21 results on '"Cuiping Tian"'
Search Results
2. Organized cannabinoid receptor distribution in neurons revealed by super-resolution fluorescence imaging
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Jie Yang, Shanshan Li, Simeng Zhao, Tong Wang, Min Diao, Cuiping Tian, Zhi-Jie Liu, Fangzhi Tan, Tian Hua, Garth John Thompson, Ying Zhang, Chao-Po Lin, Dylan Deska-Gauthier, Wenqing Shui, Guisheng Zhong, Ya Qin, Hui Li, and Quan Wang
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Male ,0301 basic medicine ,Agonist ,Fluorescence-lifetime imaging microscopy ,Cannabinoid receptor ,medicine.drug_class ,medicine.medical_treatment ,Science ,General Physics and Astronomy ,Article ,General Biochemistry, Genetics and Molecular Biology ,Rats, Sprague-Dawley ,03 medical and health sciences ,0302 clinical medicine ,Receptor, Cannabinoid, CB1 ,medicine ,Animals ,Super-resolution microscopy ,Receptor ,lcsh:Science ,Cells, Cultured ,Cytoskeleton ,G protein-coupled receptor ,Mice, Knockout ,Neurons ,Multidisciplinary ,Chemistry ,musculoskeletal, neural, and ocular physiology ,Brain ,Fluorescence recovery after photobleaching ,food and beverages ,General Chemistry ,Cellular neuroscience ,Axons ,Molecular Imaging ,Cell biology ,Mice, Inbred C57BL ,030104 developmental biology ,Microscopy, Fluorescence ,nervous system ,Female ,lcsh:Q ,lipids (amino acids, peptides, and proteins) ,Cannabinoid ,psychological phenomena and processes ,030217 neurology & neurosurgery ,Intracellular ,Fluorescence Recovery After Photobleaching - Abstract
G-protein-coupled receptors (GPCRs) play important roles in cellular functions. However, their intracellular organization is largely unknown. Through investigation of the cannabinoid receptor 1 (CB1), we discovered periodically repeating clusters of CB1 hotspots within the axons of neurons. We observed these CB1 hotspots interact with the membrane-associated periodic skeleton (MPS) forming a complex crucial in the regulation of CB1 signaling. Furthermore, we found that CB1 hotspot periodicity increased upon CB1 agonist application, and these activated CB1 displayed less dynamic movement compared to non-activated CB1. Our results suggest that CB1 forms periodic hotspots organized by the MPS as a mechanism to increase signaling efficacy upon activation., Despite the importance of G-protein-coupled receptors in many cellular functions, their intracellular organisation is largely unknown. The authors identified periodically repeating clusters of cannabinoid receptor 1 hotspots within neuronal axons that are dynamically regulated by CB1 agonists.
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- 2020
3. Rational Remodeling of Atypical Scaffolds for the Design of Photoswitchable Cannabinoid Receptor Tools
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Raymond C. Stevens, Dongxiang Xue, Guisheng Zhong, Guoxun Zheng, Fang Zhou, Yueming Xu, Linshan Xie, Suwen Zhao, Zhi-Jie Liu, Tian Hua, Cuiping Tian, Fei Li, Houchao Tao, Fei Zhao, Simeng Zhao, Tao Hu, and Alexandros Makriyannis
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Cannabinoid receptor ,Photoswitch ,Light ,Binding pocket ,Subtype selectivity ,CHO Cells ,Molecular Dynamics Simulation ,Ligands ,Molecular Docking Simulation ,Receptor, Cannabinoid, CB2 ,chemistry.chemical_compound ,Cricetulus ,Azobenzene ,chemistry ,Drug Design ,Drug Discovery ,Cannabinoid receptor type 2 ,Biophysics ,Molecular Medicine ,Animals ,Humans ,Azo Compounds - Abstract
Azobenzene-embedded photoswitchable ligands are the widely used chemical tools in photopharmacological studies. Current approaches to azobenzene introduction rely mainly on the isosteric replacement of typical azologable groups. However, atypical scaffolds may offer more opportunities for photoswitch remodeling, which are chemically in an overwhelming majority. Herein, we investigate the rational remodeling of atypical scaffolds for azobenzene introduction, as exemplified in the development of photoswitchable ligands for the cannabinoid receptor 2 (CB2). Based on the analysis of residue-type clusters surrounding the binding pocket, we conclude that among the three representative atypical arms of the CB2 antagonist, AM10257, the adamantyl arm is the most appropriate for azobenzene remodeling. The optimizing spacer length and attachment position revealed AzoLig 9 with excellent thermal bistability, decent photopharmacological switchability between its two configurations, and high subtype selectivity. This structure-guided approach gave new impetus in the extension of new chemical spaces for tool customization for increasingly diversified photo-pharmacological studies and beyond.
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- 2021
4. Second messenger Ap4A polymerizes target protein HINT1 to transduce signals in FcεRI-activated mast cells
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Min Guo, Mengmeng Zheng, Alex Motzik, Yuanyuan Liang, Feng Luo, Ehud Razin, Jie Zhang, Jingwu Kang, Pengfei Fang, Cong Liu, Guisheng Zhong, Jing Wang, Jing Yu, Zaizhou Liu, and Cuiping Tian
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0301 basic medicine ,Transcriptional regulatory elements ,Science ,General Physics and Astronomy ,Nerve Tissue Proteins ,Crystallography, X-Ray ,Article ,General Biochemistry, Genetics and Molecular Biology ,Cell Line ,Polymerization ,Stress signalling ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,Protein structure ,Transcription (biology) ,Mast Cells ,lcsh:Science ,Transcription factor ,X-ray crystallography ,Microphthalmia-Associated Transcription Factor ,Multidisciplinary ,Chemistry ,General Chemistry ,Microphthalmia-associated transcription factor ,Protein Structure, Tertiary ,3. Good health ,Cell biology ,030104 developmental biology ,Gene Knockdown Techniques ,030220 oncology & carcinogenesis ,Second messenger system ,lcsh:Q ,Target protein ,Signal transduction ,Ap4A ,Dinucleoside Phosphates ,Signal Transduction - Abstract
Signal transduction systems enable organisms to monitor their external environments and accordingly adjust the cellular processes. In mast cells, the second messenger Ap4A binds to the histidine triad nucleotide-binding protein 1 (HINT1), disrupts its interaction with the microphthalmia-associated transcription factor (MITF), and eventually activates the transcription of genes downstream of MITF in response to immunostimulation. How the HINT1 protein recognizes and is regulated by Ap4A remain unclear. Here, using eight crystal structures, biochemical experiments, negative stain electron microscopy, and cellular experiments, we report that Ap4A specifically polymerizes HINT1 in solution and in activated rat basophilic leukemia cells. The polymerization interface overlaps with the area on HINT1 for MITF interaction, suggesting a possible competitive mechanism to release MITF for transcriptional activation. The mechanism depends precisely on the length of the phosphodiester linkage of Ap4A. These results highlight a direct polymerization signaling mechanism by the second messenger., The second messenger Ap4A contributes to mast cell activation by interacting with HINT1 but the molecular mechanism is not fully understood. Here, the authors show that Ap4A regulates downstream signaling by polymerizing HINT1 and provide insights into how specificity over other second messengers is achieved.
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- 2019
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5. Multiregional profiling of the brain transmembrane proteome uncovers novel regulators of depression
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Yaoyang Zhang, Cuiping Tian, Yan Liu, Ting Dang, Y. Li, Chengyu Fan, Zhuangzhuang Zhang, Hui Li, Shanshan Li, Fei Xu, Ronghui Lou, Huoqing Luo, Chen Pan, Lisha Xia, Pan Tang, Chen Miao, Wenqing Shui, Guisheng Zhong, Xiaoxiao Duan, and Ji Hu
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0301 basic medicine ,Proteomics ,Proteome ,Computational biology ,Biology ,Neurotransmission ,environment and public health ,Biochemistry ,Receptors, G-Protein-Coupled ,03 medical and health sciences ,Mice ,0302 clinical medicine ,Interaction network ,Profiling (information science) ,Animals ,Receptor ,Research Articles ,G protein-coupled receptor ,Messenger RNA ,Multidisciplinary ,Depression ,Brain ,SciAdv r-articles ,Transmembrane protein ,030104 developmental biology ,Cellular Neuroscience ,biological phenomena, cell phenomena, and immunity ,030217 neurology & neurosurgery ,hormones, hormone substitutes, and hormone antagonists ,Research Article - Abstract
In-depth profiling of transmembrane proteins in the brain leads to the identification of GPCR regulators in a disease model., Transmembrane proteins play vital roles in mediating synaptic transmission, plasticity, and homeostasis in the brain. However, these proteins, especially the G protein–coupled receptors (GPCRs), are underrepresented in most large-scale proteomic surveys. Here, we present a new proteomic approach aided by deep learning models for comprehensive profiling of transmembrane protein families in multiple mouse brain regions. Our multiregional proteome profiling highlights the considerable discrepancy between messenger RNA and protein distribution, especially for region-enriched GPCRs, and predicts an endogenous GPCR interaction network in the brain. Furthermore, our new approach reveals the transmembrane proteome remodeling landscape in the brain of a mouse depression model, which led to the identification of two previously unknown GPCR regulators of depressive-like behaviors. Our study provides an enabling technology and rich data resource to expand the understanding of transmembrane proteome organization and dynamics in the brain and accelerate the discovery of potential therapeutic targets for depression treatment.
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- 2020
6. Protective effects of syringin against oxidative stress and inflammation in diabetic pregnant rats via TLR4/MyD88/NF-κB signaling pathway
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Cuiying Yang, Afang Liang, Pengfei Zhu, Cuiping Tian, and Zuojuan Shen
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0301 basic medicine ,Male ,endocrine system diseases ,medicine.medical_treatment ,Eleutherococcus ,TLR4 pathway ,medicine.disease_cause ,Gestational diabetes mellitus ,chemistry.chemical_compound ,0302 clinical medicine ,Glucosides ,Pregnancy ,Phenylpropionates ,NF-kappa B ,General Medicine ,Gestational diabetes ,Cytokine ,030220 oncology & carcinogenesis ,Female ,medicine.symptom ,medicine.drug ,Signal Transduction ,medicine.medical_specialty ,Inflammation ,RM1-950 ,Proinflammatory cytokine ,Syringin ,03 medical and health sciences ,Insulin resistance ,Internal medicine ,medicine ,Animals ,Rats, Wistar ,Pharmacology ,business.industry ,nutritional and metabolic diseases ,Streptozotocin ,medicine.disease ,Rats ,Toll-Like Receptor 4 ,Diabetes, Gestational ,Oxidative Stress ,030104 developmental biology ,Endocrinology ,chemistry ,Animals, Newborn ,Cytoprotection ,Myeloid Differentiation Factor 88 ,Therapeutics. Pharmacology ,business ,Oxidative stress - Abstract
Gestational diabetes (GDM) is common in pregnancies due to the inflammation and oxidative stress-mediated insulin resistance. In the present study, GDM was induced in the Wistar rats by administering the streptozotocin to elucidate whether the administration of syringin (50 mg/kg/day) during pregnancy could improve maternal glycemia and protect against the complications of GDM. The animals were assessed for their morphological changes in the β-islets of Langerhans and their insulin-producing ability, inflammatory cytokine markers, and the involvement of TLR4/MyD88/NF-κB signaling pathway using RT-PCR. The results demonstrated that the onset of GDM demonstrated pancreatic tissue degeneration in the islets of Langerhans with a significant increase in oxidative stress and reduced antioxidant enzymes. Besides, the mRNA expression levels of TLR4, MyD88, NF-Kβ p65; NLRP3 mRNA were profoundly increased in GDM rats compared to normal pregnant rats. On the other hand, syringin administered GDM rats abrogated the oxidative stress and attenuated the level of the inflammatory cytokines. Intriguingly, the decrease in TLR4 expression and the downstream molecules of MyD88, NF-κB, and NLRP3 were also observed in syringin administered GDM rats that indicate the insulin secretion stimulatory actions of syringin through the suppression of TLR4 signaling. These novel findings of the study provide evidence that syringin could be a probable candidate to be used in the treatment of gestational diabetes in the future.
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- 2020
7. A hybrid spectral library combining DIA-MS data and a targeted virtual library substantially deepens the proteome coverage
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Yaoyang Zhang, Cuiping Tian, Pan Tang, Wenqing Shui, Ronghui Lou, Y. Li, Shanshan Li, Kang Ding, and Suwen Zhao
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chemistry.chemical_classification ,Protein family ,chemistry ,Computer science ,Proteomic Profiling ,Proteome ,A protein ,Protein identification ,Peptide ,Computational biology ,Mass spectrometry ,Transmembrane protein ,G protein-coupled receptor - Abstract
Data-independent acquisition mass spectrometry (DIA-MS) is a rapidly evolving technique that enables relatively deep proteomic profiling with superior quantification reproducibility. DIA data mining predominantly relies on a spectral library of sufficient proteome coverage that, in most cases, is built on data-dependent acquisition-based analysis of the same sample. To expand the proteome coverage for a pre-determined protein family, we report herein on the construction of a hybrid spectral library that supplements a DIA experiment-derived library with a protein family-targeted virtual library predicted by deep learning. Leveraging this DIA hybrid library substantially deepens the coverage of three transmembrane protein families (G protein coupled receptors; ion channels; and transporters) in mouse brain tissues with increases in protein identification of 37-87%, and peptide identification of 58-161%. Moreover, of the 412 novel GPCR peptides exclusively identified with the DIA hybrid library strategy, 53.6% were validated as present in mouse brain tissues based on orthogonal experimental measurement.
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- 2020
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8. Effect of Sodium Halide on Micellar and Surface Properties of Cationic Silicone Surfactants
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Cuiping Tian, Zhiman Liao, Jinglin Tan, Ping Yan, and Jufang Shao
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General Chemical Engineering ,Sodium ,Cationic polymerization ,Halide ,chemistry.chemical_element ,02 engineering and technology ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,0104 chemical sciences ,Surfaces, Coatings and Films ,chemistry.chemical_compound ,Silicone ,Chemical engineering ,chemistry ,Physical and Theoretical Chemistry ,0210 nano-technology - Published
- 2018
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9. Inclusion complexes based α,ω-imidazolium based oligosiloxane (Im-PDMS) and cucurbit[7]uril (CB[7]) in aqueous solution
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Zhiman Liao, Jufang Shao, Cuiping Tian, and Jinglin Tan
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Aggregate (composite) ,Aqueous solution ,Chemistry ,Stereochemistry ,02 engineering and technology ,General Chemistry ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,0104 chemical sciences ,Surface tension ,Polymer chemistry ,Proton NMR ,Inclusion (mineral) ,0210 nano-technology ,Food Science - Abstract
Inclusion complexes of α,ω-bisimidazolium oligosiloxane (Im-PDMS) and cucurbit[7]uril (CB[7]) in aqueous solution were studied. The binding interactions were monitored by 1H NMR. Their annular aggregate morphologies were confirmed by TEM. The aggregation behavior of free Im-PDMS and Im-PDMS in 10−4 CB[7] were investigated using surface tension measurement.
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- 2017
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10. Critical role of spectrin in hearing development and deafness
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Hui Li, Jieyu Qi, Guisheng Zhong, Cuiping Tian, Ying Zhang, Mingliang Tang, Renjie Chai, Weijie Zhu, Guang Yang, Yan Liu, Chao Zhong, Xin Chen, Guangjian Ni, Cenfeng Chu, and Shuijin He
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Male ,Profound deafness ,Cuticular plate ,Deafness ,Rats, Sprague-Dawley ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Hearing ,Structural Biology ,parasitic diseases ,Basic Helix-Loop-Helix Transcription Factors ,medicine ,otorhinolaryngologic diseases ,Animals ,Inner ear ,Spectrin ,natural sciences ,Actin ,Research Articles ,030304 developmental biology ,Mice, Knockout ,0303 health sciences ,Hearing ability ,Multidisciplinary ,Structural organization ,integumentary system ,Chemistry ,SciAdv r-articles ,Rats ,Cell biology ,Mice, Inbred C57BL ,medicine.anatomical_structure ,Gene Expression Regulation ,Female ,Hair cell ,sense organs ,030217 neurology & neurosurgery ,Research Article - Abstract
Super-resolution fluorescence imaging reveals a previously unknown novel structure of spectrin in inner ear hair cells., Inner ear hair cells (HCs) detect sound through the deflection of mechanosensory stereocilia. Stereocilia are inserted into the cuticular plate of HCs by parallel actin rootlets, where they convert sound-induced mechanical vibrations into electrical signals. The molecules that support these rootlets and enable them to withstand constant mechanical stresses underpin our ability to hear. However, the structures of these molecules have remained unknown. We hypothesized that αII- and βII-spectrin subunits fulfill this role, and investigated their structural organization in rodent HCs. Using super-resolution fluorescence imaging, we found that spectrin formed ring-like structures around the base of stereocilia rootlets. These spectrin rings were associated with the hearing ability of mice. Further, HC-specific, βII-spectrin knockout mice displayed profound deafness. Overall, our work has identified and characterized structures of spectrin that play a crucial role in mammalian hearing development.
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- 2019
11. Hybrid Spectral Library Combining DIA-MS Data and a Targeted Virtual Library Substantially Deepens the Proteome Coverage
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Shanshan Li, Ronghui Lou, Kang Ding, Cuiping Tian, Suwen Zhao, Y. Li, Yaoyang Zhang, Wenqing Shui, and Pan Tang
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Proteomics ,0301 basic medicine ,Hybrid library ,Multidisciplinary ,Protein family ,Proteomic Profiling ,Computer science ,A protein ,02 engineering and technology ,Computational biology ,Structural Classification of Proteins database ,Biological Sciences ,021001 nanoscience & nanotechnology ,Article ,Analytical Chemistry ,03 medical and health sciences ,030104 developmental biology ,Proteome ,lcsh:Q ,Protein identification ,lcsh:Science ,0210 nano-technology ,Classification of Proteins - Abstract
Summary Data-independent acquisition mass spectrometry (DIA-MS) is a powerful technique that enables relatively deep proteomic profiling with superior quantification reproducibility. DIA data mining predominantly relies on a spectral library of sufficient proteome coverage that, in most cases, is built on data-dependent acquisition-based analysis of the same sample. To expand the proteome coverage for a pre-determined protein family, we report herein on the construction of a hybrid spectral library that supplements a DIA experiment-derived library with a protein family-targeted virtual library predicted by deep learning. Leveraging this DIA hybrid library substantially deepens the coverage of three transmembrane protein families (G protein-coupled receptors, ion channels, and transporters) in mouse brain tissues with increases in protein identification of 37%–87% and peptide identification of 58%–161%. Moreover, of the 412 novel GPCR peptides exclusively identified with the DIA hybrid library strategy, 53.6% were validated as present in mouse brain tissues based on orthogonal experimental measurement., Graphical Abstract, Highlights • A virtual library is built for a selected protein family using deep learning models • The hybrid library strategy vastly deepens the coverage for the targeted protein family • About 53.6% of novel GPCR peptides identified with the DIA hybrid library are validated • Extend the strategy to deep mapping of multiple transmembrane protein families, Analytical Chemistry; Biological Sciences; Classification of Proteins; Proteomics
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- 2020
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12. Calcineurin Signaling Mediates Disruption of the Axon Initial Segment Cytoskeleton after Injury
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Guisheng Zhong, Xin Chen, Cuiping Tian, Cheng Xiao, Jianan Li, Shuijin He, Xuanyuan Wu, Yanan Zhao, and Jiangrui Chen
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0301 basic medicine ,Nervous system ,Hippocampus ,02 engineering and technology ,Molecular neuroscience ,Biology ,Article ,03 medical and health sciences ,Cellular neuroscience ,medicine ,lcsh:Science ,Cytoskeleton ,Action potential initiation ,Multidisciplinary ,021001 nanoscience & nanotechnology ,Axon initial segment ,Calcineurin ,030104 developmental biology ,medicine.anatomical_structure ,nervous system ,Cellular Neuroscience ,lcsh:Q ,Molecular Neuroscience ,0210 nano-technology ,Neuroscience - Abstract
Summary The axon initial segment (AIS) cytoskeleton undergoes rapid and irreversible disruption prior to cell death after injury, and loss of AIS integrity can produce profound neurological effects on the nervous system. Here we described a previously unrecognized mechanism for ischemia-induced alterations in AIS integrity. We show that in hippocampal CA1 pyramidal neurons Nav1.6 mostly preserves at the AIS after disruption of the cytoskeleton in a mouse model of middle cerebral artery occlusion. Genetic removal of neurofascin-186 leads to rapid disruption of Nav1.6 following injury, indicating that neurofascin is required for Nav1.6 maintenance at the AIS after cytoskeleton collapse. Importantly, calcineurin inhibition with FK506 fully protects AIS integrity and sufficiently prevents impairments of spatial learning and memory from injury. This study provides evidence that calcineurin activation is primarily involved in initiating disassembly of the AIS cytoskeleton and that maintaining AIS integrity is crucial for therapeutic strategies to facilitate recovery from injury., Graphical Abstract, Highlights • Ion channels are mostly retained at the AIS after ischemic injury • Neurofascin is required for clustering ion channels at the AIS after ischemia • Calcineurin inhibition protects AIS structural integrity and function from ischemia • Calcineurin inhibition protects cognitive function against impairment by ischemia, Neuroscience; Molecular Neuroscience; Cellular Neuroscience
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- 2020
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13. Differential roles of NaV1.2 and NaV1.6 in regulating neuronal excitability at febrile temperature and distinct contributions to febrile seizures
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Mingpo Yang, Cuiping Tian, Yousheng Shu, Shan Jiang, Luping Yin, Qiyu Zhu, Mingyu Ye, and Jun Yang
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0301 basic medicine ,Somatic cell ,Action Potentials ,lcsh:Medicine ,Gating ,Article ,Seizures, Febrile ,Pathogenesis ,03 medical and health sciences ,0302 clinical medicine ,Slice preparation ,medicine ,Animals ,lcsh:Science ,Mice, Knockout ,Neurons ,NAV1.2 Voltage-Gated Sodium Channel ,Multidisciplinary ,Chemistry ,Sodium channel ,lcsh:R ,Temperature ,Wild type ,Disease Models, Animal ,030104 developmental biology ,medicine.anatomical_structure ,NAV1.6 Voltage-Gated Sodium Channel ,Knockout mouse ,lcsh:Q ,Neuron ,Neuroscience ,030217 neurology & neurosurgery - Abstract
Dysregulation of voltage-gated sodium channels (VGSCs) is associated with multiple clinical disorders, including febrile seizures (FS). The contribution of different sodium channel subtypes to environmentally triggered seizures is not well understood. Here we demonstrate that somatic and axonal sodium channels primarily mediated through NaV1.2 and NaV1.6 subtypes, respectively, behave differentially at FT, and might play distinct roles in FS generation. In contrast to sodium channels on the main axonal trunk, somatic ones are more resistant to inactivation and display significantly augmented currents, faster gating rates and kinetics of recovery from inactivation at FT, features that promote neuronal excitabilities. Pharmacological inhibition of NaV1.2 by Phrixotoxin-3 (PTx3) suppressed FT-induced neuronal hyperexcitability in brain slice, while up-regulation of NaV1.2 as in NaV1.6 knockout mice showed an opposite effect. Consistently, NaV1.6 knockout mice were more susceptible to FS, exhibiting much lower temperature threshold and shorter onset latency than wildtype mice. Neuron modeling further suggests that NaV1.2 is the major subtype mediating FT-induced neuronal hyperexcitability, and predicts potential outcomes of alterations in sodium channel subtype composition. Together, these data reveal a role of native NaV1.2 on neuronal excitability at FT and its important contribution to FS pathogenesis.
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- 2018
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14. Splice Loss Optimization of a Photonic Bandgap Fiber via a High V-Number Fiber
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Shoufei Gao, Pu Wang, Yingying Wang, and Cuiping Tian
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All-silica fiber ,Materials science ,Plastic-clad silica fiber ,business.industry ,Polarization-maintaining optical fiber ,Graded-index fiber ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,Optics ,Dispersion-shifted fiber ,Electrical and Electronic Engineering ,business ,Plastic optical fiber ,Intermediate Fiber ,Photonic-crystal fiber - Abstract
We report on a low-loss fusion splice between a hollow-core photonic bandgap fiber (NKT's HC-1550-02) and a conventional single mode fiber (Corning's SMF28) using a high V-number intermediate fiber. Compared to the commonly used fiber postprocessing techniques, the intermediate fiber method offers a new adjusting degree of freedom of V-numbers, enabling the reduction of coupling loss to 0.35 dB. Experimentally, a low fusion splice loss of 0.63 dB has been achieved between Nufern's SM1950 (V =2.836) and HC-1550-02 fiber, resulting in an overall insertion loss of 0.73 dB from SMF28 to HC-1550-02 fiber. We believe this is the lowest splice loss value reported for HC-1550-02 fiber using an arc splicer, on the aspect of both using a step-index solid-core fiber (0.63 dB) and a SMF28 fiber (0.73 dB).
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- 2014
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15. Dopaminergic modulation of axonal potassium channels and action potential waveform in pyramidal neurons of prefrontal cortex
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Cuiping Tian, Yousheng Shu, Jing Yang, Yonghong Wang, Mingyu Ye, and Mingpo Yang
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Voltage-dependent calcium channel ,Physiology ,Biology ,Potassium channel ,medicine.anatomical_structure ,nervous system ,Cerebral cortex ,Dopamine ,medicine ,Soma ,Axon ,Receptor ,Prefrontal cortex ,Neuroscience ,medicine.drug - Abstract
Voltage-gated K+ (K-V) channels play critical roles in shaping neuronal signals. K-V channels distributed in the perisomatic regions and thick dendrites of cortical pyramidal neurons have been extensively studied. However, the properties and regulation of K-V channels distributed in the thin axons remain unknown. In this study, by performing somatic and axonal patch-clamp recordings from layer 5 pyramidal neurons of prefrontal cortical slices, we showed that the rapidly inactivating A-currents mediated the transient K+ currents evoked by action potential (AP) waveform command (K-AP) at the soma, whereas the rapidly activating but slowly inactivating K(V)1-mediated D-currents dominated the K-AP at the axon. In addition, activation of D1-like receptors for dopamine decreased the axonal K+ currents, as a result of an increase in the activity of cAMP-PKA pathway. In contrast, activation of D2-like receptors showed an opposite effect on the axonal K+ currents. Further experiments demonstrated that functional D1-like receptors were expressed at the main axon trunk and their activation could broaden the waveforms of axonal APs. Together, these results show that axonal K-V channels were subjected to dopamine modulation, and this modulation could regulate the waveforms of propagating APs at the axon, suggesting an important role of dopaminergic modulation of axonal K-V channels in regulating neuronal signalling.
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- 2013
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16. Distinct contributions of Nav1.6 and Nav1.2 in action potential initiation and backpropagation
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Han Hou, Cuiping Tian, Wenqin Hu, Mingpo Yang, Tun Li, and Yousheng Shu
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Membrane potential ,Chemistry ,General Neuroscience ,Sodium channel ,Axon initial segment ,medicine.anatomical_structure ,nervous system ,medicine ,Soma ,Patch clamp ,Neuron ,Axon ,Neuroscience ,Action potential initiation - Abstract
The distal end of the axon initial segment (AIS) is the preferred site for action potential initiation in cortical pyramidal neurons because of its high Na(+) channel density. However, it is not clear why action potentials are not initiated at the proximal AIS, which has a similarly high Na(+) channel density. We found that low-threshold Na(v)1.6 and high-threshold Na(v)1.2 channels preferentially accumulate at the distal and proximal AIS, respectively, and have distinct functions in action potential initiation and backpropagation. Patch-clamp recording from the axon cut end of pyramidal neurons in the rat prefrontal cortex revealed a high density of Na(+) current and a progressive reduction in the half-activation voltage (up to 14 mV) with increasing distance from the soma at the AIS. Further modeling studies and simultaneous somatic and axonal recordings showed that distal Na(v)1.6 promotes action potential initiation, whereas proximal Na(v)1.2 promotes its backpropagation to the soma.
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- 2009
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17. Ultraviolet-enhanced supercontinuum generation in uniform photonic crystal fiber pumped by giant-chirped fiber lasers
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Dongchen Jin, Huihui Li, Shoufei Gao, Ruoyu Sun, Pu Wang, Yingying Wang, and Cuiping Tian
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Materials science ,business.industry ,medicine.disease_cause ,Supercontinuum ,Wavelength ,Optics ,Mode-locking ,Fiber laser ,medicine ,Optoelectronics ,Dispersion-shifted fiber ,business ,Ultraviolet ,Power density ,Photonic-crystal fiber - Abstract
We report on an ultraviolet-enhanced supercontinuum generation in a uniform photonic crystal fiber pumped by a giant-chirped mode-locked Yb-doped fiber laser. We find experimentally that the initial pluses with giant chirp leads more initial energy transferred to the dispersive waves in visible and ultraviolet wavelength. An extremely wide optical spectrum spanning from 370 nm to beyond 2400 nm with a broad 3 dB spectral bandwidth of 367 nm (from 431 nm to 798 nm) is obtained. Over 36% (350 mW) of the total output power locates in the visible and ultraviolet regime between 370 nm and 850 nm with a maximum spectral power density of 1.6 mW/nm at 550 nm. In addition, a blue-enhanced supercontinuum generation pumped by a giant-chirped SESAM mode-locked ytterbium-doped fiber laser is studied. An extremely wide optical spectrum spanning from 380 nm to 2400 nm with total power of 3 W is obtained.
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- 2015
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18. Ultraviolet-enhanced supercontinuum generation in uniform photonic crystal fiber pumped by a giant-chirped fiber laser
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Shoufei Gao, Pu Wang, Yingying Wang, Dongchen Jin, Cuiping Tian, Huihui Li, and Ruoyu Sun
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Materials science ,business.industry ,medicine.disease_cause ,Atomic and Molecular Physics, and Optics ,Supercontinuum ,Wavelength ,Optics ,Fiber laser ,medicine ,Optoelectronics ,Dispersion-shifted fiber ,business ,Ultraviolet ,Power density ,Photonic-crystal fiber ,Visible spectrum - Abstract
We report on an ultraviolet-enhanced supercontinuum generation in a uniform photonic crystal fiber pumped by a giant-chirped mode-locked Yb-doped fiber laser. We find theoretically and experimentally that the initial pluses with giant chirp leads more initial energy transferred to the dispersive waves in visible and ultraviolet wavelength. An extremely wide optical spectrum spanning from 370 nm to beyond 2400 nm with a broad 3 dB spectral bandwidth of 367 nm (from 431 nm to 798 nm) is obtained. Over 36% (350 mW) of the total output power locates in the visible and ultraviolet regime between 370 nm and 850 nm with a maximum spectral power density of 1.6 mW/nm at 550 nm.
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- 2014
19. Action Potential Initiation in Neocortical Inhibitory Interneurons
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Tun Li, Mingpo Yang, Paolo Scalmani, Si Wu, Massimo Mantegazza, Cuiping Tian, Carolina Frassoni, Yonghong Wang, and Yousheng Shu
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Patch-Clamp Techniques ,genetic structures ,Physiology ,Action Potentials ,Gene Expression ,Neocortex ,Tissue Culture Techniques ,Mice ,Medicine and Health Sciences ,Biology (General) ,Action potential initiation ,NAV1.2 Voltage-Gated Sodium Channel ,biology ,General Neuroscience ,musculoskeletal, neural, and ocular physiology ,Electrophysiology ,medicine.anatomical_structure ,Parvalbumins ,Neurology ,General Agricultural and Biological Sciences ,Somatostatin ,Research Article ,medicine.medical_specialty ,Interneuron ,QH301-705.5 ,Prefrontal Cortex ,Mice, Transgenic ,Inhibitory postsynaptic potential ,General Biochemistry, Genetics and Molecular Biology ,Interneurons ,Internal medicine ,medicine ,Animals ,Patch clamp ,Epilepsy ,General Immunology and Microbiology ,Sodium channel ,fungi ,Biology and Life Sciences ,Microtomy ,Axon initial segment ,Axons ,Endocrinology ,nervous system ,biology.protein ,Nerve Net ,Neuroscience ,Parvalbumin - Abstract
Sodium channels add variety to inhibitory interneurons Different populations of inhibitory interneurons in the cerebral cortex express distinct subtypes of sodium channels, resulting in diverse action potential thresholds and network excitability., Action potential (AP) generation in inhibitory interneurons is critical for cortical excitation-inhibition balance and information processing. However, it remains unclear what determines AP initiation in different interneurons. We focused on two predominant interneuron types in neocortex: parvalbumin (PV)- and somatostatin (SST)-expressing neurons. Patch-clamp recording from mouse prefrontal cortical slices showed that axonal but not somatic Na+ channels exhibit different voltage-dependent properties. The minimal activation voltage of axonal channels in SST was substantially higher (∼7 mV) than in PV cells, consistent with differences in AP thresholds. A more mixed distribution of high- and low-threshold channel subtypes at the axon initial segment (AIS) of SST cells may lead to these differences. Surprisingly, NaV1.2 was found accumulated at AIS of SST but not PV cells; reducing NaV1.2-mediated currents in interneurons promoted recurrent network activity. Together, our results reveal the molecular identity of axonal Na+ channels in interneurons and their contribution to AP generation and regulation of network activity., Author Summary Inhibitory interneurons in the cerebral cortex are diverse in many respects. Here, we examine whether this diversity extends to the composition of ion channels along the axon, which might determine the neurons' excitability. We performed patch-clamp recordings from cortical interneuron axons in brain slices obtained from two transgenic mouse lines. In each mouse line, distinct populations of inhibitory interneurons—those that express parvalbumin (PV) or those that express somatostatin (SST)—were labeled with green fluorescent protein to allow visualization. We show that action potentials initiate at the axon initial segment (a specialized region of the axon closest to the cell body) in both cell types, but SST neurons have a higher action potential threshold than PV neurons because their sodium channels require a greater degree of depolarization to be fully activated. At the molecular level, we found that the population of sodium channels in SST neurons requires a larger depolarization because it has a more mixed composition of high- and low-threshold sodium channel subtypes. In summary, this study reveals diversity in the molecular identity and voltage dependence of sodium channels that are responsible for initiating action potentials in different populations of interneurons. In addition, the presence of a particular subtype of sodium channel—NaV1.2—in inhibitory interneurons might explain why loss-of-function mutations in this channel result in epilepsy.
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- 2014
20. Molecular identity of axonal sodium channels in human cortical pyramidal cells
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Kaiyan Wang, Cuiping Tian, Hui Guo, Yousheng Shu, and Wei Ke
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pyramidal cell ,Node of Ranvier ,node of Ranvier ,Chandelier cell ,Interneuron ,Sodium channel ,Biology ,chandelier cell ,Axon initial segment ,sodium channel subtype ,axon initial segment ,lcsh:RC321-571 ,Cellular and Molecular Neuroscience ,medicine.anatomical_structure ,nervous system ,parvalbumin ,medicine ,Original Research Article ,Pyramidal cell ,Axon ,Neuroscience ,human cortex ,lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry ,Action potential initiation - Abstract
Studies in rodents revealed that selective accumulation of Na(+) channel subtypes at the axon initial segment (AIS) determines action potential (AP) initiation and backpropagation in cortical pyramidal cells (PCs); however, in human cortex, the molecular identity of Na(+) channels distributed at PC axons, including the AIS and the nodes of Ranvier, remains unclear. We performed immunostaining experiments in human cortical tissues removed surgically to cure brain diseases. We found strong immunosignals of Na(+) channels and two channel subtypes, NaV1.2 and NaV1.6, at the AIS of human cortical PCs. Although both channel subtypes were expressed along the entire AIS, the peak immunosignals of NaV1.2 and NaV1.6 were found at proximal and distal AIS regions, respectively. Surprisingly, in addition to the presence of NaV1.6 at the nodes of Ranvier, NaV1.2 was also found in a subpopulation of nodes in the adult human cortex, different from the absence of NaV1.2 in myelinated axons in rodents. NaV1.1 immunosignals were not detected at either the AIS or the nodes of Ranvier of PCs; however, they were expressed at interneuron axons with different distribution patterns. Further experiments revealed that parvalbumin-positive GABAergic axon cartridges selectively innervated distal AIS regions with relatively high immunosignals of NaV1.6 but not the proximal NaV1.2-enriched compartments, suggesting an important role of axo-axonic cells in regulating AP initiation in human PCs. Together, our results show that both NaV1.2 and NaV1.6 (but not NaV1.1) channel subtypes are expressed at the AIS and the nodes of Ranvier in adult human cortical PCs, suggesting that these channel subtypes control neuronal excitability and signal conduction in PC axons.
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- 2014
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21. [Hypoglycemic effect of saponin from Tribulus terrestris]
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Mingjuan, Li, Weijing, Qu, Yifei, Wang, Hong, Wan, and Cuiping, Tian
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Blood Glucose ,Male ,Mice ,Plants, Medicinal ,Tribulus ,Animals ,Hypoglycemic Agents ,Saponins ,Diabetes Mellitus, Experimental ,Drugs, Chinese Herbal - Abstract
To study the hypoglycemic effect of saponin from Tribulus terrestris L.Alloxan was used to establish the diabetic model in mice. Phenformin Hydrochlride Tables was used as the positive control. The level of glucose, triglyceride, cholesterol and SOD in serum were determined.The level of serum glucose could be significantly reduced by saponin from Tribulus terrestris, which was the rate of 26.25% and 40.67% in normal mice and diabetic mice in respectively. The level of serum triglyceride could be reduced 23.35%. The saporin could also decrease the content of serum cholesterol. Serum SOD activity of the mice was increased by the saponin.Saponin from Tribulue terrestris could significantly reduce the level of serum glucose.
- Published
- 2003
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