Your search keyword '"Lan Bao"' showing total 185 results

151. Steganalysis of Compressed Speech

Author

Chun-lan, Bao, primary, Yong-feng, Huang, additional, and Chun-yi, Zhu, additional

Published

2006

152. KIF5B Promotes the Forward Transport and Axonal Function of the Voltage-Gated Sodium Channel Nav1.8.

Author

Yuan-Yuan Su, Mingyu Ye, Lei Li, Chao Liu, Jing Pan, Wen-Wen Liu, Yanbo Jiang, Xing-Yu Jiang, Xu Zhang, Yousheng Shu, and Lan Bao

Subjects

TETRODOTOXIN, AXONS, SODIUM channels, PROMOTERS (Genetics), SENSORY neurons, PERIPHERAL nervous system, INFLAMMATION, PHYSIOLOGY

Abstract

Nav1.8 is a tetrodotoxin-resistant voltage-gated sodium channel selectively expressed in primary sensory neurons. Peripheral inflammation and nerve injury induce Nav1.8 accumulation in peripheral nerves. However, the mechanisms and related significance of channel accumulation in nerves remains unclear. Here we report that KIF5B promotes the forward transport of Nav1.8 to the plasma membrane and axons in dorsal root ganglion (DRG) neurons of the rat. In peripheral inflammation induced through the intraplantar injection of complete Freund's adjuvant, increased KIF5 and Nav1.8 accumulation were observed in the sciatic nerve. The knock-down of KIF5B, a highly expressed member of the KIF5 family in DRGs, reduced the current density of Nav1.8 in both cultured DRG neurons and ND7-23 cells. Overexpression of KIF5B in ND7-23 cells increased the current density and surface expression of Nav1.8, which were abolished through brefeldin A treatment, whereas the increases were lost in KIF5B mutants defective in ATP hydrolysis or cargo binding. Overexpression of KIF5B also decreased the proteasome-associated degradation of Nav1.8. In addition, coimmunoprecipitation experiments showed interactions between the N terminus of Nav1.8 and the 511- 620 aa sequence in the stalk domain of KIF5B. Furthermore, KIF5B increased Nav1.8 accumulation, Nav1.8 current, and neuronal excitability detected in the axons of cultured DRG neurons, which were completely abolished by the disruption of interactions between KIF5B and the N terminus of Nav1.8. Therefore, our results reveal that KIF5B is required for the forward transport and axonal function of Nav1.8, suggesting a mechanism for axonal accumulation of Nav1.8 in inflammatory pain. [ABSTRACT FROM AUTHOR]

Published

2013

153. IPP5 inhibits neurite growth in primary sensory neurons by maintaining TGF-β/Smad signaling.

Author

Qing-Jian Han, Nan-Nan Gao, Guo-Qiang Ma, Zhen-Ning Zhang, Wen-Hui Yu, Jing Pan, Qiong Wang, Xu Zhang, and Lan Bao

Subjects

NEURON development, PHOSPHOPROTEIN phosphatases, TRANSFORMING growth factors, SENSORY neurons, GENE expression, AXOTOMY, SCIATIC nerve

Abstract

During nerve regeneration, neurite growth is regulated by both intrinsic molecules and extracellular factors. Here, we found that inhibitor 5 of protein phosphatase 1 (IPP5), a newly identified inhibitory subunit of protein phosphatase 1 (PP1), inhibited neurite growth in primary sensory neurons as an intrinsic regulator. IPP5 was highly expressed in the primary sensory neurons of rat dorsal root ganglion (DRG) and was downregulated after sciatic nerve axotomy. Knocking down IPP5 with specific shRNA increased the length of the longest neurite, the total neurite length and the number of neurite ends in cultured rat DRG neurons. Mutation of the PP1-docking motif K8IQF11 or the PP1-inhibiting motif at Thr34 eliminated the IPP5-induced inhibition of neurite growth. Furthermore, biochemical experiments showed that IPP5 interacted with type I transforming growth factor-β receptor (TβRI) and PP1 and enhanced transforming growth factor-β (TGF-β)/Smad signaling in a PP1-dependent manner. Overexpressing IPP5 in DRG neurons aggravated TGF-β-induced inhibition of neurite growth, which was abolished by blocking PP1 or IPP5 binding to PP1. Blockage of TGF-β signaling with the TβRI inhibitor SB431542 or Smad2 shRNA attenuated the IPP5-induced inhibition of neurite growth. Thus, these data indicate that selectively expressed IPP5 inhibits neurite growth by maintaining TGF-β signaling in primary sensory neurons. [ABSTRACT FROM AUTHOR]

Published

2013

154. MEC-17 Deficiency Leads to Reduced α-Tubulin Acetylation and Impaired Migration of Cortical Neurons.

Author

Lei Li, Dan Wei, Qiong Wang, Jing Pan, Rong Liu, Xu Zhang, and Lan Bao

Subjects

TUBULINS, PHYSIOLOGICAL effects of lead, NEURONS, CEREBRAL cortex, POST-translational modification, ACETYLTRANSFERASES

Abstract

Neuronal migration is a fundamental process during the development of the cerebral cortex and is regulated by cytoskeletal components. Microtubule dynamics can be modulated by posttranslational modifications to tubulin subunits. Acetylation of α-tubulin at lysine 40 is important in regulating microtubule properties, and this process is controlled by acetyltransferase and deacetylase. MEC-17 is a newly discovered α-tubulin acetyltransferase that has been found to play a major role in the acetylation of α-tubulin in different species in vivo. However, the physiological function of MEC-17 during neural development is largely unknown. Here, we report that MEC-17 is critical for the migration of cortical neurons in the rat. MEC-17 was strongly expressed in the cerebral cortex during development. MEC-17 deficiency caused migratory defects in the cortical projection neurons and interneurons, and perturbed the transition of projection neurons from the multipolar stage to the unipolar/bipolar stage in the intermediate zone of the cortex. Furthermore, knockdown of α-tubulin deacetylase HDAC6 or overexpression of tubulinK40Q to mimic acetylated α-tubulin could reduce the migratory and morphological defects caused by MEC-17 deficiency in cortical projection neurons. Thus, MEC-17, which regulates the acetylation of α-tubulin, appears to control the migration and morphological transition of cortical neurons. This finding reveals the importance of MEC-17 and α-tubulin acetylation in cortical development. [ABSTRACT FROM AUTHOR]

Published

2012

155. AP1 is essential for generation of autophagosomes from the trans-Golgi network.

Author

Yajuan Guo, Chunmei Chang, Rui Huang, Bo Liu, Lan Bao, and Wei Liu

Subjects

AUTOPHAGY, ENDOSOMES, CLATHRIN, CELL membrane formation, ORIGIN of life

Abstract

Despite recent advances in understanding the functions of autophagy in developmental and pathological conditions, the underlying mechanism of where and how autophagosomal structures acquire membrane remains enigmatic. Here, we provide evidence that post- Golgi membrane traffic plays a crucial role in autophagosome formation. Increased secretion of constitutive cargo from the trans-Golgi network (TGN) to the plasma membrane induced the formation of microtubule-associated protein light chain 3 (LC3)-positive structures. At the early phase of autophagy, LC3 associated with and then budded off from a distinct TGN domain without constitutive TGN-to-plasma cargo and TGN-to-endosome proteins. The clathrin adaptor protein AP1 and clathrin localized to starvation- and rapamycin-induced autophagosomes. Dysfunction of the AP1-dependent clathrin coating at the TGN but not at the plasma membrane prevented autophagosome formation. Our results thus suggest an essential role of the TGN in autophagosome biogenesis, providing membrane to autophagosomes through an AP1-dependent pathway. [ABSTRACT FROM AUTHOR]

Published

2012

156. Transport of receptors, receptor signaling complexes and ion channels via neuropeptide-secretory vesicles.

Author

Bo Zhao, Hai-Bo Wang, Ying-Jin Lu, Jian-Wen Hu, Lan Bao, and Xu Zhang

Subjects

EXOCYTOSIS, CELL membranes, NEUROPEPTIDES, ION channels, SPECTROMETRY

Abstract

Stimulus-induced exocytosis of large dense-core vesicles (LDCVs) leads to discharge of neuropeptides and fusion of LDCV membranes with the plasma membrane. However, the contribution of LDCVs to the properties of the neuronal membrane remains largely unclear. The present study found that LDCVs were associated with multiple receptors, channels and signaling molecules, suggesting that neuronal sensitivity is modulated by an LDCV-mediated mechanism. Liquid chromatography-mass spectrometry combined with immunoblotting of subcellular fractions identified 298 proteins in LDCV membranes purified from the dorsal spinal cord, including G-protein-coupled receptors, G-proteins and other signaling molecules, ion channels and trafficking-related proteins. Morphological assays showed that δ-opioid receptor 1 (DOR1), β2 adrenergic receptor (AR), Gαi2, voltage-gated calcium channel α2δ1 subunit and P2X purinoceptor 2 were localized in substance P (SP)-positive LDCVs in small-diameter dorsal root ganglion neurons, whereas β1 AR, Wnt receptor frizzled 8 and dishevelled 1 were present in SP-negative LDCVs. Furthermore, DOR1/Gαi2/Gβ1γ5/phospholipase C β2 complexes were associated with LDCVs. Blockade of the DOR1/Gαi2 interaction largely abolished the LDCV localization of Gαi2 and impaired stimulation-induced surface expression of Gαi2. Thus, LDCVs serve as carriers of receptors, ion channels and preassembled receptor signaling complexes, enabling a rapid, activity-dependent modulation of neuronal sensitivity. [ABSTRACT FROM AUTHOR]

Published

2011

157. Developing students' meta cognitive behavior by applying learning strategies in physical education courses.

Author

LAN Bao-sen

Published

2010

158. Inhibition of Inflammatory Pain by Activating B-Type Natriuretic Peptide Signal Pathway in Nociceptive Sensory Neurons.

Author

Fang-Xiong Zhang, Xing-Jun Liu, Li-Qin Gong, Jun-Ru Yao, Kai-Cheng Li, Zi-Yan Li, Li-Bo Lin, Ying-Jin Lu, Hua-Sheng Xiao, Lan Bao, Xiao-Hui Zhang, and Xu Zhang

Subjects

PEPTIDES, FIBROSIS, CALCITONIN gene-related peptide, NEUROPEPTIDES, NEURONS, PAIN management

Abstract

B-type natriuretic peptide (BNP) has been known to be secreted from cardiac myocytes and activate its receptor, natriuretic peptide receptor-A (NPR-A), to reduce ventricular fibrosis. However, the function of BNP/NPR-A pathway in the somatic sensory system has been unknown. In the present study, we report a novel function of BNP in pain modulation. Using microarray and immunoblot analyses, we found that BNP and NPR-A were expressed in the dorsal root ganglion (DRG) of rats and upregulated after intraplantar injection of complete Freund's adjuvant (CFA). Immunohistochemistry showed that BNP was expressed in calcitonin gene-related peptide (CGRP)-containing small neurons and IB4 (isolectin B4)-positive neurons, whereas NPR-A was present in CGRP-containing neurons. Application of BNP reduced the firing frequency of small DRG neurons in the presence of glutamate through opening large-conductance Ca2+- activated K+ channels (BKCa channels). Furthermore, intrathecal injection of BNP yielded inhibitory effects on formalin-induced flinching behavior and CFA-induced thermal hyperalgesia in rats. Blockade of BNP signaling by BNP antibodies or cGMP-dependent protein kinase (PKG) inhibitor KT5823 [(9S,10R,12R)-2,3,9,10,11,12-hexahydro-10-methoxy-2,9-dimethyl-1-oxo-9,12-epoxy-1H-diindolo[1,2,3-fg:3′,2′,1′-kl]pyrrolo[3,4-i][1,6]benzodiazocine-10-carboxylic acid methyl ester] impaired the recovery from CFA-induced thermal hyperalgesia. Thus, BNP negatively regulates nociceptive transmission through presynaptic receptor NPR-A, and activation of the BNP/NPR-A/PKG/BKCa channel pathway in nociceptive afferent neurons could be a potential strategy for inflammatory pain therapy. [ABSTRACT FROM AUTHOR]

Published

2010

159. Autophagy negatively regulates Wnt signalling by promoting Dishevelled degradation.

Author

Chan Gao, Weipeng Cao, Lan Bao, Wei Zuo, Guoming Xie, Tiantian Cai, Wei Fu, Jian Zhang, Wei Wu, Xu Zhang, and Ye-Guang Chen

Subjects

PHAGOSOMES, CELLULAR signal transduction, CELL metabolism, EUKARYOTIC cells, UBIQUITIN

Abstract

In eukaryotic cells, autophagy is a highly conserved self-digestion process to promote cell survival in response to nutrient starvation and other metabolic stresses. Autophagy is regulated by cell signalling such as the mTOR (mammalian target of rapamycin) pathway. However, the significance of autophagy in modulation of signal transduction is unclear. Here we show that autophagy negatively regulates Wnt signalling by promoting Dishevelled (Dvl) degradation. Von Hippel–Lindau protein-mediated ubiquitylation is critical for the binding of Dvl2 to p62, which in turn facilitates the aggregation and the LC3-mediated autophagosome recruitment of Dvl2 under starvation; the ubiquitylated Dvl2 aggregates are ultimately degraded through the autophagy–lysosome pathway. Moreover, a reverse correlation between Dvl expression and autophagy is observed in late stages of colon cancer development, indicating that autophagy may contribute to the aberrant activation of Wnt signalling in tumour formation. [ABSTRACT FROM AUTHOR]

Published

2010

160. Prostaglandin E2 Promotes Nav1.8 Trafficking via Its Intracellular RRR Motif Through the Protein Kinase A Pathway.

Author

Chao Liu, Qian Li, Yuanyuan Su, and Lan Bao

Subjects

PROSTAGLANDINS, SODIUM channels, PROTEIN kinases, NEURONS, CELLS

Abstract

Voltage-gated sodium channels (Nav) are essential for the initiation and propagation of action potentials in neurons. Nav1.8 activity is regulated by prostaglandin E2 (PGE2). There is, however, no direct evidence showing the regulated trafficking of Nav1.8, and the molecular and cellular mechanism of PGE2-induced sodium channel trafficking is not clear. Here, we report that PGE2 regulates the trafficking of Nav1.8 through the protein kinase A (PKA) signaling pathway, and an RRR motif in the first intracellular loop of Nav1.8 mediates this effect. In rat dorsal root ganglion (DRG) neurons, prolonged PGE2 treatment enhanced Nav1.8 currents by increasing the channel density on the cell surface. Activation of PKA by forskolin had the same effect on DRG neurons and human embryonic kidney 293T cells expressing Nav1.8. Inhibition of PKA completely blocked the PGE2-promoted effect on Nav1.8. Mutation of five PKA phosphorylation sites or the RRR motif in the first intracellular loop of Nav1.8 abolished the PKA-promoted Nav1.8 surface expression. Furthermore, a membrane-tethered peptide containing the intracellular RRR motif disrupted the PGE2-induced promotion of the Nav1.8 current in DRG neurons. Our data indicate that PGE2 promotes the surface expression of Nav1.8 via an intracellular RRR motif, and provide a novel mechanism for functional modulation of Nav1.8 by hyperalgesic agents. [ABSTRACT FROM AUTHOR]

Published

2010

161. Inflammation and nerve injury induce expression of pancreatitis-associated protein-II in primary sensory neurons.

Author

Shao-Qiu He, Jun-Ru Yao, Fang-Xiong Zhang, Qiong Wang, Lan Bao, and Xu Zhang

Subjects

PANCREATITIS, PANCREATIC diseases, PROTEINS, NEURONS, CHRONIC pain

Abstract

Pancreatitis-associated protein (PAP)-I and -II, lectin-related secretory proteins, are members of the regenerating gene (Reg) family. Although expression of PAP-I was found in the dorsal root ganglion (DRG) neurons following peripheral nerve injury and cystitis, whether PAP-II could be expressed in DRG neurons in chronic pain models remains unclear. The present study shows an inflammation- and nerve injury-triggered expression of PAP-II in rat DRG neurons. In situ hybridization showed that only a few DRG neurons normally contained PAP-I and -II mRNAs. After peripheral inflammation, PAP-I and -II mRNAs were present in over half of small DRG neurons. Such an elevated expression of PAPI and -II reached the peak level on the second day. Immunostaining showed that the expression of PAP-II was mostly increased in the isolectin B4-positive subset of small DRG neurons after inflammation. Furthermore, the expression of PAP-II was also induced in DRG neurons after peripheral nerve injury. Interestingly, PAP-II expression was shifted from small neurons on day 2 to large DRG neurons that expressed neuropeptide Y during the later post-injury days. These results suggest that PAP-II may play potential roles in the modulation of spinal sensory pathways in pathological pain states. [ABSTRACT FROM AUTHOR]

Published

2010

162. Short Elements with Charged Amino Acids Form Clusters to Sort Protachykinin into Large Dense-Core Vesicles.

Author

Guo-Qiang Ma, Bin Wang, Hai-Bo Wang, Qiong Wang, and Lan Bao

Subjects

AMINO acids, CYTOLOGY, NEUROPEPTIDES, GENETICS, ELECTROSTATICS

Abstract

The sorting of neuropeptide tachykinins into large dense-core vesicles (LDCVs) is a key step in their regulated secretion from neurons. However, the sorting mechanism for protachykinin has not yet to be clearly resolved. In this study, we report that the clustered short elements with charged amino acids regulate the efficiency of protachykinin sorting into LDCVs. A truncation experiment showed that the propeptide and the mature peptide-containing sequence of protachykinin were sorted into LDCVs. These two regions exhibit a polarized distribution of charged amino acids. The LDCV localization of the propeptide was gradually decreased with an increasing number of neutral amino acids. Furthermore, the short element with four to five amino acids containing two charged residues was found to be a basic unit for LDCV sorting that enables regulated secretion. In the native propeptide sequence, these charged short elements were clustered to enhance the intermolecular aggregation by electrostatic interaction and produce a gradual and additive effect on LDCV sorting. The optimal conditions for intermolecular aggregation of protachykinin were at millimolar Ca2+ concentrations and pH 5.5–6.0. These results demonstrate that the charged short elements are clustered such that they serve as aggregative signals and regulate the efficiency of protachykinin sorting into LDCVs. These findings reveal a novel mechanism for the sorting of neuropeptides into a regulated secretory pathway. [ABSTRACT FROM AUTHOR]

Published

2008

163. Distinct Subcellular Distribution of δ-Opioid Receptor Fused with Various Tags in PC12 Cells.

Author

Hai-Bo Wang, Ji-Song Guan, Lan Bao, and Xu Zhang

Subjects

SUBCELLULAR fractionation, OPIOID receptors, CYTOPLASM, GENE transfection, CANCER cells, NEUROPEPTIDES, HEMAGGLUTININ

Abstract

Abstract  In small dorsal root ganglion neurons, δ-opioid receptors (DORs) have been found to be mainly distributed in the cytoplasm and often associated with the membrane of large dense-core vesicles (LDCVs) that contain neuropeptides. To study the distribution of DORs under various physiological or pharmacological conditions, the receptors fused with different tags are constructed, transfected into cells or animals, and examined with microscopy. In this study, we show that DOR with different tags have distinct patterns of subcellular distribution in neuroendocrine cells, PC12 cells. Both immunostaining and vesicle fraction analysis showed that the native DORs expressed in PC12 cells were mainly associated with LDCVs. In transfected PC12 cells, DOR tagged with Myc or hemagglutinin exhibited LDCV localization. However, DOR fused with GFP at N- or C-terminus was found to be mainly localized on the cell surface, and mediated the function of DOR agonist. Therefore, the distribution of DOR fused with GFP differs from the native DORs. These results suggest that the subcellular distribution of the receptor could be better presented by the fused tag with smaller molecular size. [ABSTRACT FROM AUTHOR]

Published

2008

164. Morphine Withdrawal Increases Glutamate Uptake and Surface Expression of Glutamate Transporter GLT1 at Hippocampal Synapses.

Author

Nan-Jie Xu, Lan Bao, Hua-Ping Fan, Gio-Bin Bao, Lu Pu, Ying-Jin Lu, Chun-Fu Wu, Xu Zhang, and Gang Pei

Subjects

*MORPHINE, *DRUG withdrawal symptoms, *GLUTAMATE decarboxylase, *NARCOTICS, *SYNAPSES

Abstract

Presents a study that investigated morphine withdrawal increases glutamate uptake and surface expression of glutamate transporter GLT1 at hippocampal synapses. Materials and methods; Results; Discussion.

Published

2003

165. Identification of gene expression of dorsal root ganglion in the rat peripheral axotomy model of neuropathic pain.

Author

Hua-Sheng Xiao, Qiu-Hua Huang, Fang-Xiong Zhang, Lan Bao, Ying-Jin Lu, Chao Guo, Liang Yang, Wein-Jing Huang, Gang Fu, Shu-Hua Xu, Xi-Ping Cheng, Qing Yan, Zhi-Dong Zhu, Zhu Chen, Ze-Guang Han, and Xu Zhang

Subjects

GENE expression, PAIN, NEURAL transmission

Abstract

Examines the role of cascades of genetic expression in the development and maintenance of neuropathic pain. Causes of neuropathic pain; Physiologic effect of phenotypic modification of dorsal root ganglion neurons; Alteration of neurotransmission in response to nerve injury.

Published

2002

166. Study on Athletic Anxiety and Relevant Element of College Students Soccer Man Players.

Author

LAN Bao-sen and HOU Hui-sheng

Published

2010

167. An Analysis on the cohesion level of China Soccer Super Club Team.

Author

HOU Hui-sheng, LAN Bao-sen, HAO Bin, WANG Song-luo, and MA Hui

Published

2010

168. Roles of intracellular fibroblast growth factors in neural development and functions

Author

Shuai Li, Lan Bao, Qing-Feng Wu, Liu Yang, and Xu Zhang

Subjects

Nervous system, medicine.medical_specialty, Morphogenesis, Biology, Fibroblast growth factor, General Biochemistry, Genetics and Molecular Biology, Sodium Channels, Dorsal root ganglion, Environmental Science(all), Internal medicine, medicine, Animals, Humans, Nervous System Physiological Phenomena, General Environmental Science, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), Sodium channel, Cell biology, Fibroblast Growth Factors, medicine.anatomical_structure, Endocrinology, Cerebral cortex, Mental Retardation, X-Linked, General Agricultural and Biological Sciences, Neural development, Intracellular

Abstract

Fibroblast growth factors (FGFs) can be classified as secretory (FGF1-10 and FGF15-23) or intracellular non-secretory forms (FGF11-14). Secretory forms of FGF and their receptors are best known for their regulatory roles in cell growth, differentiation and morphogenesis in the early stages of neural development. However, the functions of intracellular FGFs remain to be explored. FGF12 and FGF14 are found to interact with voltage-gated sodium channels, and regulate the channel activity in neurons. FGF13 is expressed in primary sensory neurons, and is colocalized with sodium channels at the nodes of Ranvier along the myelinated afferent fibers. FGF13 is also expressed in cerebral cortical neurons during the late developmental stage. A recent study showed that FGF13 is a microtubule-stabilizing protein required for regulating the neuronal development in the cerebral cortex. Thus, non-secretory forms of FGF appear to have important roles in the brain, and it would be interesting to further investigate the functions of intracellular FGFs in the nervous system and in neural diseases.

169. Facilitation of μ-Opioid Receptor Activity by Preventing δ-Opioid Receptor-Mediated Codegradation

Author

Bo Zhao, Hong Rui Liu, Jie Luo, Lan Bao, Zi Yan Li, Xu Zhang, Qiong Wang, Shao Qiu He, Ying Jin Lu, Zhen Ning Zhang, Hong Yang, Qian Li, Ji-Song Guan, and Hai-Bo Wang

Subjects

Male, medicine.drug_class, Neuroscience(all), Immunoblotting, Receptors, Opioid, mu, Pain, Mice, Inbred Strains, Substance P, Physical dependence, Pharmacology, Transfection, Endocytosis, Mice, chemistry.chemical_compound, Downregulation and upregulation, Opioid receptor, Receptors, Opioid, delta, mental disorders, medicine, polycyclic compounds, Animals, Humans, Receptor, In Situ Hybridization, Pain Measurement, Morphine, General Neuroscience, Ubiquitination, Analgesics, Opioid, Disease Models, Animal, Microscopy, Electron, HEK293 Cells, Spinal Cord, chemistry, nervous system, Knockout mouse, Analgesia, medicine.symptom, Lysosomes, Peptides, Neuroscience, human activities, Plasmids, Signal Transduction, medicine.drug

Abstract

delta-opioid receptors (DORs) form heteromers with mu-opioid receptors (MORs) and negatively regulate MOR-mediated spinal analgesia. However, the underlying mechanism remains largely unclear. The present study shows that the activity of MORs can be enhanced by preventing MORs from DOR-mediated codegradation. Treatment with DOR-specific agonists led to endocytosis of both DORs and MORs. These receptors were further processed for ubiquitination and lysosomal degradation, resulting in a reduction of surface MORs. Such effects were attenuated by treatment with an interfering peptide containing the first transmembrane domain of MOR (MOR(Tm1)), which interacted with DORs and disrupted the MOR/DOR interaction. Furthermore, the systemically applied fusion protein consisting of MOR(TM1) and TAT at the C terminus could disrupt the MOR/DOR interaction in the mouse spinal cord, enhance the morphine analgesia, and reduce the antinociceptive tolerance to morphine. Thus, dissociation of MORs from DORs in the cell membrane is a potential strategy to improve opioid analgesic therapies.

170. On the Speed of Recurving Typhoons over the Western North Pacific Ocean

Author

James C. Sadler and Cheng-Lan Bao

Published

1982

171. Tentative Study into the Redirection of Retired Athletes.

Author

Lan Bao - sen and Hou Hui - quan

Published

2010

172. On the Current Situation of Disable's Sports and Fitness in Chinese Urban Community.

Author

Yin, Jun, Lan, Bao-sen, Lu, Qing, Lu, Jiang-wei, and Wang, Qing-lei

Abstract

The article focuses on the current status of the disabled persons on their engagement on sports and fitness activities in the urban community in China. It discusses the problems of the disabled persons in the Chinese society. Accordingly, the involvement of the disabled on working activities reflects the development of a harmonious society. It suggests that authorities and community organizations should unite to involve the disabled persons in the activities of the society.

Published

2008

173. The Speed of Recurving Typhoons over the Western North Pacific Ocean

Author

Cheng-Lan, Bao, primary and Sadler, James C., additional

Published

1983

174. Study on a piezoelectric structure based active vibration isolation system for high precision equipment.

Author

Xin Luo, Hua-yan Pu, Xue-dong Chen, Yuan-tai Hu, Zhen-hua Zhou, and Xiu-lan Bao

Published

2009

175. Design of weighting filters with dynamic uncertainty for ultra precision positioning stage.

Author

Xin Luo, Xiu-lan Bao, Xue-dong Chen, Li-zhan Zeng, Hua-yan Pu, Yi-xi Ye, and Jin-cheng Zhu

Published

2009

176. The distinct initiation sites and processing activities of TTLL4 and TTLL7 in glutamylation of brain tubulin.

Author

Xinyue Zhang, Xiangxiao Li, Wei Chen, Yujuan Wang, Lei Diao, Yan Gao, Heyi Wang, Lan Bao, Xin Liang, and Hui-Yuan Wu

Subjects

*TUBULINS, *TANDEM mass spectrometry, *POST-translational modification, *PEPTIDOMIMETICS, *MICROTUBULES, *AMINO acid sequence

Abstract

Mammalian brain tubulins undergo a reversible posttranslational modification--polyglutamylation--which attaches a secondary polyglutamate chain to the primary sequence of proteins. Loss of its erasers can disrupt polyglutamylation homeostasis and cause neurodegeneration. Tubulin tyrosine ligase like 4 (TTLL4) and TTLL7 were known to modify tubulins, both with preference for the β-isoform, but differently contribute to neurodegeneration. However, differences in their biochemical properties and functions remain largely unknown. Here, using an antibody-based method, we characterized the properties of a purified recombinant TTLL4 and confirmed its sole role as an initiator, unlike TTLL7, which both initiates and elongates the side chains. Unexpectedly, TTLL4 produced stronger glutamylation immunosignals for a-isoform than β-isoform in brain tubulins. Contrarily, the recombinant TTLL7 raised comparable glutamylation immunoreactivity for two isoforms. Given the site selectivity of the glutamylation antibody, we analyzed modification sites of two enzymes. Tandem mass spectrometry analysis revealed their incompatible site selectivity on synthetic peptides mimicking carboxyl termini of a1- and β2-tubulins and a recombinant tubulin. Particularly, in the recombinant a1A-tubulin, a novel region was found glutamylated by TTLL4 and TTLL7, that again at distinct sites. These results pinpoint different site specificities between two enzymes. Moreover, TTLL7 exhibits less efficiency to elongate microtubules premodified by TTLL4, suggesting possible regulation of TTLL7 elongation activity by TTLL4-initiated sites. Finally, we showed that kinesin behaves differentially on microtubules modified by two enzymes. This study underpins the different reactivity, site selectivity, and function of TTLL4 and TTLL7 on brain tubulins and sheds light on their distinct role in vivo. [ABSTRACT FROM AUTHOR]

Published

2023

177. RIM-BP3 is a manchette-associated protein essential for spermiogenesis.

Author

Jing Zhou, Ya-Rui Du, Wei-Hua Qin, Ye-Guang Hu, Yan-Nv Huang, Lan-Bao, Daishu Han, Mansouri, Ahmed, and Guo-Liang Xu

Subjects

HUMAN fertility, SPERMATOZOA, MALE reproductive organs, MORPHOLOGY, INFERTILITY

Abstract

During spermiogenesis, round spermatids are converted into motile sperm in mammals. The mechanisms responsible for sperm morphogenesis are poorly understood. We have characterized a novel protein, RIM-BP3, with a specialized function in spermatid development in mice. The RIM-BP3 protein is associated with the manchette, a transient microtubular structure believed to be important for morphogenesis during spermiogenesis. Targeted deletion of the RIM-BP3 gene resulted in male infertility owing to abnormal sperm heads, which are characterized by a deformed nucleus and a detached acrosome. Consistent with its role in morphogenesis, the RIM-BP3 protein physically associates with Hook1, a known manchette-bound protein required for sperm head morphogenesis. Interestingly, RIM-BP3 does not interact with the truncated Hook1 protein characterized in azh (abnormal spermatozoon head) mutant mice. Moreover, RIM-BP3 and Hook1 mutant mice display several common abnormalities, in particular with regard to the ectopic positioning of the manchette within the spermatid, a presumed cause of sperm head deformities. These observations suggest an essential role for RIM-BP3 in manchette development and function through its interaction with Hook1. As the occurrence of deformed spermatids is one of the common abnormalities leading to malfunctional sperm, identification of RIM-BP3 might provide insight into the molecular cue underlying causes of male infertility in humans. [ABSTRACT FROM AUTHOR]

Published

2009

178. The voltage-gated Na+ channel Nav1.8 contains an ER-retention/retrieval signal antagonized by the β3 subunit.

Author

Zhen-Ning Zhang, Qian Li, Chao Liu, Hai-Bo Wang, Qiong Wang, and Lan Bao

Subjects

CELLS, GENETICS, CELL cycle, GENE expression, DNA

Abstract

Voltage-gated Na+ channel (Nav) 1.8 contributes to the majority of the Na+ current that underlies the depolarizing phase of action potentials. Nav1.8 is mainly distributed intracellularly and its current amplitude can be enhanced by the β3 subunit. However, little is known about the mechanisms underlying its intracellular retention and the effects mediated by the β3 subunit. Here, we show that the β3 subunit promotes surface expression of Nav1.8 by masking its endoplasmic reticulum (ER)-retention/retrieval signal. The RRR motif in the first intracellular loop of Nav1.8 is responsible for retaining Nav1.8 in the ER and restricting its surface expression. The β3 subunit facilitates surface expression of Nav1.8. The intracellular C-terminus of the β3 subunit interacts with the first intracellular loop of Nav1.8 and masks the ER-retention/retrieval signal. Mutation of the RRR motif results in a significant increase in surface expression of Nav1.8 and abolishes the β3-subunit-mediated effects. Thus, the β3 subunit regulates surface expression of Nav1.8 by antagonizing its ER-retention/retrieval signal. These results reveal a novel mechanism for the effect of the Na+ channel β subunits on the α subunits. [ABSTRACT FROM AUTHOR]

Published

2008

179. Syntaxin 1A promotes the endocytic sorting of EAAC1 leading to inhibition of glutamate transport.

Author

Yong-Xin Yu, Li Shen, Peng Xia, Ya-Wei Tang, Lan Bao, and Gang Pei

Subjects

AMINO acids, NEURAL transmission, MOLECULES, KAINIC acid, ANIMAL models in research, ANIMAL models of carcinogenesis

Abstract

The neuronal glutamate transporter, excitatory amino-acid carrier 1 (EAAC1), plays an important role in the modulation of neurotransmission and contributes to synthesis of the inhibitory neurotransmitter γ-aminobutyric acid (GABA) and to epileptogenesis. However, the mechanisms that regulate EAAC1 endocytic sorting and function remain largely unknown. Here, we first demonstrate that EAAC1 undergoes internalization through the clathrin-mediated pathway and further show that syntaxin 1A, a key molecule in synaptic exocytosis, potentiates EAAC1 internalization, thus leading to the functional inhibition of EAAC1. In the presence of the transmembrane domain of syntaxin 1A, its H3 coiled-coil domain of syntaxin 1A is necessary and sufficient for the inhibition of EAAC1. Furthermore, specific suppression of endogenous syntaxin 1A significantly blocked EAAC1 endocytic sorting and lysosomal degradation promoted by kainic acid, a drug for kindling the animal model of human temporal lobe epilepsy in rat, indicating a potential role of syntaxin 1A in epileptogenesis. These findings provide new evidence that syntaxin 1A serves as an intrinsic enhancer to EAAC1 endocytic sorting and further suggest that syntaxin 1A is conversant with both 'ins' and 'outs' of synaptic neurotransmission. [ABSTRACT FROM AUTHOR]

Published

2006

180. CC-Chemokine Ligand 2 (CCL2) Suppresses High Density Lipoprotein (HDL) Internalization and Cholesterol Efflux via CC-Chemokine Receptor 2 (CCR2) Induction and p42/44 Mitogen-activated Protein Kinase (MAPK) Activation in Human Endothelial Cells.

Author

Run-Lu Sun, Can-Xia Huang, Jin-Lan Bao, Jie-Yu Jiang, Bo Zhang, Shu-Xian Zhou, Wei-Bin Cai, Hong Wang, Jing-Feng Wang, and Yu-Ling Zhang

Subjects

*CHEMOKINE receptors, *HIGH density lipoproteins, *MITOGEN-activated protein kinases, *ENDOTHELIAL cells, *CORONARY disease, *PHOSPHORYLATION

Abstract

High density lipoprotein (HDL) has been proposed to be internalized and to promote reverse cholesterol transport in endothelial cells (ECs). However, the mechanism underlying these processes has not been studied. In this study, we aim to characterize HDL internalization and cholesterol efflux in ECs and regulatory mechanisms. We found mature HDL particles were reduced in patients with coronary artery disease (CAD), which was associated with an increase in CC-chemokine ligand 2 (CCL2). In cultured primary human coronary artery endothelial cells and human umbilical vein endothelial cells, we determined that CCL2 suppressed the binding (4 °C) and association (37 °C) of HDL to/with ECs and HDL cellular internalization. Furthermore, CCL2 inhibited [3H]cholesterol efflux to HDL/ apoA1 in ECs. We further found that CCL2 induced CC-chemokine receptor 2 (CCR2) expression and siRNA-CCR2 reversed CCL2 suppression on HDL binding, association, internalization, and on cholesterol efflux in ECs. Moreover, CCL2 induced p42/44 mitogen-activated protein kinase (MAPK) phosphorylation via CCR2, and p42/44 MAPK inhibition reversed the suppression of CCL2 on HDL metabolism in ECs. Our study suggests that CCL2 was elevated in CAD patients. CCL2 suppressed HDL internalization and cholesterol efflux via CCR2 induction and p42/44 MAPK activation in ECs. CCL2 induction may contribute to impair HDL function and form atherosclerosis in CAD. [ABSTRACT FROM AUTHOR]

Published

2016

181. A Human Detection Approach for Intrusion in Hazardous Areas Using 4D-BIM-Based Spatial-Temporal Analysis and Computer Vision

Author

Si Van-Tien Tran, Doyeop Lee, Quy Lan Bao, Taehan Yoo, Muhammad Khan, Junhyeon Jo, and Chansik Park

Subjects

hazardous area, 4D BIM, computer vision, safety monitoring, Building construction, TH1-9745

Abstract

Detecting intrusion in hazardous areas is one of the priorities and duties of safety enhancement. With the emergence of vision intelligence technology, hazardous-area-detection algorithms can support safety managers in predicting potential hazards and making decisions. However, because of the dynamic and complex nature of the jobsite, high-risk zones have a different geometry and can be changed following the schedule and workspace of activity. This leads to hazardous areas being annotated manually. Thus, this study proposes a computer vision and a 4D BIM-based approach for intrusion detection in hazardous areas, called IDC4D. IDC4D comprises three modules: (1) the 4D BIM-based safety planning (4BSP) module, which analyzes the hazardous area; (2) the hazardous area registration (HAR) module, which delivers the hazardous area from the BIM model to the camera’s first frame image; and (3) the hazardous-area-intrusion-detection module (HAID), which applies the computer vision algorithm to identify the correlation between workers and hazardous areas. The efficiency of the IDC4D approach is validated by testing a maintenance project on the construction site. IDC4D supports the planner in choosing the plan and detecting the event of workers entering hazardous areas while working. It showed an average precision of 93% and 94% in phase 1 and phase 2, respectively. These findings provide insight into how varying geometries of diverse hazard areas can be handled for enhancing intrusion detection.

Published

2023

182. SNAP-25/Syntaxin 1A Complex Functionally Modulates Neurotransmitter γ-Aminobutyric Acid Reuptake.

Author

Hua-Ping Fan, Feng-Juan Fan, Lan Bao, and Gang Pei

Subjects

*GABA, *AMINO acid neurotransmitters, *NEUROTRANSMITTERS, *AMINOBUTYRIC acid, *BIOMOLECULES, *NITRIC oxide, *NITROGEN compounds

Abstract

Neurotransmitter γ-aminobutyric acid (GABA) release to the synaptic clefts is mediated by the formation of a soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) complex, which includes two target SNAREs syntaxin 1A and SNAP-25 and one vesicle SNARE VAMP-2. The target SNAREs syntaxin 1A and SNAP-25 form a heterodimer, the putative intermediate of the SNARE complex. Neurotransmitter GABA clearance from synaptic clefts is carried out by the reuptake function of its transporters to terminate the postsynaptic signaling. Syntaxin 1A directly binds to the neuronal GABA transporter GAT-1 and inhibits its reuptake function. However, whether other SNARE proteins or SNARE complex regulates GABA reuptake remains unknown. Here we demonstrate that SNAP-25 efficiently inhibits GAT-1 reuptake function in the presence of syntaxin 1A. This inhibition depends on SNAP-25/syntaxin 1A complex formation. The H3 domain of syntaxin 1A is identified as the binding sites for both SNAP-25 and GAT-1. SNAP-25 binding to syntaxin 1A greatly potentiates the physical interaction of syntaxin 1A with GAT-1 and significantly enhances the syntaxin 1A-mediated inhibition of GAT-1 reuptake function. Furthermore, nitric oxide, which promotes SNAP-25 binding to syntaxin 1A to form the SNARE complex, also potentiates the interaction of syntaxin 1A with GAT-1 and suppresses GABA reuptake by GAT-1. Thus our findings delineate a further molecular mechanism for the regulation of GABA reuptake by a target SNARE complex and suggest a direct coordination between GABA release and reuptake. [ABSTRACT FROM AUTHOR]

Published

2006

183. MCP-1 impacts RCT by repressing ABCA1, ABCG1, and SR-BI through PI3K/Akt posttranslational regulation in HepG2 cells[S]

Author

Can-Xia Huang, Yu-Ling Zhang, Jing-Feng Wang, Jie-Yu Jiang, and Jin-Lan Bao

Subjects

monocyte chemoattractant protein -1, reverse cholesterol transport, HepG2 cells, high density lipoprotein, phosphoinositide 3-kinase/Akt pathway, ATP binding cassette A1, Biochemistry, QD415-436

Abstract

Monocyte chemoattractant protein-1 (MCP-1) plays crucial roles at multiple stages of atherosclerosis. We hypothesized that MCP-1 might impair the reverse cholesterol transport (RCT) capacity of HepG2 cells by decreasing the cell-surface protein expression of ATP binding cassette A1 (ABCA1), ATP binding cassette G1 (ABCG1), and scavenger receptor class B type I (SR-BI). MCP-1 reduced the total protein and mRNA levels of ABCA1 and SR-BI, but not of ABCG1. MCP-1 decreased the cell-surface protein expression of ABCA1, ABCG1, and SR-BI in dose-dependent and time-dependent manners, as measured using cell-surface biotinylation. We further studied the phosphoinositide 3-kinase (PI3K)/serine/threonine protein kinase Akt pathway in regulating receptor trafficking. Both the translation and transcription of ABCA1, ABCG1, and SR-BI were not found to be regulated by the PI3K/Akt pathway. However, the cell-surface protein expression of ABCA1, ABCG1, and SR-BI could be regulated by PI3K activity, and PI3K activation corrected the MCP-1-induced decreases in the cell-surface protein expression of ABCA1, ABCG1, and SR-BI. Moreover, we found that MCP-1 decreased the lipid uptake by HepG2 cells and the ABCA1-mediated cholesterol efflux to apoA-I, which could be reversed by PI3K activation. Our data suggest that MCP-1 impairs RCT activity in HepG2 cells by a PI3K/Akt-mediated posttranslational regulation of ABCA1, ABCG1, and SR-BI cell-surface expression.

Published

2013

184. [Biological characteristics of defensin and its disease-resistance genetic engineering].

Author

Fu LB, Yu JL, and Liu WH

Subjects

Amino Acid Sequence, Cloning, Molecular, Defensins chemistry, Immunity, Innate genetics, Molecular Sequence Data, Defensins genetics, Defensins pharmacology, Genetic Engineering

Abstract

Defensin is a kind of cysteine-rich small peptide, which has a broad spectrum of resistance to bacteria with a special resistance mechanism. So far, a large number of studies on defensins have been reported, and the different types of defensins have been isolated from various organisms. A broad prospect of application on defensins has been displayed both in genetic engineering and medicine field. This article reviewed the classification and the biological characteristics of defensins, including mammalian α-, β-, θ-defensins, insect defensins, and plant defensins. The molecular structures, antibacterial activities, and antibacterial mechanisms of these definsins were summarized. The two mechanisms of de-fensin, including independent membrane mechanism and targeting of intracellular compounds by defensins, are ex-pounded. This paper also summarized the researches on isolation and expression of defensin genes and disease resistance genetic engineering of mammal and plant defensins. A prospect of the future applications of defensin both in biophar-maceutical sciences and plant disease resistance genetic engineering was discussed.

Published

2011

185. [A report of 463 in-hospital cardiopulmonary resuscitation based on the "Utstein Style"].

Author

Song W, Mo DF, Lan BQ, and Gao YS

Subjects

Aged, Female, Heart Arrest epidemiology, Humans, Male, Middle Aged, Prospective Studies, Survival Analysis, Cardiopulmonary Resuscitation statistics & numerical data, Heart Arrest therapy

Abstract

Objective: Assessment of outcomes and outcome-related factors of in-hospital cardiopulmonary resuscitation (CPR) based on the "Utstein Style"., Methods: The study was designed as a prospective, single-institution, registry investigation of 463 patients (included adult and pediatric patients) for whom a CPR was attempted., Results: The study population consisted of 320 (69.1%) male patients and 143 (30.9%) female patients. The age range of 45-54, 55-64, 65-74 were ranked the first, the second and third highest. In the past medical history, cardiovascular disease and cerebrovascular disorder were two main disorders, accounting for 36.3% (168/463) and 9.9% (46/463), respectively. Ventricular fibrillation (VF) was the initial electrocardiographic (ECG) change in 74 patients (16.0%). Two hundred and seventy-three patients received the in-hospital CPR, and 190 patients received the pre-hospital CPR. Spontaneous circulation returned in 34.6% (160/273) of the in-hospital patients after CPR, and 16.6% (77/273) survived for 24 hours and 10.4% (48/273) survived up to the time of discharge. The rates of restoration of spontaneous circulation (ROSC) and survival of the in-hospital CPR were higher than those of the pre-hospital CPR [47.6% (130/273) vs. 15.8% (30/190), 13.9% (38/273) vs. 5.3% (10/190), both P<0.01]., Conclusion: Prospective "Utstein Style" data collection for CPR is proved to be a valuable tool for the evaluation of management and outcome following in-hospital cardiopulmonary arrest, but the rate of survival for in-hospital resuscitation still seems to be too low. The further improvement of CPR outcome is necessary.

Published

2008