-coupled receptor, 0303 health sciences, Mutation, Chemistry, 030302 biochemistry & molecular biology, Cell biology, Protein Transport, HEK293 Cells, Signal transduction, Signal Transduction

Abstract

The G-protein-coupled μ-opioid receptor (μ-OR) mediates the majority of analgesia effects for morphine and other pain relievers. Despite extensive studies of its structure and activation mechanisms, the inherently low maturation efficiency of μ-OR represents a major hurdle to understanding its function. Here we computationally designed μ-OR mutants with altered stability to probe the relationship between cell-surface targeting, signal transduction, and agonist efficacy. The stabilizing mutation T315Y enhanced μ-OR trafficking to the plasma membrane and significantly promoted the morphine- mediated inhibition of downstream signaling. In contrast, the destabilizing mutation R165Y led to intracellular retention of μ-OR and reduced the response to morphine stimulation. These findings suggest that μ-OR stability is an important factor in regulating receptor signaling and provide a viable avenue to improve the efficacy of analgesics.

Published

2019

33. Circulating factors associated with sarcopenia during ageing and after intensive lifestyle intervention

Author

Zi‐jian Guo, Chunwei Li, Guo‐xun Li, Dong‐jing Li, Kang Yu, Song‐lin Yu, Rong‐ji Liu, Hai‐yan Xie, Ng Shyh-Chang, Kang Li, Jie Ying, Long‐yu Xu, Ling‐juan Jiang, and Rong-rong Li

Subjects

Male, 0301 basic medicine, Aging, Sarcopenia, lcsh:Diseases of the musculoskeletal system, medicine.medical_treatment, Severity of Illness Index, 0302 clinical medicine, Elderly, Orthopedics and Sports Medicine, Longitudinal Studies, Prospective Studies, Lifestyle interventions, Confounding, Cytokine TWEAK, lcsh:Human anatomy, Middle Aged, Treatment Outcome, 030220 oncology & carcinogenesis, Cohort, Body Composition, Original Article, Female, Inflammation Mediators, China, medicine.medical_specialty, Proinflammatory cytokine, lcsh:QM1-695, 03 medical and health sciences, Physiology (medical), Internal medicine, medicine, Humans, Healthy Lifestyle, Muscle, Skeletal, Aged, Inflammation, Proinflammatory cytokines, Adiponectin, Tumor Necrosis Factor-alpha, business.industry, Insulin, Resistance Training, Original Articles, medicine.disease, Regimen, Cross-Sectional Studies, 030104 developmental biology, Metabolic hormones, lcsh:RC925-935, business, Hormone

Abstract

Background Ageing, chronic diseases, prolonged inactivity, and inadequate nutrition pose a severe threat to skeletal muscle health and function. To date, experimental evidence suggests that ageing‐related subclinical inflammation could be an important causative factor in sarcopenia. Although inflammatory signalling has been implicated in the pathogenesis of experimental animal models of sarcopenia, few studies have surveyed the clinical association between circulating factors and muscle mass in patients before and after lifestyle interventions. In this study, we evaluated whether proinflammatory cytokines are associated with the onset of sarcopenia, which circulating factors are associated with the severity of sarcopenia, and how these factors change after lifestyle interventions in sarcopenic elderly persons. Methods A total of 56 elderly subjects (age ≥ 60 years) with sarcopenia and 56 elderly non‐sarcopenic subjects, who met entry criteria and had given informed consent, were selected from the Peking Union Medical College Hospital multicentre prospective longitudinal sarcopenia study for testing relevant circulating factors. Thirty‐two elderly subjects from the sarcopenic cohort completed a 12 week intensive lifestyle intervention programme with whey supplements (30 g/day) and a personalized resistance training regimen. The levels of proinflammatory cytokines and metabolic hormones, pre‐intensive and post‐intensive lifestyle interventions, were measured. Results The sarcopenic group was significantly older (72.05 ± 6.54 years; P 11.15 pg/mL) and TWEAK (>1276.48 pg/mL) were associated with a 7.6‐fold and 14.3‐fold increased risk of sarcopenia, respectively. After adjustment for confounding variables, high levels of TWEAK were still associated with a 13.4‐fold increased risk of sarcopenia. Intensive lifestyle interventions led to significant improvements in sarcopenic patients' muscle mass and serum profiles of TWEAK, TNF‐α, IL‐18, insulin, and adiponectin (all P

Published

2019

34. Is Optogenetic Activation of Vglut1-Positive Aβ Low-Threshold Mechanoreceptors Sufficient to Induce Tactile Allodynia in Mice after Nerve Injury?

Author

Megumi Matsuda, Brielle Tobin, Zhi-Jun Zhang, Michael Young, Thomas Van de Ven, Di Liu, Ru-Rong Ji, Michelle Wang, Alexander Chamessian, and Zhen-Zhong Xu

Subjects

Male, 0301 basic medicine, Genetically modified mouse, Sensory Receptor Cells, medicine.drug_class, Vesicular glutamate transporter 1, Mice, Transgenic, Sensory system, Optogenetics, Photostimulation, Mice, 03 medical and health sciences, 0302 clinical medicine, Peripheral Nerve Injuries, Animals, Medicine, Research Articles, biology, business.industry, Local anesthetic, General Neuroscience, Nerve injury, 030104 developmental biology, Allodynia, nervous system, Hyperalgesia, Vesicular Glutamate Transport Protein 1, biology.protein, Neuralgia, Female, medicine.symptom, business, Mechanoreceptors, Neuroscience, 030217 neurology & neurosurgery

Abstract

Mechanical allodynia is a cardinal feature of pathological pain. Recent work has demonstrated the necessity of Aβ-low-threshold mechanoreceptors (Aβ-LTMRs) for mechanical allodynia-like behaviors in mice, but it remains unclear whether these neurons are sufficient to produce pain under pathological conditions. We generated a transgenic mouse in which channelrhodopsin-2 (ChR2) is conditionally expressed in vesicular glutamate transporter 1 (Vglut1) sensory neurons (Vglut1-ChR2), which is a heterogeneous population of large-sized sensory neurons with features consistent with Aβ-LTMRs. In naive male Vglut1-ChR2 mice, transdermal hindpaw photostimulation evoked withdrawal behaviors in an intensity- and frequency-dependent manner, which were abolished by local anesthetic and selective A-fiber blockade. Surprisingly, male Vglut1-ChR2 mice did not show significant differences in light-evoked behaviors or real-time aversion after nerve injury despite marked hypersensitivity to punctate mechanical stimuli. We conclude that optogenetic activation of cutaneous Vglut1-ChR2 neurons alone is not sufficient to produce pain-like behaviors in neuropathic mice. SIGNIFICANCE STATEMENT Mechanical allodynia, in which innocuous touch is perceived as pain, is a common feature of pathological pain. To test the contribution of low-threshold mechanoreceptors (LTMRs) to nerve-injury-induced mechanical allodynia, we generated and characterized a new transgenic mouse (Vglut1-ChR2) to optogenetically activate cutaneous vesicular glutamate transporter 1 (Vglut1)-positive LTMRs. Using this mouse, we found that light-evoked behaviors were unchanged by nerve injury, which suggests that activation of Vglut1-positive LTMRs alone is not sufficient to produce pain. The Vglut1-ChR2 mouse will be broadly useful for the study of touch, pain, and itch.

Published

2019

35. Metabolomics Reveals the 'Invisible' Responses of Spinach Plants Exposed to CeO2 Nanoparticles

Author

Wenchao Du, Hui Wei, Huiling Zhang, Lijuan Zhao, Xiaopeng Zhao, Li Lu, Sheng Zhao, Xueyuan Gu, and Rong Ji

Subjects

Spinacia, Antioxidant, biology, Membrane permeability, medicine.medical_treatment, technology, industry, and agriculture, Tryptophan, food and beverages, General Chemistry, 010501 environmental sciences, biology.organism_classification, Photosynthesis, 01 natural sciences, Lipid peroxidation, chemistry.chemical_compound, chemistry, medicine, Environmental Chemistry, Spinach, Food science, Chlorophyll fluorescence, 0105 earth and related environmental sciences

Abstract

Engineered nanoparticles (NPs) with activities that mimic antioxidant enzymes have good prospects in agriculture because they can increase photosynthesis and improve stress tolerance. Here, the interaction between cerium oxide NPs with spinach plants ( Spinacia oleracea) was investigated by integrating phenotypic and metabolomic analyses. Soil-grown, four-week-old spinach plants were foliar exposed for 3 weeks to CeO2 NPs at 0, 0.3, and 3 mg per plant. Phenotypic parameters (chlorophyll fluorescence, photosynthetic pigment contents, plant biomass, lipid peroxidation, and membrane permeability) were not affected. However, metabolomics analysis revealed that both doses of CeO2 NPs induced metabolic reprogramming in leaves and roots in a non-dose-dependent manner. The low dose of CeO2 NPs (0.3 mg per plant) induced stronger metabolic reprogramming in spinach leaves than high dose of CeO2 NPs. However, the high dose of CeO2 NPs triggered more metabolic changes in roots, compared to the low dose. Foliar spray of CeO2 NPs at 3 mg/plant induced marked down-regulation of a number of amino acids (threonine, tryptophan, l-cysteine, methionine, cycloleucine, aspartic acid, asparagine, tyrosine, and glutamic acid). In addition, Zn decreased by 44% and 54% in leaves and Ca decreased by 38% and 32% in roots under exposure to CeO2 NPs at 0.3 and 3 mg/plant, respectively. These results provide better understanding of the intrinsic phenotypic and metabolic changes imposed by CeO2 NPs in spinach plants.

Published

2019

36. Endosomal pH favors shedding of membrane‐inserted amyloid‐β peptide

Author

Shang-Rong Ji, Lin Zhang, Jian-Min Lv, Bo-Xuan Gao, and Jing‐Ming Shi

Subjects

Endosome, Full‐Length Papers, Endosomes, Biochemistry, 03 medical and health sciences, Membrane Microdomains, Protein Domains, Cell-Derived Microparticles, Amyloid precursor protein, medicine, Animals, Humans, Secretion, Molecular Biology, 030304 developmental biology, 0303 health sciences, Amyloid beta-Peptides, biology, Chemistry, Circular Dichroism, 030302 biochemistry & molecular biology, Neurotoxicity, Raft, Hydrogen-Ion Concentration, medicine.disease, Amyloid β peptide, Membrane, Ectodomain, biology.protein, Biophysics

Abstract

Amyloid‐β peptides (Aβs) are generated in a membrane‐embedded state by sequential processing of amyloid precursor protein (APP). Although shedding of membrane‐embedded Aβ is essential for its secretion and neurotoxicity, the mechanism behind shedding regulation is not fully elucidated. Thus, we devised a Langmuir film balance‐based assay to uncover this mechanism. We found that Aβ shedding was enhanced under acidic pH conditions and in lipid compositions resembling raft microdomains, which are directly related to the microenvironment of Aβ generation. Furthermore, Aβ shedding efficiency was determined by the length of the C‐terminal membrane‐spanning region, whereas pH responsiveness appears to depend on the N‐terminal ectodomain. These findings indicate that Aβ shedding may be directly coupled to its generation and represents an unrecognized control mechanism regulating the fate of membrane‐embedded products of APP processing.

Published

2019

37. STING suppresses bone cancer pain via immune and neuronal modulation

Author

Xueshu Tao, Sangsu Bang, Christopher R. Donnelly, Xin Luo, Matthew J. Hilton, Aidan McGinnis, Changyu Jiang, Kaiyuan Wang, Michael S. Lee, Yihan Liao, and Ru-Rong Ji

Subjects

0301 basic medicine, Male, Nociception, General Physics and Astronomy, Osteoclasts, Receptor, Interferon alpha-beta, 0302 clinical medicine, Osteogenesis, Ganglia, Spinal, Bone cancer, Tumor Microenvironment, Femur, Neoplasm Metastasis, Neurons, Analgesics, Multidisciplinary, Bone metastasis, Cancer Pain, Tumor Burden, Experimental models of disease, medicine.anatomical_structure, Hyperalgesia, 030220 oncology & carcinogenesis, Stimulator of interferon genes, Sensory processing, Female, Signal Transduction, Science, Xanthones, Bone Neoplasms, Mammary Neoplasms, Animal, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Immune system, Osteoclast, Cell Line, Tumor, medicine, Animals, Homeodomain Proteins, Tumor microenvironment, business.industry, Membrane Proteins, General Chemistry, medicine.disease, eye diseases, Mice, Inbred C57BL, Sting, Disease Models, Animal, 030104 developmental biology, Cancer research, Interferons, Cancer pain, business

Abstract

Patients with advanced stage cancers frequently suffer from severe pain as a result of bone metastasis and bone destruction, for which there is no efficacious treatment. Here, using multiple mouse models of bone cancer, we report that agonists of the immune regulator STING (stimulator of interferon genes) confer remarkable protection against cancer pain, bone destruction, and local tumor burden. Repeated systemic administration of STING agonists robustly attenuates bone cancer-induced pain and improves locomotor function. Interestingly, STING agonists produce acute pain relief through direct neuronal modulation. Additionally, STING agonists protect against local bone destruction and reduce local tumor burden through modulation of osteoclast and immune cell function in the tumor microenvironment, providing long-term cancer pain relief. Finally, these in vivo effects are dependent on host-intrinsic STING and IFN-I signaling. Overall, STING activation provides unique advantages in controlling bone cancer pain through distinct and synergistic actions on nociceptors, immune cells, and osteoclasts., There is an unmet clinical need to develop therapies to alleviate metastatic bone pain, frequently observed in patients with advanced cancers. Here, using mouse models of bone cancer pain, the authors show that STING agonists not only suppress bone cancer tumor burden, but also attenuate bone pain and reduce cancer-induced bone destruction.

Published

2021

38. Spinal Cord Stimulation Attenuates Mechanical Allodynia and Increases Central Resolvin D1 Levels in Rats With Spared Nerve Injury

Author

Xueshu Tao, Xin Luo, Tianhe Zhang, Brad Hershey, Rosana Esteller, and Ru-Rong Ji

Subjects

SNi, spinal cord stimulation, Interleukin – 1 β, Physiology, Central nervous system, Stimulation, neuroinflammation, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, Physiology (medical), medicine, QP1-981, Original Research, neuropathic pain, integumentary system, business.industry, Nerve injury, docosahexaenoic acid, Spinal cord, Neuromodulation (medicine), medicine.anatomical_structure, Allodynia, specialized pro-resolving mediators, Anesthesia, resolving D1 (RvD1), Neuropathic pain, nerve injury, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Mounting evidence from animal models of inflammatory and neuropathic pain suggests that inflammation regulates the resolution of pain by producing specialized pro-resolving mediators (SPMs), such as resolvin D1 (RvD1). However, it remains unclear how SPMs are induced in the central nervous system and whether these mechanisms can be reconciled with outcomes of neuromodulation therapies for pain, such as spinal cord stimulation. Here, we show that in a male rat model of neuropathic pain produced by spared nerve injury (SNI), 1 kHz spinal cord stimulation (1 kHz SCS) alone was sufficient to reduce mechanical allodynia and increase RvD1 in the cerebrospinal fluid (CSF). SNI resulted in robust and persistent mechanical allodynia and cold allodynia. Spinal cord electrode implantation was conducted at the T11-T13 vertebral level 1 week after SNI. The spinal locations of the implanted electrodes were validated by X-Ray radiography. 1 kHz SCS was applied for 6 h at 0.1 ms pulse-width, and this stimulation alone was sufficient to effectively reduce nerve injury-induced mechanical allodynia during stimulation without affecting SNI-induced cold allodynia. SCS alone significantly reduced interleukin-1β levels in both serum and CSF samples. Strikingly, SCS significantly increased RvD1 levels in the CSF but not serum. Finally, intrathecal injection of RvD1 (100 and 500 ng, i.t.) 4 weeks after nerve injury reduced SNI-induced mechanical allodynia in a dose-dependent manner. Our findings suggest that 1 kHz SCS may alleviate neuropathic pain via reduction of IL-1β and via production and/or release of RvD1 to control SNI-induced neuroinflammation.

Published

2021

39. Factors affecting community pharmacists’ capacity to deliver pharmacy services in Zhengzhou, China: a cross-sectional study

Author

Jian Shen, Yanan Wang, Rong Jiang, Wenxin Meng, Mingxun Yan, and Yuanjia Hu

Subjects

Medicine

Abstract

Objective To assess the factors that affect the capacity of community pharmacists to deliver pharmacy services (PSs) in Zhengzhou, China.Design An online, cross-sectional survey was conducted.Setting and participants A stratified sampling method was used to select community pharmacists for questionnaires. A total of 124 community pharmacists from various districts of Zhengzhou were included in this study.Results Principal component regression analysis showed that cumulative hours of continuing education (CE), job satisfaction, career prospects, awareness of the need for CE and income had a positive impact on pharmacists’ capacity to deliver PS, with a gradually decreasing degree of influence.Conclusions Most pharmacists felt that their capacity to provide PS met the basic public requirements. Cumulative CE hours had the most significant effect on pharmacists’ capacity to provide PS, while income had the least effect. The government, grassroots community pharmacies, pharmacists and the public should formulate timely and targeted measures to enhance the PS capacity of community pharmacists.

Published

2024

40. Microglial refinement of A-fibre projections in the postnatal spinal cord dorsal horn is required for normal maturation of dynamic touch

Author

Maria Fitzgerald, Simon Beggs, Qianru He, Xu Y, Paul A. Heppenstall, Mayya Sundukova, Ru-Rong Ji, Alexander Chamessian, and Koch S

Subjects

Dorsum, medicine.anatomical_structure, Microglia, Dynamic touch, Afferent, Spinal Cord Dorsal Horn, medicine, Sensory system, Biology, Spinal cord, Neuroscience

Abstract

Sensory systems are shaped in postnatal life by the refinement of synaptic connections. In the dorsal horn of the spinal cord, sensory circuits undergo postnatal activity dependent reorganisation, including the retraction of primary afferent A-fibres from superficial to deeper laminae which is accompanied by decreases in cutaneous sensitivity. Here we show that microglia, the resident immune cells in the CNS, phagocytose A-fibre terminals in superficial laminae in the first weeks of life. Genetic perturbation of microglial engulfment at that time prevents the normal process of A-fibre retraction, resulting in increased sensitivity of dorsal horn cells to dynamic tactile cutaneous stimulation, and behavioural hypersensitivity to dynamic touch. Thus, functional microglia are necessary for normal postnatal development of dorsal horn sensory circuits. In the absence of microglial engulfment, superfluous A-fibre projections remain in the dorsal horn and the balance of sensory connectivity is disrupted, leading to lifelong hypersensitivity to dynamic touch.Impact statementMicroglia phagocytose superfluous A-fibres in the superficial spinal dorsal horn during normal development, the disruption of which leads to long term aberrant dynamic touch processing and behaviour.

Published

2021

41. Reciprocal interactions between osteoclasts and nociceptive sensory neurons in bone cancer pain

Author

Christopher R. Donnelly, Amanda S. Andriessen, and Ru-Rong Ji

Subjects

cancer pain, 02 engineering and technology, Review, 01 natural sciences, Bone resorption, neuroimmune interactions, Osteoclast, Anesthesiology, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, medicine, RD78.3-87.3, 010306 general physics, Tumor microenvironment, Bone cancer, business.industry, Nociceptor, bone cancer, medicine.disease, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Denosumab, nervous system, Cancer cell, osteoclast, Cancer research, 020201 artificial intelligence & image processing, Neuroimmune Interactions in Chronic Pain, Nivolumab, business, Cancer pain, medicine.drug

Abstract

In this narrative review, we discuss how osteoclasts directly or indirectly interact with pain-sensing sensory neurons (nociceptors) to promote pain in bone cancer., Many common cancers such as breast, prostate, and lung cancer metastasize to bones at advanced stages, producing severe pain and functional impairment. At present, the current pharmacotherapies available for bone cancer pain are insufficient to provide safe and efficacious pain relief. In this narrative review, we discuss the mechanisms used by cancer cells within the bone tumor microenvironment (TME) to drive bone cancer pain. In particular, we highlight the reciprocal interactions between tumor cells, bone-resorbing osteoclasts, and pain-sensing sensory neurons (nociceptors), which drive bone cancer pain. We discuss how tumor cells present within the bone TME accelerate osteoclast differentiation (osteoclastogenesis) and alter osteoclast activity and function. Furthermore, we highlight how this perturbed state of osteoclast overactivation contributes to bone cancer pain through (1) direct mechanisms, through their production of pronociceptive factors that act directly on sensory afferents; and (2) by indirect mechanisms, wherein osteoclasts drive bone resorption that weakens tumor-bearing bones and predisposes them to skeletal-related events, thereby driving bone cancer pain and functional impairment. Finally, we discuss some potential therapeutic agents, such as denosumab, bisphosphonates, and nivolumab, and discuss their respective effects on bone cancer pain, osteoclast overactivation, and tumor growth within the bone TME.

Published

2021

42. Activation of GPR37 in macrophages confers protection against infection-induced sepsis and pain-like behaviour in mice

Author

Sangsu Bang, Xueshu Tao, Christopher R. Donnelly, Maria Toro-Moreno, Xin Luo, Sharat Chandra, Zilong Wang, Emily R. Derbyshire, Andrey V. Bortsov, and Ru-Rong Ji

Subjects

0301 basic medicine, Lipopolysaccharides, Adoptive cell transfer, Lipopolysaccharide, Plasmodium berghei, Neuroimmunology, General Physics and Astronomy, Artesunate, Receptors, G-Protein-Coupled, chemistry.chemical_compound, Mice, 0302 clinical medicine, Medicine, Mice, Knockout, Multidisciplinary, biology, food and beverages, Adoptive Transfer, Molecular Docking Simulation, medicine.symptom, Docosahexaenoic Acids, Science, Phagocytosis, Pain, macromolecular substances, Microbiology, General Biochemistry, Genetics and Molecular Biology, Article, Sepsis, 03 medical and health sciences, Animals, business.industry, Macrophages, fungi, General Chemistry, Antimicrobial responses, Hypothermia, biology.organism_classification, medicine.disease, Listeria monocytogenes, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, chemistry, Immunology, Listeria, business, 030217 neurology & neurosurgery

Abstract

GPR37 was discovered more than two decades ago, but its biological functions remain poorly understood. Here we report a protective role of GPR37 in multiple models of infection and sepsis. Mice lacking Gpr37 exhibited increased death and/or hypothermia following challenge by lipopolysaccharide (LPS), Listeria bacteria, and the mouse malaria parasite Plasmodium berghei. Sepsis induced by LPS and Listeria in wild-type mice is protected by artesunate (ARU) and neuroprotectin D1 (NPD1), but the protective actions of these agents are lost in Gpr37−/− mice. Notably, we found that ARU binds to GPR37 in macrophages and promotes phagocytosis and clearance of pathogens. Moreover, ablation of macrophages potentiated infection, sepsis, and their sequelae, whereas adoptive transfer of NPD1- or ARU-primed macrophages reduced infection, sepsis, and pain-like behaviors. Our findings reveal physiological actions of ARU in host cells by activating macrophages and suggest that GPR37 agonists may help to treat sepsis, bacterial infections, and malaria., GPR37 is expressed in macrophages, and has been implicated in resolution of inflammatory pain. Here the authors show that GPR37 can modulate sepsis in several animal models.

Published

2021

43. Purification of Recombinant Mouse C-Reactive Protein from Pichia Pastoris GS115 by Nickel Chelating Sepharose Fast-Flow Affinity Chromatography and P-Aminophenyl Phosphoryl Choline Agarose Resin Affinity Chromatography in Tandem

Author

Shang-Rong Ji, Jian-Min Lv, Ke Wu, Di Wu, Li Zhu, Xiao-Ping Huang, and Bin Cheng

Subjects

Glycosylation, medicine.disease_cause, Ligands, Chromatography, Affinity, Pichia, Analytical Chemistry, Pichia pastoris, law.invention, Choline, Sepharose, chemistry.chemical_compound, Mice, Affinity chromatography, law, Nickel, Native state, medicine, Escherichia coli, Animals, Chromatography, biology, General Medicine, biology.organism_classification, C-Reactive Protein, chemistry, Saccharomycetales, Recombinant DNA, Agarose

Abstract

C-reactive protein (CRP) is a circulating marker of inflammation yet with ill-defined biological functions. This is partly due to the uncharacterized activities of endogenous CRP in mice, the major animal model used to define protein function. The hurdles for purification and characterization of mouse CRP are its low circulating levels and the lack of specific antibodies. To clear these hurdles, here we developed an efficient expression system by constructing recombinant Pichia pastoris cells for secretion of native conformation mouse CRP. The recombinant expression of mouse CRP in Escherichia coli failed to yield sufficient amount of native protein, reflecting the importance of post-translational modification of glycosylation in aiding proper folding. By contrast, sufficient amount of native mouse CRP was successfully purified from P. pastoris. Preliminary purification was performed by Nickel Chelating Sepharose Fast-Flow affinity chromatography with 6 × His tags attached to the protein. Subsequently, p-Aminophenyl Phosphoryl Choline Agarose resin affinity chromatography was used for tandem purification. The purified mouse CRP showed native pentamer and capabilities of PC binding. Moreover, the 6 × His tag provides a convenient tool for detecting the interactions of mouse CRP with ligands.

Published

2021

44. IL-23/IL-17A/TRPV1 axis produces mechanical pain via macrophage-sensory neuron crosstalk in female mice

Author

Mei-Chuan Ko, Temugin Berta, Andrea G. Nackley, Ouyang Chen, Sang Hoon Lee, Christopher R. Donnelly, Yul Huh, Zilong Wang, Kenta Furutani, Qianru He, Sangsu Bang, Andrey V. Bortsov, Yong Chen, Jasmine Ji, Ru-Rong Ji, Xin Luo, and Xueshu Tao

Subjects

Male, medicine.medical_specialty, medicine.drug_class, TRPV1, Estrogen receptor, TRPV Cation Channels, Interleukin-23, Nociceptive Pain, Mice, Sex Factors, Dorsal root ganglion, Internal medicine, medicine, Animals, Humans, Cells, Cultured, Nerve Fibers, Unmyelinated, business.industry, General Neuroscience, Macrophages, Interleukin-17, Estrogen Receptor alpha, Nociceptors, Androgen, Sensory neuron, Mice, Inbred C57BL, medicine.anatomical_structure, Endocrinology, nervous system, Estrogen, Nociceptor, Female, business, Hormone, Signal Transduction

Abstract

Although sex dimorphism is increasingly recognized as an important factor in pain, female-specific pain signaling is not well studied. Here we report that administration of IL-23 produces mechanical pain (mechanical allodynia) in female but not male mice, and chemotherapy-induced mechanical pain is selectively impaired in female mice lacking Il23 or Il23r. IL-23-induced pain is promoted by estrogen but suppressed by androgen, suggesting an involvement of sex hormones. IL-23 requires C-fiber nociceptors and TRPV1 to produce pain but does not directly activate nociceptor neurons. Notably, IL-23 requires IL-17A release from macrophages to evoke mechanical pain in females. Low-dose IL-17A directly activates nociceptors and induces mechanical pain only in females. Finally, deletion of estrogen receptor subunit α (ERα) in TRPV1+ nociceptors abolishes IL-23- and IL-17-induced pain in females. These findings demonstrate that the IL-23/IL-17A/TRPV1 axis regulates female-specific mechanical pain via neuro-immune interactions. Our study also reveals sex dimorphism at both immune and neuronal levels.

Published

2021

45. STING suppresses cancer pain via immune and neuronal modulation

Author

Sangsu Bang, Xueshu Tao, Michael S. Lee, Matthew J. Hilton, Kaiyuan Wang, Christopher R. Donnelly, Ru-Rong Ji, Yihan Liao, and Changyu Jiang

Subjects

Tumor microenvironment, Innate immune system, business.industry, medicine.medical_treatment, Bone metastasis, medicine.disease, eye diseases, Sting, Immune system, medicine.anatomical_structure, Cancer immunotherapy, Osteoclast, medicine, Cancer research, business, Cancer pain

Abstract

Agonists of the innate immune regulator stimulator of interferon genes (STING) have shown great efficacy in promoting antitumor immunity in preclinical models, leading to their exploration in cancer immunotherapy trials. Patients with advanced stage cancers frequently suffer from severe pain as a result of bone metastasis and bone destruction, for which there is no efficacious treatment. Here, using multiple mouse models of metastatic bone cancer, we report that STING agonists confer remarkable protection against cancer pain, bone destruction, and local tumor burden. Repeated systemic administration of STING agonists robustly attenuated bone cancer-induced pain symptoms and improved locomotor function. Interestingly, STING agonists provided acute pain relief through direct neuronal modulation, as ex vivo incubation of STING agonists reduced excitability of pain-sensing nociceptive neurons from tumor-bearing mice. In addition, STING agonists protected local bone destruction and reduced local tumor burden through modulation of osteoclast and immune cell function in the tumor microenvironment, providing long-term cancer pain relief. Finally, these in vivo effects were dependent on host-intrinsic STING and Ifnar1. Overall, STING activation provides unique advantages in controlling metastatic bone cancer pain through distinct and synergistic actions on nociceptors, immune cells, and osteoclasts.

Published

2021

46. A role for protease activated receptor type 3 (PAR3) in nociception demonstrated through development of a novel peptide agonist

Author

Benjamin D. Rivera, Nakleh Mseeh, Moeno Kume, Ayesha Ahmad, Breya P. Ludwig, Josef Vagner, Changyu Jiang, Marvin T. Nieman, Ru-Rong Ji, Scott Boitano, Gregory Dussor, Pradipta R. Ray, Shayne N. Hassler, Thomas Van de Ven, Alexander Chamessian, Juliet Mwirigi, and Theodore J. Price

Subjects

Agonist, Male, Nociception, Cell type, medicine.drug_class, Cell Cycle Proteins, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Dorsal root ganglion, 030202 anesthesiology, Ganglia, Spinal, medicine, Animals, Protease-activated receptor, Receptor, G protein-coupled receptor, Adaptor Proteins, Signal Transducing, Mice, Knockout, Mice, Inbred ICR, business.industry, Chemistry, Cell biology, Mice, Inbred C57BL, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Neurology, Nociceptor, Neurology (clinical), business, 030217 neurology & neurosurgery

Abstract

The protease activated receptor (PAR) family is a group of G-protein coupled receptors (GPCRs) activated by proteolytic cleavage of the extracellular domain. PARs are expressed in a variety of cell types with crucial roles in homeostasis, immune responses, inflammation, and pain. PAR3 is the least researched of the four PARs, with little known about its expression and function. We sought to better understand its potential function in the peripheral sensory nervous system. Mouse single-cell RNA sequencing data demonstrates that PAR3 is widely expressed in dorsal root ganglion (DRG) neurons. Co-expression of PAR3 mRNA with other PARs was identified in various DRG neuron subpopulations, consistent with its proposed role as a coreceptor of other PARs. We developed a lipid tethered PAR3 agonist, C660, that selectively activates PAR3 by eliciting a Ca2+ response in DRG and trigeminal neurons. In vivo, C660 induces mechanical hypersensitivity and facial grimacing in WT but not PAR3-/- mice. We characterized other nociceptive phenotypes in PAR3-/- mice and found a loss of hyperalgesic priming in response to IL-6, carrageenan, and a PAR2 agonist, suggesting that PAR3 contributes to long-lasting nociceptor plasticity in some contexts. To examine the potential role of PAR3 in regulating the activity of other PARs in sensory neurons, we administered PAR1, PAR2, and PAR4 agonists and assessed mechanical and affective pain behaviors in WT and PAR3-/- mice. We observed that the nociceptive effects of PAR1 agonists were potentiated in the absence of PAR3. Our findings suggest a complex role of PAR3 in the physiology and plasticity of nociceptors. PERSPECTIVE: We evaluated the role of PAR3, a G-protein coupled receptor, in nociception by developing a selective peptide agonist. Our findings suggest that PAR3 contributes to nociception in various contexts and plays a role in modulating the activity of other PARs.

Published

2021

47. Characterizing the distributions of IDO-1 expressing macrophages/microglia in human and murine brains and evaluating the immunological and physiological roles of IDO-1 in RAW264.7/BV-2 cells

Author

Li Zhang, Rong Ji, Hexige Saiyin, Lixiang Ma, Renqiang Sun, Wenshi Wei, and Xinyu Chen

Subjects

Central Nervous System, Physiology, T-Lymphocytes, Interleukin-1beta, Immunostaining, Nervous System, White Blood Cells, Mice, chemistry.chemical_compound, Meninges, Animal Cells, Medicine and Health Sciences, Staining, Multidisciplinary, Microglia, T Cells, Software Engineering, Brain, Animal Models, Human brain, Cell biology, medicine.anatomical_structure, Experimental Organism Systems, Engineering and Technology, Medicine, Cellular Types, Anatomy, Filopodia, Research Article, Computer and Information Sciences, Immune Cells, Phagocytosis, Science, Immunology, Mouse Models, Glial Cells, Research and Analysis Methods, Computer Software, Model Organisms, NLR Family, Pyrin Domain-Containing 3 Protein, Parenchyma, medicine, Animals, Humans, Indoleamine-Pyrrole 2,3,-Dioxygenase, Secretion, Microglial Cells, Blood Cells, Macrophages, Biology and Life Sciences, Cell Biology, RAW 264.7 Cells, Gene Expression Regulation, chemistry, Specimen Preparation and Treatment, Animal Studies, Physiological Processes, Kynurenine, Quinolinic acid

Abstract

Indoleamine 2,3-dioxygenase 1 (IDO-1) is an immunosuppressive enzyme expressed in the placenta, neoplastic cells, and macrophages to reject T cells by converting tryptophan into kynurenine. However, the role of IDO-1 in brain immunity, especially in the meninges, is unclear. We aim to elucidate the distribution pattern of IDO-1+ macrophages/microglia in the human brain tissues, human glioblastoma, APP/PS1 mouse brains, and quinolinic acid model brains and explore the physiological and immunological roles of IDO-1+ macrophages/microglia. Here, we find that both human and mouse macrophages/microglia of the perivascular and subarachnoid space and in glioblastoma (GBM) expressed IDO-1 but not macrophages/microglia of parenchyma. Using IDO-1 inhibitors including 1-MT and INCB24360, we observed that inhibiting IDO-1 reduced the cellular size and filopodia growth, fluid uptake, and the macropinocytic and phagocytic abilities of human blood monocytes and RAW264.7/BV-2 cells. Inhibiting IDO-1 with 1-MT or INCB24360 increased IL-1β secretion and suppressed NLRP3 expression in RAW264.7/BV-2 cells. Our data collectively show that IDO-1 expression in perivascular and meninges macrophages/microglia increases cellular phagocytic capacity and might suppress overactivation of inflammatory reaction.

Published

2021

48. Cancer-specific type-I interferon receptor signaling promotes cancer stemness and effector CD8+ T-cell exhaustion

Author

Luke J. Broses, Gregory T. Wolf, Lorenza A. Donnelly, Yu Leo Lei, Emily Bellile, Yuying Xie, Jie Wang, Haitao Wen, Jacques E. Nör, Hülya F. Taner, Christopher R. Donnelly, J. Chad Brenner, Ru-Rong Ji, Steven B. Chinn, Wang Gong, and Blake R. Heath

Subjects

Immunology, CD8-Positive T-Lymphocytes, Biology, ifnar1, type-i interferon, Mice, sting1, stemness, Immune system, Interferon, medicine, Animals, Humans, Immunology and Allergy, Receptor, RC254-282, Squamous Cell Carcinoma of Head and Neck, Effector, Cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC581-607, medicine.disease, Head and neck squamous-cell carcinoma, Immune checkpoint, Oncology, Head and Neck Neoplasms, Cancer research, head and neck cancer, Immunologic diseases. Allergy, CD8, Research Article, Signal Transduction, medicine.drug

Abstract

Type-I interferon (IFN-I) signaling is critical to maintaining antigen-presenting cell function for anti-tumor immunity. However, recent studies have suggested that IFN-I signaling may also contribute to more aggressive phenotypes, raising the possibility that IFN-I downstream signaling in cancer and myeloid cells may exert dichotomous functions.We analyzed the clinicopathologic correlation of cancer-specific IFN-I activation in 195 head and neck squamous cell carcinoma patients. We also characterized the immune impact of IFN-I receptor (IFNAR1)-deficiency in syngeneic tumor models using biochemistry, flow cytometry, and single-cell RNA-Seq. We stained HNSCC tissue microarrays with a sensitive IFN-I downstream signaling activation marker, MX1, and quantitated cancer cell-specific MX1 staining. Kaplan-Meier analysis revealed that MX1-high tumors exhibited worse survival, a phenotype that depends on the number of CD8+ intratumoral T-cells. We found that cancer-specific IFNAR1 engagement promotes cancer stemness and higher expression levels of suppressive immune checkpoint receptor ligands in cancer-derived exosomes. Notably, mice bearing Ifnar1-deficient tumors exhibited lower tumor burden, increased T-cell infiltration, reduced exhausted CD4+PD1high T-cells, and increased effector population CD8+IFN-γ+ T-cells. Then, we performed single-cell RNA-sequencing and discovered that cancer-specific IFN-I signaling not only restricts effector cells expansion but also dampens their functional fitness.The beneficial role of IFN-I activation is largely dependent on the myeloid compartment. Cancer-specific IFN-I receptor engagement promotes cancer stemness and the release of cancer-derived exosomes with high expression levels of immune checkpoint receptor ligands. Cancer-specific IFN-I activation is associated with poor immunogenicity and worse clinical outcomes in HNSCC.

Published

2021

49. Epithelia-Sensory Neuron Cross Talk Underlies Cholestatic Itch Induced by Lysophosphatidylcholine

Author

Andrea G. Nackley, Wolfgang Liedtke, Anna Mae Diehl, Huiping Ding, Andreas E. Kremer, Johannes Morstein, Ana E. López-Romero, Qian Zeng, Zilong Wang, Ru-Rong Ji, Qiaojuan Zhang, Yong Chen, Xin Zhang, Piotr Milkiewicz, Tony E. Reeves, Sara L. Morales-Lázaro, Jennifer Y. Zhang, Marcin Krawczyk, Tamara Rosenbaum, Mei-Chuan Ko, Frank Lammert, Andrey V. Bortsov, Manal F. Abdelmalek, Michele Yeo, Huanghe Yang, Carlene Moore, and Ying-Ai Jin

Subjects

0301 basic medicine, TRPV4, Adult, Keratinocytes, Male, Sensory Receptor Cells, TRPV1, TRPV Cation Channels, 03 medical and health sciences, chemistry.chemical_compound, Transient receptor potential channel, 0302 clinical medicine, Lysophosphatidic acid, medicine, Animals, Humans, Cells, Cultured, Cholestatic pruritus, Aged, Skin, Mice, Knockout, Cholestasis, Hepatology, Behavior, Animal, business.industry, Pruritus, Gastroenterology, Lysophosphatidylcholines, Middle Aged, medicine.disease, Macaca mulatta, Sensory neuron, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, chemistry, Immunology, lipids (amino acids, peptides, and proteins), 030211 gastroenterology & hepatology, Female, Neuron, Keratinocyte, business, Signal Transduction

Abstract

Background & Aims Limited understanding of pruritus mechanisms in cholestatic liver diseases hinders development of antipruritic treatments. Previous studies implicated lysophosphatidic acid (LPA) as a potential mediator of cholestatic pruritus. Methods Pruritogenicity of lysophosphatidylcholine (LPC), LPA's precursor, was examined in naive mice, cholestatic mice, and nonhuman primates. LPC's pruritogenicity involving keratinocyte TRPV4 was studied using genetic and pharmacologic approaches, cultured keratinocytes, ion channel physiology, and structural computational modeling. Activation of pruriceptor sensory neurons by microRNA-146a (miR-146a), secreted from keratinocytes, was identified by in vitro and ex vivo Ca2+ imaging assays. Sera from patients with primary biliary cholangitis were used for measuring the levels of LPC and miR-146a. Results LPC was robustly pruritic in mice. TRPV4 in skin keratinocytes was essential for LPC-induced itch and itch in mice with cholestasis. Three-dimensional structural modeling, site-directed mutagenesis, and channel function analysis suggested a TRPV4 C-terminal motif for LPC binding and channel activation. In keratinocytes, TRPV4 activation by LPC induced extracellular release of miR-146a, which activated TRPV1+ sensory neurons to cause itch. LPC and miR-146a levels were both elevated in sera of patients with primary biliary cholangitis with itch and correlated with itch intensity. Moreover, LPC and miR-146a were also increased in sera of cholestatic mice and elicited itch in nonhuman primates. Conclusions We identified LPC as a novel cholestatic pruritogen that induces itch through epithelia-sensory neuron cross talk, whereby it directly activates skin keratinocyte TRPV4, which rapidly releases miR-146a to activate skin-innervating TRPV1+ pruriceptor sensory neurons. Our findings support the new concept of the skin, as a sensory organ, playing a critical role in cholestatic itch, beyond liver, peripheral sensory neurons, and central neural pathways supporting pruriception.

Published

2020

50. Sterol metabolism and protein metabolism are differentially correlated with sarcopenia in Asian Chinese men and women

Author

Gao-Shan Liu, Hai‐yan Xie, Jing Xu, Rong‐ji Liu, Hui-Jun Liu, Yi-Xiang Zhan, Long‐yu Xu, Ling‐juan Jiang, Shao-Fei Li, Yong-Jie Zhao, Ke-Min Ni, Ng Shyh-Chang, Min Cui, Song‐lin Yu, Zi-Yao Li, Kang Li, Yao Li, Xiao-Wei Zhang, Hang-Bo Tao, Chunwei Li, Bo Yang, Kang Yu, Xin-Yuan Zhang, Guo‐xun Li, and Dong‐jing Li

Subjects

0301 basic medicine, Male, Sarcopenia, Low protein, vitamin D, Logistic regression, predictive model, Grip strength, 0302 clinical medicine, Risk Factors, Medicine, Testosterone, Longitudinal Studies, Prospective Studies, Aged, 80 and over, General Medicine, hand grip strength, Middle Aged, musculoskeletal system, Sterols, 030220 oncology & carcinogenesis, Area Under Curve, Female, Original Article, Psychosocial, medicine.medical_specialty, China, 03 medical and health sciences, BMI, Sex Factors, Internal medicine, Vitamin D and neurology, Humans, Sarcopenic obesity, Risk factor, Exercise, Aged, Calcifediol, business.industry, Proteins, Cell Biology, Original Articles, medicine.disease, body regions, 030104 developmental biology, Logistic Models, ROC Curve, business, human activities

Abstract

Objectives Our aim was to investigate the prevalence and predictive variables of sarcopenia. Methods We recruited participants from the Peking Union Medical College Hospital Multicenter Prospective Longitudinal Sarcopenia Study (PPLSS). Muscle mass was quantified using bioimpedance, and muscle function was quantified using grip strength and gait speed. Logistic regression revealed the relationships between sarcopenia and nutritional, lifestyle, disease, psychosocial and physical variables. Results The prevalence of sarcopenia and sarcopenic obesity was 9.2%‐16.2% and 0.26%‐9.1%, respectively. Old age, single status, undernourishment, higher income, smoking, low physical activity, poor appetite and low protein diets were significantly associated with sarcopenia. Multiple logistic regression analysis showed that age was a risk factor for all stages of sarcopenia, and participants above 80 years were greater than fivefold more susceptible to sarcopenia, while lower physical activity was an independent risk factor. The optimal cut‐off value for age was 71 years, which departs from the commonly accepted cut‐off of 60 years. Female participants were greater than twofold less susceptible to sarcopenia than male participants. The sterol derivative 25‐hydroxyvitamin D was associated with fourfold lower odds of sarcopenia in male participants. Several protein intake variables were also correlated with sarcopenia. Based on these parameters, we defined a highly predictive index for sarcopenia. Conclusions Our findings support a predictive index of sarcopenia, which agglomerates the complex influences that sterol metabolism and nutrition exert on male vs female participants., Dysregulated circadian clock genes were associated with glioma grades and the IDH status. Prognostic model suggests circadian clock genes affect glioma progression. The GO and GSEA enrichment analysis suggested dysregulated circadian clock genes can affect glioma through interfering cell cycle and influencing immunocytes infiltration.

Published

2020