Your search keyword '"Zhang WK"' showing total 228 results

101. Fischeriana A, a meroterpenoid with an unusual 6/6/5/5/5/6/6 heptacyclic carbon skeleton from the roots of Euphorbia fischeriana.

Author

He J, Xu JK, Zhang J, Bai HJ, Ma BZ, Cheng YC, and Zhang WK

Subjects

Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Hep G2 Cells, Humans, Carbon chemistry, Diterpenes chemistry, Diterpenes pharmacology, Euphorbia chemistry, Plant Roots chemistry, Polycyclic Compounds chemistry

Abstract

Fischeriana A (1), a new meroterpenoid with a rare carbon skeleton, along with one of its known biosynthesis-related compounds 2,4-dihydroxy-6-methoxyacetophenone (2) and two known ent-abietane-type diterpenoids (3-4), were isolated from the roots of Euphorbia fischeriana. Their structures, including the stereochemistry, were elucidated using comprehensive spectroscopic methods, single-crystal X-ray diffraction, and electronic circular dichroism analysis. Compound 1 was found to be made up of an unusual heptacyclic ring system (6/6/5/5/5/6/6) featuring a modified ent-abietane diterpene with a phloroglucinol moiety. A possible biogenetic pathway for 1 was proposed. Compound 1 exhibited marked anti-tumor activities against the HepG2 cell line.

Published

2019

102. Unusual cadinane-type sesquiterpene glycosides with α-glucosidase inhibitory activities from the fruit of Cornus officinalis Sieb. et Zuuc.

Author

He J, Xu JK, Pan XG, Ye XS, Gao PY, Yan Y, Xu CY, Qiang GF, Du GH, Cheng YC, and Zhang WK

Subjects

Circular Dichroism, Glycoside Hydrolase Inhibitors isolation & purification, Glycosides isolation & purification, Naphthalenes chemistry, Naphthalenes isolation & purification, Sesquiterpenes isolation & purification, Cornus chemistry, Fruit chemistry, Glycoside Hydrolase Inhibitors chemistry, Glycosides chemistry, Sesquiterpenes chemistry

Abstract

Five novel and rare cadinane-type sesquiterpene glycosides, cornucadinoside A-E (1-5) were isolated from water extract of the fruit of Cornus officinalis Sieb. et Zuuc.. The new chemical structures, together with their absolute configurations, were elucidated on the basis of extensive spectroscopic analysis, including a comparison of their experimental and calculated electronic circular dichroism (ECD) spectra. Their structures, which possess a naphthalene skeleton, are the first report on the occurrence of cadinane sesquiterpene glycosides in Cornus. Additionally, all the compounds exhibited marked α-glucosidase inhibitory activity except for 3in vitro., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

103. Development and application of a simple recombinase polymerase amplification assay for rapid point-of-care detection of feline herpesvirus type 1.

Author

Liu MZ, Han XH, Yao LQ, Zhang WK, Liu BS, and Chen ZL

Subjects

Animals, Cat Diseases diagnosis, Cats, Polymerase Chain Reaction veterinary, Sensitivity and Specificity, Varicellovirus, Cat Diseases virology, Herpesviridae classification, Herpesviridae isolation & purification, Point-of-Care Systems

Abstract

Feline herpesvirus type 1 (FHV-1) is a highly contagious pathogen of domestic cats and other members of the family Felidae. Point-of-care diagnosis of persistent infection in cats is essential for control of its spread. A recombinase polymerase amplification (RPA) assay (RPA-LFD-FHV) combined with a lateral flow dipstrip (LFD) was developed that uses human body heat for incubation. Sensitivity was evaluated by testing a serial dilution of a control plasmid, and specificity was evaluated by testing related viruses. Swab samples from cats with suspected infection were tested by RPA-LFD-FHV, and the results were compared to those obtained by PCR to evaluate its clinical performance. The RPA-FLD-FHV assay was carried out successfully within 20 min, using body heat for incubation. The RPA-FLD-FHV had a detection limit of 10 3 copies of the FHV-1 gD gene, which was lower than that of PCR, which was 10 4 copies. The assay could detect templates of FHV-1 but not those of other feline and canine viruses. Viruses in boiled samples could be efficiently detected by the RPA-FLD-FHV. Thirty-one out of the 80 samples were positive by the RPA-FLD-FHV assay, whereas only 27 were positive by PCR. DNA sequencing confirmed that the four samples that were positive by RPA-FLD-FHV but negative by PCR were indeed positive. These results indicate that RPA-FLD-FHV is applicable for clinical use. The RPA-FLD-FHV assay is a simple, rapid, and reliable method for point-of-care diagnosis of FHV-1 infection.

Published

2019

104. Lipopolysaccharide Stimulated the Migration of NIH3T3 Cells Through a Positive Feedback Between β-Catenin and COX-2.

Author

Li XJ, Huang FZ, Wan Y, Li YS, Zhang WK, Xi Y, Tian GH, and Tang HB

Abstract

How β-catenin/COX-2 contribute to inflammation-induced fibroblasts migration remains poorly understood. Therefore, in this study, lipopolysaccharide (LPS) was used as a stimulus to accelerate the migration of NIH3T3 cells, which mimicked the tissue repair process. LPS treatment increased the cell migration in concentration-and time-dependent manner. And NS398, a COX-2 inhibitor, inhibited LPS-induced NIH3T3 cells migration. DKK-1, an antagonist of the Wnt/β-catenin signaling, also inhibited that migration. However, TWS119, an inducer of β-catenin via GSK-3β, increased the cell migration. LPS or TWS119 treatment increased COX-2, β-catenin, TGF-β1 , and HMGB-1 expressions, and that could be attenuated by NS398 or DKK-1 addition. LPS induced the PGE 2 production, and PGE 2 increased the expression and nuclear translocation of β-catenin, while EP2 blocker, AH6809, alleviated those effects. TWS119 increased the luciferase activity in the COX-2 promoter. In conclusion, LPS stimulated the NIH3T3 fibroblasts migration through a positive feedback between β-catenin and COX-2, in which PGE 2 , EP2, TGF-β1 , and HMGB-1 played as signal molecules.

Published

2018

105. [A new phenylpropanoid glycoside from fruit of Cornus officinalis].

Author

He J, Xu JK, Pan XG, Ye XS, Liang YY, Yang GF, and Zhang WK

Subjects

Glycosides isolation & purification, Molecular Structure, Phytochemicals chemistry, Phytochemicals isolation & purification, Cornus chemistry, Fruit chemistry, Glycosides chemistry

Abstract

To investigate the chemical compounds from the ripe fruit of Cornus officinalis, a new phenylpropanoid glycoside 1-O-(6'-O-p-hydroxybenzoyl-β-D-glucopyranosyl)-p-phenylpropanol, named cornuphenylpropanoid A (1), were separated and purified by D101 macroporous resin, silica gel and ODS column chromatography. Its structure was extensively determined on basis of ¹H-NMR, ¹³C-NMR, DEPT, HSQC, HMBC and HR-ESI-MS spectroscopic data., Competing Interests: The authors of this article and the planning committee members and staff have no relevant financial relationships with commercial interests to disclose., (Copyright© by the Chinese Pharmaceutical Association.)

Published

2018

106. The Ethanol Supernatant Extracts of Liushenwan Could Alleviate Nanodiethylnitrosamine-Induced Liver Cancer in Mice.

Author

Chen XZ, Zhang WK, Tang HB, Li XJ, Tian GH, Shang HC, and Li YS

Subjects

Administration, Oral, Alanine Transaminase blood, Animals, Aspartate Aminotransferases blood, Carcinoma, Hepatocellular blood, Carcinoma, Hepatocellular chemically induced, Cyclooxygenase 2 metabolism, Diethylnitrosamine, Disease Models, Animal, Down-Regulation drug effects, HMGB1 Protein metabolism, Liver pathology, Liver Neoplasms blood, Liver Neoplasms chemically induced, Mice, Proliferating Cell Nuclear Antigen metabolism, Treatment Outcome, beta Catenin metabolism, Antineoplastic Agents administration & dosage, Carcinoma, Hepatocellular drug therapy, Drugs, Chinese Herbal administration & dosage, Ethanol administration & dosage, Liver Neoplasms drug therapy

Abstract

Liver cancer is one of the leading causes of cancerous deaths worldwide. At present, the treatment of hepatocellular carcinoma (HCC) remains to be a problem globally. Liushenwan (LSW), an ancient Chinese medicine previously used to treat localized infections, was recently reported to possess anticancer activity. Here in this study, we aim to examine the effect of LSW-ET (LSW-ET is the supernatant fraction of LSW from ultrasound assisted ethanol extraction) in prevention and treatment on nanodiethylnitrosamine- (nanoDEN-) induced HCC in mice. In nanoDEN-induced HCC mice treated with LSW-ET by oral (po) or intragastric gavage (ig), we observed an alleviation of serum ALT and AST levels, amelioration in histopathological stainings, and an inhibition in liver tumor growth. In addition, compared with the nanoDEN group, downregulation of multiple pivotal factors (COX-2, β -catenin, PCNA, and HMGB-1) was observed in LSW-ET-po and LSW-ET-ig groups. Taken together, the delivery of LSW-ET by oral could be a potential prevention and treatment of liver cancer.

Published

2018

107. [A new lignan from rhizome of Stellera chamaejasme].

Author

Liu SN, He J, Wang XX, Ma BZ, Zhang WK, and Xu JK

Subjects

Lignans, Molecular Structure, Rhizome, Thymelaeaceae

Abstract

To investigate the chemical compounds from the rhizome of Stellera chamaejasme, nine lignans, including stellerachamin A (1), 8-hydroxypluviatolide (2), wikstromol (3), pinoresinol (4), matairesinol (5), dextrobursehernin (6), hinokinin(7), (-)-glaberide I (8) and （-） medioresinol (9) were isolated by various chromatographic methods. Their structures were extensively determined on basis of MS and NMR spectroscopic data analysis. Among them, compound 1 was a new lignan, and compounds 2 and 7 were isolated from Thymelaeaceae for the first time., Competing Interests: The authors of this article and the planning committee members and staff have no relevant financial relationships with commercial interests to disclose., (Copyright© by the Chinese Pharmaceutical Association.)

Published

2018

108. Evidence that growth hormone can improve mitochondrial function in oocytes from aged mice.

Author

Hou HY, Wang X, Yu Q, Li HY, Li SJ, Tang RY, Guo ZX, Chen YQ, Hu CX, Yang ZJ, Zhang WK, and Qin Y

Subjects

Animals, Anti-Mullerian Hormone metabolism, Female, Humans, In Vitro Oocyte Maturation Techniques, Membrane Potential, Mitochondrial, Mice, Mice, Inbred C57BL, Mitochondria drug effects, Oocytes cytology, Oocytes drug effects, Ovarian Follicle cytology, Ovarian Follicle drug effects, Ovulation Induction, Aging physiology, Human Growth Hormone administration & dosage, Mitochondria physiology, Oocytes physiology, Ovarian Follicle physiology, Recombinant Proteins administration & dosage

Abstract

Decline in successful conception decreases more rapidly after 38 years of age owing to follicular depletion and decreased oocyte quality. However, limited information is available regarding the underlying mechanism and the useful treatment. This study aimed to evaluate the effects of growth hormone supplementation on oocyte maturation in vivo in aged and young mice and to determine its effect on mitochondrial function. The influence of three different doses of recombinant human growth hormone (rhGH) (0.4, 0.8 and 1.6 mg/kg/day) for 8 weeks before ovarian stimulation was analyzed. Superovulated oocytes were released from the oviduct of 12-week-old and 40-week-old female C57BL/6J mice 14-16 h after administration of human chorionic gonadotropin. Ovarian follicle and morphological analysis and oocyte maturation parameters were then evaluated. This study is the first, to our knowledge, to report that medium- and high-dose rhGH significantly increases antral follicles in aged mice but anti-Müllerian hormone (AMH) levels. Furthermore, derived oocytes, MII-stage oocyte rate, ATP levels, mitochondrial membrane potential and frequencies of homogeneous mitochondrial distribution increased. In contrast, in both aged and young mice, the mtDNA copy numbers per oocyte were similar before rhGH administration, and upon saline administration, they did not differ significantly. We conclude that medium-dose rhGH supplementation before standard ovarian stimulation regimens improves oocyte quality in aged mice, probably by enhancing mitochondrial functionality.

Published

2018

109. Membrane protein MHZ3 stabilizes OsEIN2 in rice by interacting with its Nramp-like domain.

Author

Ma B, Zhou Y, Chen H, He SJ, Huang YH, Zhao H, Lu X, Zhang WK, Pang JH, Chen SY, and Zhang JS

Subjects

Ethylenes metabolism, Etiolation, Membrane Proteins chemistry, Membrane Proteins genetics, Mutation, Oryza genetics, Plant Growth Regulators metabolism, Plant Proteins chemistry, Plant Proteins genetics, Plants, Genetically Modified genetics, Protein Domains, Seedlings genetics, Seedlings metabolism, Signal Transduction genetics, Signal Transduction physiology, Membrane Proteins metabolism, Oryza metabolism, Plant Proteins metabolism, Plants, Genetically Modified metabolism

Abstract

The phytohormone ethylene regulates many aspects of plant growth and development. EIN2 is the central regulator of ethylene signaling, and its turnover is crucial for triggering ethylene responses. Here, we identified a stabilizer of OsEIN2 through analysis of the rice ethylene-response mutant mhz3. Loss-of-function mutations lead to ethylene insensitivity in etiolated rice seedlings. MHZ3 encodes a previously uncharacterized membrane protein localized to the endoplasmic reticulum. Ethylene induces MHZ3 gene and protein expression. Genetically, MHZ3 acts at the OsEIN2 level in the signaling pathway. MHZ3 physically interacts with OsEIN2, and both the N- and C-termini of MHZ3 specifically associate with the OsEIN2 Nramp-like domain. Loss of mhz3 function reduces OsEIN2 abundance and attenuates ethylene-induced OsEIN2 accumulation, whereas MHZ3 overexpression elevates the abundance of both wild-type and mutated OsEIN2 proteins, suggesting that MHZ3 is required for proper accumulation of OsEIN2 protein. The association of MHZ3 with the Nramp-like domain is crucial for OsEIN2 accumulation, demonstrating the significance of the OsEIN2 transmembrane domains in ethylene signaling. Moreover, MHZ3 negatively modulates OsEIN2 ubiquitination, protecting OsEIN2 from proteasome-mediated degradation. Together, these results suggest that ethylene-induced MHZ3 stabilizes OsEIN2 likely by binding to its Nramp-like domain and impeding protein ubiquitination to facilitate ethylene signal transduction. Our findings provide insight into the mechanisms of ethylene signaling., Competing Interests: The authors declare no conflict of interest., (Copyright © 2018 the Author(s). Published by PNAS.)

Published

2018

110. An unusual racemic C 12 -norabietane diterpene and a new abietane diterpene alkaloid from Salvia miltiorrhiza Bunge.

Author

Pan XG, He J, Wang XX, Zhang J, Ma BZ, Zhang WK, and Xu JK

Subjects

Abietanes isolation & purification, Alkaloids isolation & purification, Cell Line, Tumor, China, Humans, Molecular Structure, Plant Roots chemistry, Abietanes chemistry, Alkaloids chemistry, Salvia miltiorrhiza chemistry

Abstract

A rare C 12 -norabietane diterpene racemate (1) and a new abietane diterpene alkaloid (2) were isolated from the roots of Salvia miltiorrhiza Bunge. Their structures were established by comprehensive spectroscopic analyses, and 1 was successfully resolved by chiral HPLC, demonstrating that 1 is racemic. The absolute configurations of 1a [(+)-miltiorolide A], 1b [(-)-miltiorolide A], and 2 were determined using TDDFT-ECD calculations. 1a and 1b are the first examples of enantiomeric C 12 -norabietane diterpenes featuring an isobutylene with a tetrahydronaphthalene-butyrolactone ring system. The cytotoxic activities of the isolates (1 and 2) were evaluated against three human cancer cell lines BEL-7402, HT-29 and PANC-28. A plausible biogenetic pathway of 1 was also proposed., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

111. An Alfin-like gene from Atriplex hortensis enhances salt and drought tolerance and abscisic acid response in transgenic Arabidopsis.

Author

Tao JJ, Wei W, Pan WJ, Lu L, Li QT, Ma JB, Zhang WK, Ma B, Chen SY, and Zhang JS

Subjects

Abscisic Acid metabolism, Arabidopsis metabolism, Arabidopsis Proteins genetics, Atriplex metabolism, Droughts, Gene Expression Regulation, Plant genetics, Genes, Plant genetics, Plant Proteins genetics, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Sodium Chloride metabolism, Stress, Physiological genetics, Transcription Factors metabolism, Arabidopsis genetics, Atriplex genetics, Salt Tolerance genetics

Abstract

Alfin-like (AL) is a small plant-specific gene family with prominent roles in root growth and abiotic stress response. Here, we aimed to identify novel stress tolerance AL genes from the stress-tolerant species Atriplex hortensis. Totally, we isolated four AhAL genes, all encoding nuclear-localized proteins with cis-element-binding and transrepression activities. Constitutive expression of AhAL1 in Arabidopsis facilitated plants to survive under saline condition, while expressing anyone of the other three AhAL genes led to salt-hypersensitive response, indicating functional divergence of AhAL family. AhAL1 also conferred enhanced drought tolerance, as judged from enhanced survival, improved growth, decreased malonaldehyde (MDA) content and reduced water loss in AhAL1-expressing plants compared to WT. In addition, abscisic acid (ABA)-mediated stomatal closure and inhibition of seed germination and primary root elongation were enhanced in AhAL1-transgenic plants. Further analysis demonstrated that AhAL1 could bind to promoter regions of GRF7, DREB1C and several group-A PP2C genes and repress their expression. Correspondingly, the expression levels of positive stress regulator genes DREB1A, DREB2A and three ABFs were all increased in AhAL1-expressing plants. Based on these results, AhAL1 was identified as a novel candidate gene for improving abiotic stress tolerance of crop plants.

Published

2018

112. Cornusides A-O, Bioactive Iridoid Glucoside Dimers from the Fruit of Cornus officinalis.

Author

Ye XS, He J, Cheng YC, Zhang L, Qiao HY, Pan XG, Zhang J, Liu SN, Zhang WK, and Xu JK

Subjects

Plant Extracts chemistry, Cornus chemistry, Fruit chemistry, Glucosides chemistry, Iridoid Glucosides chemistry, Iridoids chemistry, Pyrans chemistry

Abstract

Fifteen new and rare iridoid glucoside dimers, cornusides A-O (1-15), and 10 known iridoid glucosides (16-25) were isolated from the fruit of Cornus officinalis. These new chemical structures were established through spectroscopic analysis (UV, IR, HRESIMS, 1D and 2D NMR). Compounds 1-25 were tested for their inhibitory activities by measuring IL-6-induced STAT3 promoter activity in HepG2 cells, and 3, 12, 17, 22, and 23 showed inhibitory effects, with IC 50 values of 11.9, 12.2, 14.0, 7.0, and 6.9 μM, respectively.

Published

2017

113. [Clinical application of intraoperative CT in management of maxillofacial fracture].

Author

Ma DY, Guo Y, Cao J, Pang CY, Zhang WK, and Cheng MP

Subjects

Humans, Intraoperative Period, Maxillofacial Injuries surgery, Retrospective Studies, Maxillofacial Injuries diagnostic imaging, Tomography, X-Ray Computed

Abstract

Nine patients with maxillofacial fracture that received intraoperative CT examination in Lanzhou General Hospital of Lanzhou Military Command from January 2017 to March 2017 were retrospectively studied. The procedure of intraoperative CT was introduced. The value of this technique was preliminarily discussed in order to provide a new method for the accurate implementation of maxillofacial fracture surgery.

Published

2017

114. Shengfu Oil Enhances the Healing of Full-Thickness Scalded Skin Accompanying the Differential Regulation of β-Catenin, Dlk1, and COX-2.

Author

Chen MT, Yang YJ, Li YS, Li XJ, Zhang WK, Wang JP, Wang X, Tian GH, and Tang HB

Abstract

Shengfu oil is a traditional Chinese medicine formula containing 16 ingredients, including Scutellariae radix, Olibanum, and Rehmanniae radix. In this study, we aimed to enhance the wound healing of rabbit full-thickness scalded skin by Shengfu oil and to elucidate its regulatory effects on β-catenin, Dlk1, and COX-2. We found that Shengfu oil exhibited significant anti-inflammatory, analgesic, and antimicrobial activities. The structure of wound tissues in Shengfu oil group was intact, including regenerated cutaneous appendages, indicating better healing capability of Shengfu oil compared to the controls. The protein expression of β-catenin, Dlk1, and COX-2 in wound tissues were investigated by immunohistochemistry staining and were further quantitated with the use of multispectral imaging analysis. The protein expression of β-catenin and Dlk1 in the Shengfu oil group was higher than that in the sesame oil group in early wound repair, accompanied by the lower expression of COX-2; the protein expression of β-catenin decreased in the middle of wound healing; the protein expression of β-catenin and Dlk1 increased at the end of wound healing. These results strongly suggest that Shengfu oil can enhance wound healing by regulating the expression of β-catenin, Dlk1, and COX-2 due to its excellent anti-inflammatory, analgesic, and antimicrobial activities.

Published

2017

115. A Histone Code Reader and a Transcriptional Activator Interact to Regulate Genes for Salt Tolerance.

Author

Wei W, Tao JJ, Chen HW, Li QT, Zhang WK, Ma B, Lin Q, Zhang JS, and Chen SY

Subjects

Amino Acid Sequence, Conserved Sequence, DNA, Plant metabolism, Histones metabolism, Models, Biological, Plant Proteins chemistry, Plant Proteins genetics, Plant Roots drug effects, Plant Roots genetics, Plant Stomata drug effects, Plant Stomata genetics, Plant Stomata physiology, Plants, Genetically Modified, Promoter Regions, Genetic genetics, Protein Binding drug effects, Protein Domains, RNA Interference, Salt Tolerance drug effects, Sodium Chloride pharmacology, Glycine max drug effects, Stress, Physiological drug effects, Stress, Physiological genetics, Transcriptional Activation genetics, Gene Expression Regulation, Plant drug effects, Histone Code genetics, Plant Proteins metabolism, Salt Tolerance genetics, Glycine max genetics, Glycine max physiology, Trans-Activators metabolism

Abstract

Plant homeodomain (PHD) finger proteins are involved in various developmental processes and stress responses. They recognize and bind to epigenetically modified histone H3 tail and function as histone code readers. Here we report that GmPHD6 reads low methylated histone H3K4me0/1/2 but not H3K4me3 with its N-terminal domain instead of the PHD finger. GmPHD6 does not possess transcriptional regulatory ability but has DNA-binding ability. Through the PHD finger, GmPHD6 interacts with its coactivator, LHP1-1/2, to form a transcriptional activation complex. Using a transgenic hairy root system, we demonstrate that overexpression of GmPHD6 improves stress tolerance in soybean ( Glycine max ) plants. Knocking down the LHP1 expression disrupts this role of GmPHD6 , indicating that GmPHD6 requires LHP1 functions during stress response. GmPHD6 influences expression of dozens of stress-related genes. Among these, we identified three targets of GmPHD6, including ABA-stress-ripening-induced CYP75B1 and CYP82C4 Overexpression of each gene confers stress tolerance in soybean plants. GmPHD6 is recruited to H3K4me0/1/2 marks and recognizes the G-rich elements in target gene promoters, whereas LHP1 activates expression of these targets. Our study reveals a mechanism involving two partners in a complex. Manipulation of the genes in this pathway should improve stress tolerance in soybean or other legumes/crops., (© 2017 American Society of Plant Biologists. All Rights Reserved.)

Published

2017

116. JNK signaling is required for the MIP‑1α‑associated regulation of Kupffer cells in the heat stroke response.

Author

Chen XJ, Tang ZZ, Zhu GG, Cheng Q, Zhang WK, Li HM, Fu W, and Lu QP

Subjects

Animals, Cells, Cultured, Inflammation metabolism, Interleukin-1beta immunology, Interleukin-6 immunology, Kupffer Cells pathology, Male, Rats, Wistar, Tumor Necrosis Factor-alpha immunology, Chemokine CCL3 immunology, Heat-Shock Response, JNK Mitogen-Activated Protein Kinases immunology, Kupffer Cells immunology, Signal Transduction

Abstract

Severe heat stroke (HS) consists of extreme hyperthermia with thermoregulatory failure, leading to high morbidity and mortality. Liver injury is a complication of HS that is associated with inflammatory responses and Kupffer cells (KCs), which are resident macrophages in the liver that serve as a major source of inflammatory cytokines; however, the association and the underlying mechanisms of KC functions in HS‑induced endotoxemia and inflammation require an improved understanding. The important chemokine macrophage inflammatory protein‑1α (MIP‑1α) increases inflammatory responses and the secretion of inflammatory molecules from KCs, including tumor necrosis factor‑α, interleukin (IL)‑1β and IL‑6. In addition, the activation of c‑Jun N‑terminal kinase (JNK) signaling is responsible for the development of liver inflammation. Therefore, HS animal and cell models were constructed in order to investigate the pathways involved in the HS‑induced dysfunction of KCs. The results of the present study suggest that JNK may be involved in the MIP‑1α‑associated pathogenesis of KCs in HS injury.

Published

2017

117. Chronic high-dosage fish oil exacerbates gut-liver axis injury in alcoholic steatohepatitis in mice: the roles of endotoxin and IL-4 in Kupffer cell polarization imbalance.

Author

Li XJ, Mu YM, Qin QF, Zeng ZX, Li YS, Zhang WK, Tang HB, Tian GH, and Shang HC

Abstract

In the present study, intestinal tight junctions (TJs) and Kupffer cell polarization were investigated in an alcoholic steatohepatitis (ASH) mouse model to uncover the potential side effects of overexposure to fish oil or omega-3 fatty acids. The mice were fed ad libitum with a liquid diet containing ethanol and fish oil. In the meantime, ethanol was given every 5-7 days by gavage to simulate binge drinking. After the 7 th binge, steatosis, necrosis, inflammatory infiltration, and bridging fibrosis were observed in the liver by histological staining. After the 13 th binge, the inducers, markers and other downstream genes/proteins of the Kupffer cell M1/M2 phenotype in the liver, serum, and small intestine were analysed. The results suggested that a chronic high dosage of fish oil alone reduced the mRNA levels of most genes tested and showed a tendency to damage the intestinal zonula occludens-1 localization and reduce the number of M2 Kupffer cells. Meanwhile, the combination of fish oil and ethanol damaged the intestinal TJs, resulting in an increased endotoxin level in the liver. Gut-derived endotoxin polarized Kupffer cells to the M1 phenotype, whereas the number of cells with the M2 phenotype (markers: CD163 and CD206) was decreased. Interleukin-4 (IL-4), an M2 Kupffer cell inducer, was also decreased. Moreover, in vitro experiments showed that IL-4 reversed eicosapentaenoic acid-induced CD163 and CD206 mRNA suppression in RAW 264.7 cells. Overall, our results showed that a chronic high dosage of fish oil exacerbated gut-liver axis injury in alcoholic liver disease in mice, and endotoxin/IL-4-induced Kupffer cell polarization imbalance might play an important role in that process.

Published

2017

118. Four new iridoid glucosides containing the furan ring from the fruit of Cornus officinalis.

Author

He J, Ye XS, Wang XX, Yang YN, Zhang PC, Ma BZ, Zhang WK, and Xu JK

Subjects

Animals, Iridoid Glucosides isolation & purification, Molecular Structure, Neuroprotective Agents isolation & purification, PC12 Cells, Rats, Cornus chemistry, Fruit chemistry, Iridoid Glucosides chemistry, Neuroprotective Agents chemistry

Abstract

Four new and rare iridoid glucosides, cornusfuroside A-D (1-4), containing the furan ring were identified from water extract of the fruit of Cornus officinalis. These new chemical structures were determined through extensive spectroscopic analysis, including 1D and 2D NMR, IR, HRESIMS, experimental and calculated electronic circular dichroism (ECD). Notably, this study is the first report on the isolation of four iridoid glucoside structures with acetal functions in the sugar moiety. The neuroprotective effects of these compounds were also evaluated in vitro., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

119. Soybean NIMA-Related Kinase1 Promotes Plant Growth and Improves Salt and Cold Tolerance.

Author

Pan WJ, Tao JJ, Cheng T, Shen M, Ma JB, Zhang WK, Lin Q, Ma B, Chen SY, and Zhang JS

Subjects

Arabidopsis enzymology, Arabidopsis genetics, Arabidopsis growth & development, Cold Temperature, Plants, Genetically Modified, Salt Tolerance, Seedlings enzymology, Seedlings genetics, Glycine max genetics, Glycine max growth & development, Up-Regulation, Gene Expression Regulation, Plant, Glycine max enzymology, Stress, Physiological

Abstract

NEK (NIMA-related kinase) is known as a family of serine/threonine kinases which mainly participate in microtubule-related mitotic events in fungi, mammals and other eukaryotes. Our previous studies found that Arabidopsis NEK6 plays an important role in plant response to abiotic stress. We further investigated roles of the NEK family in soybean and found that at least eight members can respond to abiotic stresses. Among them, only GmNEK1, a novel NEK member which is distantly related to Arabidopsis NEK6, enhanced plant growth and promoted salt and cold tolerance in transgenic Arabidopsis plants. The growth of soybean plants harboring GmNEK1-overexpressing hairy roots under saline condition was also improved. A series of stress-related genes including RH3, CORI3 and ALDH10A8 were found to be up-regulated in GmNEK1-overexpressing Arabidopsis plants and soybean hairy roots. Moreover, soybean plants with GmRH3-overexpressing hairy roots exhibited increased salt tolerance, while soybean plants with GmRH3-RNAi (RNA interference) roots were more sensitive to salt stress than the wild-type plants. Our study uncovers a novel role for GmNEK1 in promoting plant adaptive growth under adverse conditions at least partially through up-regulation of GmRH3. Manipulation of these genes in soybean or other crops may improve growth and production under stress conditions., (© The Author 2017. Published by Oxford University Press on behalf of Japanese Society of Plant Physiologists. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2017

120. [Minimally invasive percutaneous plate osteosynthesis for the treatment of acetabulum anterior column fracture with intact true pelvic brim].

Author

Mo TT, Su YB, and Zhang WK

Subjects

Adult, Bone Screws, Feasibility Studies, Female, Fractures, Bone etiology, Humans, Male, Middle Aged, Minimally Invasive Surgical Procedures, Treatment Outcome, Acetabulum injuries, Bone Plates, Fracture Fixation, Internal methods, Fractures, Bone surgery

Abstract

Objective: To discuss feasibility and clinical effects of minimally invasive percutaneous plate osteosynthesis in treating acetabulum anterior column fracture with intact true pelvic brim., Methods: From May 2013 to December 2015, 8 patients with acetabulum anterior column fracture with intact true pelvic brim were reviewed retrospectively. According to Judet-Letournel classification, all were simple unstable acetabulum anterior column fracture. Among them, there were 5 males and 3 females with an average age of 42.8 years old ranging from 22 to 63. The injury was caused by crush in 4 cases, smash of heavy object in 3 cases, and falling down in 1 case. The time from injury to operation was ranged from 5 to 19 days with an average of 9.5 days. Preoperative CT showed high anterior column fracture of acetabulum with intact true pelvic brim, the fracture separation was less than 1 cm. All the patients were treated with closed reduction and minimally invasive percutaneous plate osteosynthesis. The quality of fracture reduction, operation time, blood loss, fracture healing time, hip function and postoperative complications were observed and recorded., Results: All patients were followed up from 10 to 19 months with an average of 14.5 months. The quality of reduction was classified as anatomical in 4 patients, imperfect in 3, poor in 1 by Matta's score system. The operation time was 30 to 80 min, averaged 51.3 min;the blood loss was 50 to 120 ml, averaged 86.2 ml; fracture healing time was 10 to 19 weeks, averaged 13.3 weeks. At the latest follow-up, the hip function was evaluated by Merle D'Aubigne scoring system, 5 cases got excellent results, 2 cases in good, and 1 case in fair. No vascular nerve injury, wound infection, bleeding, deep vein thrombosis and other complications occurred in 8 patients., Conclusions: Minimally invasive percutaneous plate osteosynthesis in treating acetabulum anterior column fracture with intact true pelvic brim has advantages of less trauma, less bleeding, quick recovery and good curative effect, and it is a good surgical procedures for acetabulum anterior column fracture., Competing Interests: The authors of this article and the planning committee members and staff have no relevant financial relationships with commercial interests to disclose.

Published

2017

121. Three New Abietane-Type Diterpenoids from Callicarpa macrophylla Vahl.

Author

Wang ZH, Niu C, Zhou DJ, Kong JC, and Zhang WK

Subjects

Abietanes isolation & purification, Abietanes pharmacology, Animals, Anti-Inflammatory Agents isolation & purification, Anti-Inflammatory Agents pharmacology, Cell Line, Lipopolysaccharides antagonists & inhibitors, Lipopolysaccharides pharmacology, Macrophages cytology, Macrophages metabolism, Magnetic Resonance Spectroscopy, Mice, Nitric Oxide biosynthesis, Plant Extracts chemistry, Plant Leaves chemistry, Abietanes chemistry, Anti-Inflammatory Agents chemistry, Callicarpa chemistry, Macrophages drug effects, Nitric Oxide antagonists & inhibitors

Abstract

Three new abietane-type diterpenoids, named callicapoic acid M3 ( 1 ), callicapoic acid M4 ( 2 ) and callicapoic acid M5 ( 3 ), were isolated from the Callicarpa macrophylla Vahl. Their structures were established by spectroscopic techniques (IR, UV, MS, 1D and 2D NMR). All the isolated three compounds were evaluated for inhibitory activity on NO production in LPS-activated RAW 264.7 macrophage cells by using MTT assays. Compounds 1 , 2 and 3 showed potent inhibitory activity, with inhibition rates of 34.47-40.13%., Competing Interests: The authors declare no conflict of interest.

Published

2017

122. Ethylene-Inhibited Jasmonic Acid Biosynthesis Promotes Mesocotyl/Coleoptile Elongation of Etiolated Rice Seedlings.

Author

Xiong Q, Ma B, Lu X, Huang YH, He SJ, Yang C, Yin CC, Zhao H, Zhou Y, Zhang WK, Wang WS, Li ZK, Chen SY, and Zhang JS

Subjects

Cotyledon drug effects, Cotyledon genetics, Cotyledon metabolism, Gene Expression Regulation, Plant drug effects, Gene Expression Regulation, Plant genetics, Oryza genetics, Plant Proteins genetics, Plant Proteins metabolism, Seedlings genetics, Cyclopentanes metabolism, Ethylenes pharmacology, Oryza drug effects, Oryza metabolism, Oxylipins metabolism, Seedlings drug effects, Seedlings metabolism

Abstract

Elongation of the mesocotyl and coleoptile facilitates the emergence of rice ( Oryza sativa ) seedlings from soil and is affected by various genetic and environment factors. The regulatory mechanism underlying this process remains largely unclear. Here, we examined the regulation of mesocotyl and coleoptile growth by characterizing a gaoyao1 ( gy1 ) mutant that exhibits a longer mesocotyl and longer coleoptile than its original variety of rice. GY1 was identified through map-based cloning and encodes a PLA 1 -type phospholipase that localizes in chloroplasts. GY1 functions at the initial step of jasmonic acid (JA) biosynthesis to repress mesocotyl and coleoptile elongation in etiolated rice seedlings. Ethylene inhibits the expression of GY1 and other genes in the JA biosynthesis pathway to reduce JA levels and enhance mesocotyl and coleoptile growth by promoting cell elongation. Genetically, GY1 acts downstream of the OsEIN2-mediated ethylene signaling pathway to regulate mesocotyl/coleoptile growth. Through analysis of the resequencing data from 3000 rice accessions, we identified a single natural variation of the GY1 gene, GY1 376T , which contributes to mesocotyl elongation in rice varieties. Our study reveals novel insights into the regulatory mechanism of mesocotyl/coleoptile elongation and should have practical applications in rice breeding programs., (© 2017 American Society of Plant Biologists. All rights reserved.)

Published

2017

123. A PP2C-1 Allele Underlying a Quantitative Trait Locus Enhances Soybean 100-Seed Weight.

Author

Lu X, Xiong Q, Cheng T, Li QT, Liu XL, Bi YD, Li W, Zhang WK, Ma B, Lai YC, Du WG, Man WQ, Chen SY, and Zhang JS

Subjects

Alleles, Chromosome Mapping, Crops, Agricultural genetics, Crosses, Genetic, DNA, Plant, Genes, Plant, Phosphorylation, Plants, Genetically Modified, Sequence Analysis, DNA, Transcription Factors metabolism, Plant Proteins genetics, Protein Phosphatase 2C genetics, Quantitative Trait Loci, Seeds genetics, Glycine max genetics

Abstract

Cultivated soybeans may lose some useful genetic loci during domestication. Introgression of genes from wild soybeans could broaden the genetic background and improve soybean agronomic traits. In this study, through whole-genome sequencing of a recombinant inbred line population derived from a cross between a wild soybean ZYD7 and a cultivated soybean HN44, and mapping of quantitative trait loci for seed weight, we discovered that a phosphatase 2C-1 (PP2C-1) allele from wild soybean ZYD7 contributes to the increase in seed weight/size. PP2C-1 may achieve this function by enhancing cell size of integument and activating a subset of seed trait-related genes. We found that PP2C-1 is associated with GmBZR1, a soybean ortholog of Arabidopsis BZR1, one of key transcription factors in brassinosteroid (BR) signaling, and facilitate accumulation of dephosphorylated GmBZR1. In contrast, the PP2C-2 allele with variations of a few amino acids at the N-terminus did not exhibit this function. Moreover, we showed that GmBZR1 could promote seed weight/size in transgenic plants. Through analysis of cultivated soybean accessions, we found that 40% of the examined accessions do not have the PP2C-1 allele, suggesting that these accessions can be improved by introduction of this allele. Taken together, our study identifies an elite allele PP2C-1, which can enhance seed weight and/or size in soybean, and pinpoints that manipulation of this allele by molecular-assisted breeding may increase production in soybean and other legumes/crops., (Copyright © 2017 The Author. Published by Elsevier Inc. All rights reserved.)

Published

2017

124. Selection for a Zinc-Finger Protein Contributes to Seed Oil Increase during Soybean Domestication.

Author

Li QT, Lu X, Song QX, Chen HW, Wei W, Tao JJ, Bian XH, Shen M, Ma B, Zhang WK, Bi YD, Li W, Lai YC, Lam SM, Shui GH, Chen SY, and Zhang JS

Subjects

Amino Acid Sequence, Arabidopsis genetics, Arabidopsis metabolism, Domestication, Fatty Acids metabolism, Gene Expression Regulation, Plant, Lipid Metabolism genetics, Lipids biosynthesis, Phylogeny, Plant Proteins classification, Plant Proteins genetics, Plants, Genetically Modified, Reverse Transcriptase Polymerase Chain Reaction, Seeds genetics, Sequence Homology, Amino Acid, Glycine max genetics, Glycine max physiology, Triglycerides metabolism, Plant Oils metabolism, Plant Proteins metabolism, Seeds metabolism, Glycine max metabolism, Zinc Fingers

Abstract

Seed oil is a momentous agronomical trait of soybean ( Glycine max ) targeted by domestication in breeding. Although multiple oil-related genes have been uncovered, knowledge of the regulatory mechanism of seed oil biosynthesis is currently limited. We demonstrate that the seed-preferred gene GmZF351 , encoding a tandem CCCH zinc finger protein, is selected during domestication. Further analysis shows that GmZF351 facilitates oil accumulation by directly activating WRINKLED1 , BIOTIN CARBOXYL CARRIER PROTEIN2 , 3-KETOACYL-ACYL CARRIER PROTEIN SYNTHASE III , DIACYLGLYCEROL O-ACYLTRANSFERASE1 , and OLEOSIN2 in transgenic Arabidopsis ( Arabidopsis thaliana ) seeds. Overexpression of GmZF351 in transgenic soybean also activates lipid biosynthesis genes, thereby accelerating seed oil accumulation. The ZF351 haplotype from the cultivated soybean group and the wild soybean ( Glycine soja ) subgroup III correlates well with high gene expression level, seed oil contents and promoter activity, suggesting that selection of GmZF351 expression leads to increased seed oil content in cultivated soybean. Our study provides novel insights into the regulatory mechanism for seed oil accumulation, and the manipulation of GmZF351 may have great potential in the improvement of oil production in soybean and other related crops., (© 2017 American Society of Plant Biologists. All Rights Reserved.)

Published

2017

125. Structural basis of dual Ca 2+ /pH regulation of the endolysosomal TRPML1 channel.

Author

Li M, Zhang WK, Benvin NM, Zhou X, Su D, Li H, Wang S, Michailidis IE, Tong L, Li X, and Yang J

Subjects

Amino Acids chemistry, Crystallography, X-Ray, HEK293 Cells, Humans, Hydrogen-Ion Concentration, Models, Molecular, Mucolipidoses genetics, Mutation, Missense, Protein Binding, Protein Multimerization, Protein Subunits metabolism, Reproducibility of Results, Static Electricity, Structure-Activity Relationship, Calcium metabolism, Endosomes metabolism, Lysosomes metabolism, TRPM Cation Channels chemistry, TRPM Cation Channels metabolism

Abstract

The activities of organellar ion channels are often regulated by Ca 2+ and H + , which are present in high concentrations in many organelles. Here we report a structural element critical for dual Ca 2+ /pH regulation of TRPML1, a Ca 2+ -release channel crucial for endolysosomal function. TRPML1 mutations cause mucolipidosis type IV (MLIV), a severe lysosomal storage disorder characterized by neurodegeneration, mental retardation and blindness. We obtained crystal structures of the 213-residue luminal domain of human TRPML1 containing three missense MLIV-causing mutations. This domain forms a tetramer with a highly electronegative central pore formed by a novel luminal pore loop. Cysteine cross-linking and cryo-EM analyses confirmed that this architecture occurs in the full-length channel. Structure-function studies demonstrated that Ca 2+ and H + interact with the luminal pore and exert physiologically important regulation. The MLIV-causing mutations disrupt the luminal-domain structure and cause TRPML1 mislocalization. Our study reveals the structural underpinnings of TRPML1's regulation, assembly and pathogenesis.

Published

2017

126. The dark side of "the force" - lipid nanoparticles enhance the oncogenesis of diethylnitrosamine and result in liver cancer in mice.

Author

Zhang WK, Gu HW, Li XJ, Li YS, Tang HB, Tian GH, and Shang HC

Subjects

Animals, Cell Proliferation, Diethylnitrosamine administration & dosage, Disease Models, Animal, Humans, Liver, Mice, Carcinogenesis, Diethylnitrosamine pharmacology, Lipids, Liver Neoplasms chemically induced, Nanoparticles

Abstract

Nano-carriers, especially lipid nanoparticles have been used widely in "a good manner", for instance in the treatment of cancer, by enhancing the targetability and reducing required dose. Here in the contrary, we presented a new possibility: nanoDEN, a nanoparticle-packed "bad guy", which is more effective and efficient in generating liver tumor in mice. We have shown that nanoDEN, same as diethylnitrosamine (DEN), induced overexpression of multiple pivotal factors (including COX-2, β-catenin and PCNA) during oncogenesis. Moreover, nanoDEN increased the apoptosis of liver cells compared with DEN alone. This apoptotic effect of nanoDEN is more efficient on normal cells than on cancer cells. Taken into consideration the fact that there are endogenous nanoparticles naturally formed inside our body, our research enlarged our views of all the aspects of oncogenic chemicals, while also established a better method of producing animal model of liver cancer, which has future investigational and therapeutical potential., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2017

127. The Involvement of β -Catenin/COX-2/VEGF Axis in NMDA-Caused Retinopathy.

Author

Ning D, Zhang WK, Tian H, Li XJ, Liu M, Li YS, and Tang HB

Abstract

NMDA, a molecule that is capable of producing the loss of retinal ganglia cells (RGCs), has been widely studied; however, the detailed mechanism is not yet clarified. Previously, Wnt/ β -catenin signaling has been suggested to be involved in the NMDA-induced retinopathy. In addition, previous investigations in our group demonstrated the presence of a Wnt/ β -catenin/COX-2 axis in dorsal root ganglions (DRGs). Therefore, here in this paper, we tested whether there is an association of such axis with NMDA-induced RGC loss. Rat retinal damage models generated by intravitreal injection of NMDA were used to measure the expression levels of β -catenin, COX-2, and VEGF in retinas, and the neuron numbers of the retinal GCL of rats were counted. Then, pharmacological tools (MK801, a NMDA receptor inhibitor; Dickkopf homolog 1, a specific inhibitor of the Wnt pathway; NS-398, a COX-2 inhibitor; and bevacizumab, IVB, a VEGF inhibitor) were introduced to evaluate the detailed roles of Wnt/ β -catenin, COX-2, and VEGF in retinopathy of rats. Results demonstrated that all three factors in sequence are positively regulated neuronal loss induced by NMDA. These observations indicated that the Wnt pathway/COX-2/VEGF axis plays a pathogenic role in retinopathy and represented novel therapeutic targets.

Published

2017

128. [Chemical constituents from ripe fruit of Cornus officinalis].

Author

Ye XS, He J, Zhang JL, Pang XB, Zhang L, Qiao HY, Pan XG, Zhang J, Liu SN, Zhang WK, and Xu JK

Subjects

Animals, Iridoid Glycosides chemistry, Iridoid Glycosides isolation & purification, PC12 Cells, Phytochemicals chemistry, Rats, Cornus chemistry, Fruit chemistry, Phytochemicals isolation & purification, Plant Extracts chemistry

Abstract

To investigate the chemical compounds from the fruit of Cornus officinalis, six compounds were isolated and determined by extensive spectroscopic analysis as 6'-O-acetyl-7α-O-ethyl morroniside (1), (-)-isolariciresinol 3α-O-β-D-glucopyranoside(2), apigenin (3), cirsiumaldehyde(4), p-coumaric acid (5), caffeic acid (6). Compound 1 was a new iridoid glucoside,and compounds 2-4 were obtained from the Cornus genus for the first time. Compounds 2-6 were evaluated for the viability of PC12 cells when exposed in conditions of oxygen and glucose deprivation. The MTT results showed that compound 4 increased cell viability moderately in OGD/R treated PC12 cells at the concentration of 1.0 μmol•L⁻¹., Competing Interests: The authors of this article and the planning committee members and staff have no relevant financial relationships with commercial interests to disclose., (Copyright© by the Chinese Pharmaceutical Association.)

Published

2016

129. Preparation and optical properties of Fe 3 O 4 nanoparticles-doped blue phase liquid crystal.

Author

He WL, Zhang WK, Xu H, Li LH, Yang Z, Cao H, Wang D, Zheng ZG, and Yang H

Abstract

The magnetic Fe 3 O 4 nanoparticle-doped blue phase liquid crystal (BPLC) was found to have a relatively strong contrast ratio in magnetic-addressed display performance compared to the composites in other phases; this is a new application of the BPLC and a way to prepare a new type of power-free magnetically-driven LC flexible display.

Published

2016

130. Soybean GmDREBL Increases Lipid Content in Seeds of Transgenic Arabidopsis.

Author

Zhang YQ, Lu X, Zhao FY, Li QT, Niu SL, Wei W, Zhang WK, Ma B, Chen SY, and Zhang JS

Subjects

Arabidopsis metabolism, Phylogeny, Plants, Genetically Modified, Promoter Regions, Genetic, Glycine max embryology, Glycine max genetics, Subcellular Fractions metabolism, Transcription Factors genetics, Transcriptional Activation, Arabidopsis genetics, Lipid Metabolism, Seeds metabolism, Glycine max metabolism, Transcription Factors metabolism

Abstract

A DREB-type transcription factor gene GmDREBL has been characterized for its functions in oil accumulation in seeds. The gene is specifically expressed in soybean seeds. The GmDREBL is localized in nucleus and has transcriptional activation ability. Overexpression of GmDREBL increased the fatty acid content in the seeds of transgenic Arabidopsis plants. GmDREBL can bind to the promoter region of WRI1 to activate its expression. Several other genes in the fatty acid biosynthesis pathway were also enhanced in the GmDREBL-transgenic plants. The GmDREBL can be up-regulated by GmABI3 and GmABI5. Additionally, overexpression of GmDREBL significantly promoted seed size in transgenic plants compared to that of WT plants. Expression of the DREBL is at higher level on the average in cultivated soybeans than that in wild soybeans. The promoter of the DREBL may have been subjected to selection during soybean domestication. Our results demonstrate that GmDREBL participates in the regulation of fatty acid accumulation by controlling the expression of WRI1 and its downstream genes, and manipulation of the gene may increase the oil contents in soybean plants. Our study provides novel insights into the function of DREB-type transcription factors in oil accumulation in addition to their roles in stress response.

Published

2016

131. Soybean miR172a Improves Salt Tolerance and Can Function as a Long-Distance Signal.

Author

Pan WJ, Tao JJ, Cheng T, Bian XH, Wei W, Zhang WK, Ma B, Chen SY, and Zhang JS

Subjects

MicroRNAs genetics, Salt Tolerance genetics, Signal Transduction drug effects, Signal Transduction genetics, Sodium Chloride pharmacology, Glycine max drug effects, MicroRNAs metabolism, Glycine max genetics

Published

2016

132. The transcriptomic signature of developing soybean seeds reveals the genetic basis of seed trait adaptation during domestication.

Author

Lu X, Li QT, Xiong Q, Li W, Bi YD, Lai YC, Liu XL, Man WQ, Zhang WK, Ma B, Chen SY, and Zhang JS

Subjects

Domestication, Genotype, Plants, Genetically Modified genetics, Quantitative Trait Loci genetics, Seeds genetics, Glycine max genetics, Transcriptome genetics

Abstract

Cultivated soybean has undergone many transformations during domestication. In this paper we report a comprehensive assessment of the evolution of gene co-expression networks based on the analysis of 40 transcriptomes from developing soybean seeds in cultivated and wild soybean accessions. We identified 2680 genes that are differentially expressed during seed maturation and established two cultivar-specific gene co-expression networks. Through analysis of the two networks and integration with quantitative trait locus data we identified two potential key drivers for seed trait formation, GA20OX and NFYA. GA20OX encodes an enzyme in a rate-limiting step of gibberellin biosynthesis, and NFYA encodes a transcription factor. Overexpression of GA20OX and NFYA enhanced seed size/weight and oil content, respectively, in seeds of transgenic plants. The two genes showed significantly higher expression in cultivated than in wild soybean, and the increases in expression were associated with genetic variations in the promoter region of each gene. Moreover, the expression of GA20OX and NFYA in seeds of soybean accessions correlated with seed weight and oil content, respectively. Our study reveals transcriptional adaptation during soybean domestication and may identify a mechanism of selection by expression for seed trait formation, providing strategies for future breeding practice., (© 2016 The Authors The Plant Journal © 2016 John Wiley & Sons Ltd.)

Published

2016

133. [Preparation and identification of Jujuboside A artificial antigen].

Author

Degeniee, Zhang WK, Qiao HY, Qu HH, Zhao Y, Wang QG, and Xu JK

Subjects

Animals, Enzyme-Linked Immunosorbent Assay, Mice, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Antigens chemistry, Saponins chemical synthesis

Abstract

Immunogenic antigen (jujuboside A-BSA) and coating antigen (jujuboside A-OVA) of jujuboside A were synthesized by sodium periodate oxidation method for the first time. Jujuboside A artificial antigen was confirmed by matrix-assisted laser desorption ionization/time-of-flight mass spectrometry (MALDI-TOF-MS). The titer and specificity of the antibody in serum of immunized mice were detected by enzyme-linked immunosorbent assay (ELISA). The corrected relation curve of inhibition rate showed that the antibody against Jujuboside A obtained from immunized mice could bind to jujuboside A and the titer was up to 1∶4 000. The jujuboside A artificial antigen was synthesized, which can be used further to preparation of monoclonal antibody and the pharmacokinetics study of jujuboside A in laboratory animals., Competing Interests: The authors of this article and the planning committee members and staff have no relevant financial relationships with commercial interests to disclose., (Copyright© by the Chinese Pharmaceutical Association.)

Published

2016

134. Nutmeg oil alleviates chronic inflammatory pain through inhibition of COX-2 expression and substance P release in vivo.

Author

Zhang WK, Tao SS, Li TT, Li YS, Li XJ, Tang HB, Cong RH, Ma FL, and Wan CJ

Abstract

Background: Chronic pain, or sometimes referred to as persistent pain, reduces the life quality of patients who are suffering from chronic diseases such as inflammatory diseases, cancer and diabetes. Hence, herbal medicines draw many attentions and have been shown effective in the treatment or relief of pain., Methods and Results: Here in this study, we used the CFA-injected rats as a sustainable pain model to test the anti-inflammatory and analgesic effect of nutmeg oil, a spice flavor additive to beverages and baked goods produced from the seed of Myristica fragrans tree., Conclusions: We have demonstrated that nutmeg oil could potentially alleviate the CFA-injection induced joint swelling, mechanical allodynia and heat hyperanalgesia of rats through inhibition of COX-2 expression and blood substance P level, which made it possible for nutmeg oil to be a potential chronic pain reliever.

Published

2016

135. [Distribution Characteristics, Sources and Pollution Assessment of Trace Elements in Surficial Sediments of the Coastal Wetlands, Northeastern Hainan Island].

Author

Zhang WK, Gan HY, Bi XY, and Wang JS

Subjects

China, Estuaries, Islands, Metals, Heavy analysis, Rivers, Environmental Monitoring, Geologic Sediments chemistry, Trace Elements analysis, Water Pollutants, Chemical analysis, Wetlands

Abstract

Totally 128 surficial sediments samples were collected from the coastal wetlands, northeastern Hainan Island and analyzed for their concentrations of 14 elements including Al2O3, Fe2O3, MnO, Cu, Ni, Sr, Zn, V, Pb, Cr, Zr, As, Cd and Hg, TOC and grain sizes. The mean concentrations of trace metals V, Cr, Ni, Cu, Zn, As, Pb, Cd and Hg were (40.13 +/- 32.65), (35.92 +/- 26.90), (13.03 +/- 11.46), (11.56 +/- 10.27)-, (48.75 +/- 27.00), (5.48 +/- 1.60), ( 18.70 +/- 8.66), (0.054 +/- 0.045 ), (0.050 +/- 0.050) microg x g(-1), respectively, which were much lower than those in Pearl River Estuary, Yangzi River Estuary, Bohai Bay, upper crust and average shale. The average concentrations of Sr and Zr were much higher, reaching up to (1253.60 +/- 1649.58) microg x g(-1) and (372.40 +/- 516.49) microg x g(-1), respectively. The spatial distribution patterns of Al2O3, Fe2O3, MnO, Cu, Ni, Zn, V, Pb, Cr, Cd and Hg concentrations were the same as each other except for those of As, Sr and Zr. Generally, relatively high concentrations of these elements only appeared in the Haikou Bay, Nandu estuary, Dongzhai Harbor, Qinglan Harbor and Xiaohai in study area. The factor analysis revealed that the trace elements Al2O3 Fe2O3, MnO, Cu, Ni, Zn, V, Pb, Cr and part of Hg were mainly originated from the rock material by natural weathering processes, while the Cd and a part of Hg were from the biological source controlled by TOC. As and part of MnO were influenced by anthropogenic source, especially by aquacultures. Zr and some MnO were derived from heavy minerals dominated by the coarse grain of sediments. In contrast to the ERL, ERM and the results of enrichment factors (EF) , the environment of study area was good in general and the degree of contamination by trace elements was low on the whole. However, there are still some places where anthropogenic input have caused serious enrichments of trace elements and the occasional adverse effect on benthic organism induced by Ni could probably occur in 22% areas of all the sampling stations.

Published

2016

136. Intervention of Grape Seed Proanthocyanidin Extract on the Subchronic Immune Injury in Mice Induced by Aflatoxin B1.

Author

Long M, Zhang Y, Li P, Yang SH, Zhang WK, Han JX, Wang Y, and He JB

Subjects

Animals, Body Weight drug effects, Immunoglobulin A blood, Immunoglobulin G blood, Immunoglobulin M blood, Inflammation blood, Inflammation pathology, Male, Mice, Spleen drug effects, Spleen pathology, Aflatoxin B1 adverse effects, Anti-Inflammatory Agents therapeutic use, Antioxidants therapeutic use, Grape Seed Extract therapeutic use, Inflammation chemically induced, Inflammation drug therapy, Proanthocyanidins therapeutic use

Abstract

The aim was to investigate the prevention of grape seed proanthocyanidin extract (GSPE) on the subchronic immune injury induced by aflatoxin B1 (AFB1) and the possible ameliorating effect of GSPE in mice. The subchronic AFB1-induced immune injury mice model was set up with the continuous administration of 100 μg/kg body weight (BW) AFB1 for six weeks by intragastric administration. Then, intervention with different doses (50 and 100 mg/kg BW) of GSPE was conducted on mice to analyze the changes of body weight, immune organ index, antioxidant capability of spleen, serum immunoglobulin content, and the expression levels of inflammatory cytokines. The prevention of GSPE on the immune injury induced by AFB1 was studied. The GSPE could relieve the AFB1-induced reduction of body weight gain and the atrophy of the immune organ. The malondialdehyde (MDA) level of the spleen in the AFB1 model group significantly increased, but levels of catalase (CAT), glutathione (GSH), glutathione peroxidase (GSH-P(X)), and superoxide dismutase (SOD) significantly decreased. The GSPE could significantly inhibit the oxidative stress injury of the spleen induced by AFB1. AFB1 exposure could not significantly change the contents of IgA, IgG, or IgM. AFB1 significantly improved the expression of interleukin 1β (IL-1β), IL-6, tumor necrosis factor α (TNF-α), and interferon γ (IFN-γ). Additionally, GSPE could decrease the expression of these four proinflammatory factors to different degrees and inhibit the inflammatory reaction of mice. The results suggest that GSPE alleviates AFB1-induced oxidative stress and significantly improves the immune injury of mice induced by AFB1.

Published

2016

137. Mechanosensitivity of wild-type and G551D cystic fibrosis transmembrane conductance regulator (CFTR) controls regulatory volume decrease in simple epithelia.

Author

Xie C, Cao X, Chen X, Wang D, Zhang WK, Sun Y, Hu W, Zhou Z, Wang Y, and Huang P

Subjects

Animals, CHO Cells, Cell Line, Tumor, Cell Size drug effects, Cricetinae, Cricetulus, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Epithelial Cells drug effects, Epithelial Cells metabolism, Humans, Hypotonic Solutions pharmacology, Ion Channel Gating drug effects, Ion Channel Gating genetics, Mechanoreceptors metabolism, Mice, Knockout, Mutation, Osmotic Pressure, Patch-Clamp Techniques, RNA Interference, Signal Transduction drug effects, Signal Transduction genetics, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Epithelial Cells physiology, Ion Channel Gating physiology, Mechanoreceptors physiology, Signal Transduction physiology

Abstract

Mutations of cystic fibrosis transmembrane conductance regulator (CFTR), an epithelial ligand-gated anion channel, are associated with the lethal genetic disease cystic fibrosis. The CFTR G551D mutation impairs ATP hydrolysis and thereby makes CFTR refractory to cAMP stimulation. Both wild-type (WT) and G551D CFTR have been implicated in regulatory volume decrease (RVD), but the underlying mechanism remains incompletely understood. Here, we show that the channel activity of both WT and G551D CFTR is directly stimulated by mechanical perturbation induced by cell swelling at the single-channel, cellular, and tissue levels. Hypotonicity activated CFTR single channels in cell-attached membrane patches and WT-CFTR-mediated short-circuit current (Isc) in Calu-3 cells, and this was independent of Ca(2+)and cAMP/PKA signaling. Genetic suppression and ablation but not G551D mutation of CFTR suppressed the hypotonicity- and stretch-inducedIscin Calu-3 cells and mouse duodena. Moreover, ablation but not G551D mutation of the CFTR gene inhibited the RVD of crypts isolated from mouse intestine; more importantly, CFTR-specific blockers markedly suppressed RVD in both WT- and G551D CFTR mice, demonstrating for the first time that the channel activity of both WT and G551D CFTR is required for epithelial RVD. Our findings uncover a previously unrecognized mechanism underlying CFTR involvement in epithelial RVD and suggest that the mechanosensitivity of G551D CFTR might underlie the mild phenotypes resulting from this mutation.-Xie, C., Cao, X., Chen, X, Wang, D., Zhang, W. K., Sun, Y., Hu, W., Zhou, Z., Wang, Y., Huang, P. Mechanosensitivity of wild-type and G551D cystic fibrosis transmembrane conductance regulator (CFTR) controls regulatory volume decrease in simple epithelia., (© FASEB.)

Published

2016

138. α-Pinene, linalool, and 1-octanol contribute to the topical anti-inflammatory and analgesic activities of frankincense by inhibiting COX-2.

Author

Li XJ, Yang YJ, Li YS, Zhang WK, and Tang HB

Subjects

1-Octanol chemistry, Acyclic Monoterpenes, Administration, Topical, Analgesics chemistry, Animals, Bicyclic Monoterpenes, Boswellia chemistry, Cyclooxygenase 2 Inhibitors chemistry, Edema chemically induced, Edema pathology, Edema prevention & control, Foot pathology, Gas Chromatography-Mass Spectrometry, Male, Mice, Monoterpenes chemistry, Skin pathology, 1-Octanol pharmacology, Analgesics pharmacology, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Cyclooxygenase 2 Inhibitors pharmacology, Frankincense chemistry, Monoterpenes pharmacology

Abstract

Ethnopharmacological Relevance: Frankincense oil and water extracts (FOE, FWE) have long been used for external treatment of inflammation and pain. The present study was conducted to identify the active ingredients responsible for the anti-inflammatory and analgesic effects and to determine the underlying mechanisms., Materials and Methods: The compositions of FOE and FWE were identified and compared by GC-MS. The anti-inflammatory and analgesic activities of the two extracts and their possible active ingredients (α-pinene, linalool, and 1-octanol) were evaluated and compared in a xylene-induced ear edema model and a formalin-inflamed hind paw model. Inflammatory infiltrates and cyclooxygenase-2 (COX-2) expression in hind paw skin were investigated by histological staining., Results: The contents of α-pinene, linalool, and 1-octanol in FOE were much higher than those in FWE. Mice treated with FOE exhibited greater and faster lessening of swelling and pain than mice treated with FWE. The combination of the three components had more potent pharmacological effects on hind paw inflammation and COX-2 overexpression than the three components used alone., Conclusions: These findings suggest that topical application of FOE or its active ingredients (including α-pinene, linalool, and 1-octanol) exhibit significantly anti-inflammatory and analgesic effects through inhibiting nociceptive stimulus-induced inflammatory infiltrates and COX-2 overexpression., (Copyright © 2015 Elsevier Ireland Ltd. All rights reserved.)

Published

2016

139. The Role of Ethylene in Plants Under Salinity Stress.

Author

Tao JJ, Chen HW, Ma B, Zhang WK, Chen SY, and Zhang JS

Abstract

Although the roles of ethylene in plant response to salinity and other stresses have been extensively studied, there are still some obscure points left to be clarified. Generally, in Arabidopsis and many other terrestrial plants, ethylene signaling is indispensable for plant rapid response and tolerance to salinity stress. However, a few studies showed that functional knock-out of some ACSs increased plant salinity-tolerance, while overexpression of them caused more sensitivity. This seems to be contradictory to the known opinion that ethylene plays positive roles in salinity response. Differently, ethylene in rice may play negative roles in regulating seedling tolerance to salinity. The main positive ethylene signaling components MHZ7/OsEIN2, MHZ6/OsEIL1, and OsEIL2 all negatively regulate the salinity-tolerance of rice seedlings. Recently, several different research groups all proposed a negative feedback mechanism of coordinating plant growth and ethylene response, in which several ethylene-inducible proteins (including NtTCTP, NEIP2 in tobacco, AtSAUR76/77/78, and AtARGOS) act as inhibitors of ethylene response but activators of plant growth. Therefore, in addition to a summary of the general roles of ethylene biosynthesis and signaling in salinity response, this review mainly focused on discussing (i) the discrepancies between ethylene biosynthesis and signaling in salinity response, (ii) the divergence between rice and Arabidopsis in regulation of salinity response by ethylene, and (iii) the possible negative feedback mechanism of coordinating plant growth and salinity response by ethylene.

Published

2015

140. Mouse hepatic neoplasm formation induced by trace level and low frequency exposure to diethylnitrosamine through β-catenin signaling pathway.

Author

Li YS, Leng CL, Chen MT, Zhang WK, Li XJ, Tang HB, Shang HC, and Zhu LH

Abstract

It has been reported that massive levels or/and high frequency exposure of diethylnitrosamine could induce hepatic neoplasm. However, it would be more interesting to figure out the hepatotoxic effects of diethylnitrosamine exposure at trace level and low frequency, which could be more common in our daily life. We found that both the mRNA and protein expression levels of β-catenin were aberrant in all liver tissues, accompanied by inflammation, steatosis, fibrosis and hepatic neoplasm after 10-week exposure of diethylnitrosamine (dissolved in sesame oil, 0.16 mmol per kg body weight) to mice. In addition, gradual increase in the mRNA expression of several pivotal risk factors (TNF-α, COX-2, PPAR-γ, AP-2, Smad-2, TGF-β1, and C-myc), as well as their protein expression levels, were associated with the aberrant expression or/and nucleus localization of β-catenin. Altogether, our results show that long-term diethylnitrosamine exposure at trace amounts and low frequency can also induce hepatotoxicity (including inflammation, steatosis and fibrosis) and consequently aberrant activation of β-catenin which in turn plays an important role in the initiation and promotion of liver tumors.

Published

2015

141. Gynura procumbens Reverses Acute and Chronic Ethanol-Induced Liver Steatosis through MAPK/SREBP-1c-Dependent and -Independent Pathways.

Author

Li XJ, Mu YM, Li TT, Yang YL, Zhang MT, Li YS, Zhang WK, Tang HB, and Shang HC

Subjects

Acute Disease therapy, Animals, Chronic Disease therapy, Disease Models, Animal, Fatty Liver chemically induced, Fatty Liver genetics, Fatty Liver metabolism, Humans, Male, Mitogen-Activated Protein Kinase Kinases genetics, Signal Transduction, Sterol Regulatory Element Binding Protein 1 genetics, Ethanol adverse effects, Fatty Liver drug therapy, Mitogen-Activated Protein Kinase Kinases metabolism, Sterol Regulatory Element Binding Protein 1 metabolism

Abstract

The present study aimed to evaluate the hepatoprotective effect and mechanism of action of Gynura procumbens on acute and chronic ethanol-induced liver injuries. Ethanol extract from G. procumbens stems (EEGS) attenuated acute ethanol-induced serum alanine aminotransferase levels and hepatic lipid accumulation. Therefore, EEGS was successively extracted by petroleum, ethyl acetate, and n-butyl alcohol. The results showed that the n-butyl alcohol extract was the active fraction of EEGS, and hence it was further fractionated on a polyamide glass column. The 60% ethanol-eluted fraction that contained 13.6% chlorogenic acid was the most active fraction, and its effect was further evaluated using a chronic model. Both the n-butyl alcohol extract and the 60% ethanol-eluted fraction inhibited chronic ethanol-induced hepatic lipid accumulation by modulating lipid metabolism-related regulators through MAPK/SREBP-1c-dependent and -independent signaling pathways and ameliorated liver steatosis. Our findings suggest that EEGS and one of its active ingredients, chlorogenic acid, may be developed as potential effective agents for ethanol-induced liver injury.

Published

2015

142. [Pharmacokinetics of salvianolic acid A after single intravenous administration in Rhesus monkey].

Author

Song JK, Zhang W, Zhang WK, Feng ZY, Xie T, and Du GH

Subjects

Administration, Intravenous, Animals, Chromatography, Liquid, Drugs, Chinese Herbal pharmacokinetics, Macaca mulatta, Mass Spectrometry, Plant Roots chemistry, Salvia miltiorrhiza chemistry, Caffeic Acids pharmacokinetics, Lactates pharmacokinetics

Abstract

Salvianolic acid A (Sal A) is one of the most effective compounds isolated from the root of Salvia miltiorrhiza. Up to now, several studies regarding the pharmacokinetic profiles of Sal A have been reported, however there is no such study reported in monkeys, the species which is more similar to human. The aim of this study is to develop a LC-MS method for the determination of Sal A in monkey plasma and apply it to the pharmacokinetic studies of monkeys. After single intravenous administration of Sal A, the plasma concentration-time curves were observed and the main pharmacokinetic parameters were calculated. The plasma concentration at 2 min (C2 (min)) values were (28.343 ± 6.426), (45.679 ± 12.301) and (113.293 ± 24.360) mg x L(-1) for Rhesus monkeys treated with Sal A at 2.5, 5 and 10 mg x kg(-1). The area under the concentration-time curve (AUC(0-∞)) values were (3.316 ± 0.871), (5.754 ± 2.150) and (13.761 ± 2.825) μg x L(-1) x h, respectively. Furthermore, this method was improved and applied to the simultaneous determination of Sal A, Sal B and Sal C, which provided useful information for preclinical studies and clinical trials of Sal A, Sal B and Sal C.

Published

2015

143. Tobacco Translationally Controlled Tumor Protein Interacts with Ethylene Receptor Tobacco Histidine Kinase1 and Enhances Plant Growth through Promotion of Cell Proliferation.

Author

Tao JJ, Cao YR, Chen HW, Wei W, Li QT, Ma B, Zhang WK, Chen SY, and Zhang JS

Subjects

Biomarkers, Tumor genetics, Cell Proliferation, Glutathione Transferase genetics, Glutathione Transferase metabolism, Histidine Kinase, Plant Proteins genetics, Protein Kinases genetics, Receptors, Cell Surface genetics, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Seedlings genetics, Seedlings growth & development, Seedlings metabolism, Nicotiana growth & development, Nicotiana metabolism, Tumor Protein, Translationally-Controlled 1, Two-Hybrid System Techniques, Biomarkers, Tumor metabolism, Ethylenes metabolism, Plant Growth Regulators metabolism, Plant Proteins metabolism, Protein Kinases metabolism, Receptors, Cell Surface metabolism, Nicotiana genetics

Abstract

Ethylene is an important phytohormone in the regulation of plant growth, development, and stress response throughout the lifecycle. Previously, we discovered that a subfamily II ethylene receptor tobacco (Nicotiana tabacum) Histidine Kinase1 (NTHK1) promotes seedling growth. Here, we identified an NTHK1-interacting protein translationally controlled tumor protein (NtTCTP) by the yeast (Saccharomyces cerevisiae) two-hybrid assay and further characterized its roles in plant growth. The interaction was further confirmed by in vitro glutathione S-transferase pull down and in vivo coimmunoprecipitation and bimolecular fluorescence complementation assays, and the kinase domain of NTHK1 mediates the interaction with NtTCTP. The NtTCTP protein is induced by ethylene treatment and colocalizes with NTHK1 at the endoplasmic reticulum. Overexpression of NtTCTP or NTHK1 reduces plant response to ethylene and promotes seedling growth, mainly through acceleration of cell proliferation. Genetic analysis suggests that NtTCTP is required for the function of NTHK1. Furthermore, association of NtTCTP prevents NTHK1 from proteasome-mediated protein degradation. Our data suggest that plant growth inhibition triggered by ethylene is regulated by a unique feedback mechanism, in which ethylene-induced NtTCTP associates with and stabilizes ethylene receptor NTHK1 to reduce plant response to ethylene and promote plant growth through acceleration of cell proliferation., (© 2015 American Society of Plant Biologists. All Rights Reserved.)

Published

2015

144. Study on the Adsorption Capacities for Airborne Particulates of Landscape Plants in Different Polluted Regions in Beijing (China).

Author

Zhang WK, Wang B, and Niu X

Subjects

Adsorption, Beijing, Environmental Monitoring, Air Pollutants chemistry, Particulate Matter chemistry, Plant Leaves chemistry, Trees

Abstract

Urban landscape plants are an important component of the urban ecosystem, playing a significant role in the adsorption of airborne particulates and air purification. In this study, six common landscape plants in Beijing were chosen as research subjects, and the adsorption capacities for each different plant leaf and the effects of the leaf structures for the adsorption capacities for particulates were determined. Preliminary results show that needle-leaved tree species adsorbed more airborne particulates than broad-leaved tree species for the same leaf area. Pinus tabuliformis exhibits the highest adsorption capacity, at 3.89 ± 0.026 μg·cm(-2), almost two times as much as that of Populus tomentosa (2.00 ± 0.118 μg·cm(-2)). The adsorption capacities for PM10 of the same tree species leaves, in different polluted regions had significant differences, and the adsorption capacities for PM10 of the tree species leaf beside the Fifth Ring Road were higher than those of the tree species leaves in the Botanical Garden, although the adsorption capacities for PM2.5 of the same tree species in different polluted regions had no significant differences. By determining the soluble ion concentrations of the airborne particulates in two regions, it is suggested that the soluble ion concentrations of PM10 in the atmosphere in the Botanical Garden and beside the Fifth Ring Road have significant differences, while those of PM2.5 in the atmosphere had no significant differences. In different polluted regions there are significant adaptive changes to the leaf structures, and when compared with slightly polluted region, in the seriously polluted region the epidermis cells of the plant leaves shrinked, the surface textures of the leaves became rougher, and the stomas' frequency and the pubescence length increased. Even though the plant leaves exposed to the seriously polluted region changed significantly, these plants can still grow normally and healthily.

Published

2015

145. [Chemical constituents from aerial part of Rehmannia glutinosa].

Author

Zhang Lei, Zou Y, Xu JK, Zhang J, Ye XS, Zhang WK, and Lin P

Subjects

Antineoplastic Agents, Phytogenic chemistry, Antineoplastic Agents, Phytogenic pharmacology, Cell Line, Tumor, Cell Proliferation drug effects, Drugs, Chinese Herbal pharmacology, Humans, Molecular Structure, Spectrometry, Mass, Electrospray Ionization, Triterpenes chemistry, Triterpenes pharmacology, Drugs, Chinese Herbal chemistry, Plant Components, Aerial chemistry, Rehmannia chemistry

Abstract

To investigate the chemical compounds from aerial part of Rehmannia glutinosa, six compounds were isolated and deter- mined by extensive spectroscopic analysis as(+)-(7S, 8S, 8'S)-9-O-[β-D-glucopyranoyl] asarininone(1), 2α,3β,19α,23-tetrahydroxy-olean-12-en-28-oic acid(2),7,3'-dihydroxyl-5'-methoxyisoflavone (3), aeginetic acid (4), corchorifattty acid B (5), pinellic acid (6). Among them, compound 1 was a new natural product. Compounds 2, 3 and 5 were obtained from the Rehmannia genus for the first time. In vitro study showed that none of the six compounds exhibited obvious activities to BEL-7402 and HCT-8 at the concentration of 10 mg x L(-1).

Published

2015

146. Three SAUR proteins SAUR76, SAUR77 and SAUR78 promote plant growth in Arabidopsis.

Author

Li ZG, Chen HW, Li QT, Tao JJ, Bian XH, Ma B, Zhang WK, Chen SY, and Zhang JS

Subjects

Amino Acid Sequence, Arabidopsis growth & development, Arabidopsis metabolism, Arabidopsis Proteins metabolism, Cotyledon genetics, Cotyledon growth & development, Cotyledon metabolism, Ethylenes pharmacology, Gene Expression Regulation, Developmental, Genetic Complementation Test, Genotype, Immunoprecipitation, Indoleacetic Acids pharmacology, Molecular Sequence Data, Phenotype, Plant Growth Regulators pharmacology, Proteasome Endopeptidase Complex genetics, Proteasome Endopeptidase Complex metabolism, Protein Binding, Protein Isoforms genetics, Protein Isoforms metabolism, Protein Stability, Proteolysis, Receptors, Cell Surface metabolism, Sequence Alignment, Signal Transduction, Arabidopsis genetics, Arabidopsis Proteins genetics, Ethylenes metabolism, Gene Expression Regulation, Plant, Indoleacetic Acids metabolism, Plant Growth Regulators metabolism, Receptors, Cell Surface genetics

Abstract

Ethylene perceived by a family of five receptors regulates many developmental processes in Arabidopsis. Here we conducted the yeast two-hybrid assay to screen for additional unidentified proteins that interact with subfamily II ethylene receptor ETR2. Three SAUR proteins, named SAUR76, 77 and 78, were identified to associate with both ETR2 and EIN4 in different assays. Interaction of SAUR76 and SAUR78 with ETR2 was further verified by co-immunoprecipitation and bimolecular fluorescence complementation (BiFC) assays. Expressions of SAUR76-78 are induced by auxin and ethylene treatments. Compared with wild type, SAUR-overexpressing plants exhibit reduced ethylene sensitivity, while SAUR-RNAi lines exhibit enhanced ethylene sensitivity. Overexpressing the three SAURs partially complements the phenotype of subfamily II ethylene receptor loss-of-function double mutant etr2-3ein4-4, which has increased ethylene response and small cotyledon and rosette. saur76 mutation partially suppresses the reduced ethylene sensitivity of etr2-2. SAUR76/78 proteins are regulated by 26S proteasome system and larger tag increases their protein stability. These findings suggest that SAUR76-78 may affect ethylene receptor signaling and promote plant growth in Arabidopsis.

Published

2015

147. GmWRKY27 interacts with GmMYB174 to reduce expression of GmNAC29 for stress tolerance in soybean plants.

Author

Wang F, Chen HW, Li QT, Wei W, Li W, Zhang WK, Ma B, Bi YD, Lai YC, Liu XL, Man WQ, Zhang JS, and Chen SY

Subjects

Genes, Plant, Plant Proteins genetics, Promoter Regions, Genetic, Protein Binding, Glycine max genetics, Glycine max physiology, Adaptation, Physiological, Plant Proteins metabolism, Glycine max metabolism, Stress, Physiological

Abstract

Soybean (Glycine max) is an important crop for oil and protein resources worldwide. The molecular mechanism of the abiotic stress response in soybean is largely unclear. We previously identified multiple stress-responsive WRKY genes from soybean. Here, we further characterized the roles of one of these genes, GmWRKY27, in abiotic stress tolerance using a transgenic hairy root assay. GmWRKY27 expression was increased by various abiotic stresses. Over-expression and RNAi analysis demonstrated that GmWRKY27 improves salt and drought tolerance in transgenic soybean hairy roots. Measurement of physiological parameters, including reactive oxygen species and proline contents, supported this conclusion. GmWRKY27 inhibits expression of a downstream gene GmNAC29 by binding to the W-boxes in its promoter region. The GmNAC29 is a negative factor of stress tolerance as indicated by the performance of transgenic hairy roots under stress. GmWRKY27 interacts with GmMYB174, which also suppresses GmNAC29 expression and enhances drought stress tolerance. The GmWRKY27 and GmMYB174 may have evolved to bind to neighbouring cis elements in the GmNAC29 promoter to co-reduce promoter activity and gene expression. Our study discloses a valuable mechanism in soybean for regulation of the stress response by two associated transcription factors. Manipulation of these genes should facilitate improvements in stress tolerance in soybean and other crops., (© 2015 The Authors The Plant Journal © 2015 John Wiley & Sons Ltd.)

Published

2015

148. Chemical constituents from twigs of Euonymus alatus.

Author

Zhang L, Zou Y, Ye XS, Zhang J, Zhang WK, and Li P

Subjects

Antineoplastic Agents, Phytogenic chemistry, Antineoplastic Agents, Phytogenic pharmacology, Cell Line, Tumor, Humans, Antineoplastic Agents, Phytogenic isolation & purification, Euonymus chemistry

Abstract

To investigate the chemical compounds from the twigs of Euonymus alatus, nine compounds were isolated and identified as(+)-delta(2,11)-enaminousnic acid(1), 11-keto-beta-boswellic acid(2), acetyl 11-keto-beta-boswellic acid(3), camaldulenic acid(4), betulinic acid(5), 6beta-hydroxy-stigmast-4-en-3-one(6), 5-hydroxy-6,7-dimethoxyflavone(7), ethyl 2,4-dihydroxy-6-methylbenzoate(8), 4,4'-dimethoxy-1,1'-biphenyl(9). Their structures were elucidated by extensive spectroscopic analysis. Among them, compound 1 was a new natural product. Compounds 2-4 and 7-9 were obtained from the Euonymus genus for the first time. In vitro study showed that compounds 2 and 3 showed significant anti-tumor activities to BEL-7402 and HCT-8 at the concentration of 10 mg x L(-1). The inhibition rate of compound 2 was 61.78% and 68.29%, whereas the inhibition rate of compound 3 had reached to 70.91% and 84.07%.

Published

2015

149. [Adsorption Capacity of the Air Particulate Matter in Urban Landscape Plants in Different Polluted Regions of Beijing].

Author

Zhang WK, Wang B, and Niu X

Subjects

Adsorption, China, Cities, Plant Leaves, Air Pollutants analysis, Environmental Monitoring, Particulate Matter analysis, Trees growth & development

Abstract

Urban landscape plants, as one of the important factors of the urban ecosystem, play an important role in stagnating airborne particulates and purifying urban atmospheric environment. In this article, six kinds of common garden plants were studied, and aerosol generator (QRJZFSQ-I) was used to measure the ability of their leaves to stagnate atmospheric particulates (TSP and PM2.5) in different polluted regions. Meanwhile, environmental scanning electron microscope was used to observe changes in the leaf structure of the tested tree species. The results showed: (1)Among the tested tree species, the ability of coniferous species to stagnate atmospheric particulates was higher than that of broad-leaved species per unit leaf area. Pinus tabuliformis stagnated the highest volume of (3. 89± 0. 026) µg . m-2, followed by Pinus bungeana of (2. 82 ± 0. 392) µg . cm-2, and Populus tomentosa stagnated the minimum of (2. 00 ± 0. 118) µg . cm-2; (2) Through observing the leaf microstructure morphology, coniferous species were found to have tightly packed stomas, stoma density and surface roughness higher than those of broad-leaved species, and they could also secrete oil; (3) In different polluted regions, the leaves of the same tree species showed significant difference in stagnating TSP. Per unit leaf area, the tree species leaves situated around the 5th Ring Road had higher ability to absorb TSP than the tree species leaves at Botanical Garden, while their abilities to absorb PM2.5 showed no significant difference; (4) In different polluted regions, significantly adaptive changes were found in leaf structure. Comparing to the region with light pollution, the outer epidermal cells of the plant leaves in region with heavy pollution shrank, and the roughness of the leaf skin textures as well as the stomatal frequency and villous length increased. In spite of the significant changes in plant leaves exposed to the heavy pollution, these plants could still maintain normal and healthy growth.

Published

2015

150. Up-Regulation of the Biosynthesis and Release of Substance P through Wnt/β-Catenin Signaling Pathway in Rat Dorsal Root Ganglion Cells.

Author

Li YS, Xi Y, Li XJ, Leng CL, Jia MM, Zhang WK, and Tang HB

Subjects

Animals, Cell Nucleus metabolism, Cells, Cultured, Cyclooxygenase 2 genetics, Cyclooxygenase 2 metabolism, Disease Models, Animal, Intracellular Space metabolism, Male, Peripheral Nerve Injuries genetics, Peripheral Nerve Injuries metabolism, Protein Transport, Rats, Transcription, Genetic, beta Catenin genetics, beta Catenin metabolism, Ganglia, Spinal cytology, Ganglia, Spinal metabolism, Substance P metabolism, Wnt Signaling Pathway

Abstract

To examine regulatory effects of β-catenin on the biosynthesis and release of substance P, a rat chronic constriction injury (CCI) model and a rat dorsal root ganglion (DRG) cell culture model were used in the present study. The CCI treatment significantly induced the overall expression of β-catenin (158 ± 6% of sham) in the ipsilateral L5 DRGs in comparison with the sham group (109 ± 4% of sham). The CCI-induced aberrant expression of β-catenin was significantly attenuated by oral administration of diclofenac (119 ± 6% of the sham value; 10 mg/kg). Importantly, aberrant nuclear accumulation of β-catenin in cultured DRG cells resulted in up-regulation of the PPT-A mRNA expression and the substance P release. The up-regulation of both the PPT-A mRNA expression and the substance P release by either a GSK-3β inhibitor TWS119 (10 μM) or a Wnt signaling agonist Wnt-3a (100 ng/ml) were significantly abolished by an inhibitor of cyclooxygenase-2 (COX-2; NS-398, 1 μM). Collectively, these data suggest that nociceptive input-activated β-catenin signaling plays an important role in regulating the biosynthesis and release of substance P, which may contribute to the inflammation responses related to chronic pain.

Published

2015