7 results on '"Lijuan Zhang"'
Search Results
2. The outer-membrane protein TolC of Vibrio cholerae serves as a second cell-surface receptor for the VP3 phage.
- Author
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Fenxia Fan, Xu Li, Bo Pang, Cheng Zhang, Zhe Li, Lijuan Zhang, Jie Li, Jingyun Zhang, Meiying Yan, Weili Liang, and Biao Kan
- Subjects
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MEMBRANE proteins , *VIBRIO cholerae , *CELL receptors , *PROTEIN binding , *LIPOPOLYSACCHARIDES , *GENETIC mutation - Abstract
Receptor recognition is a key step in the initiation of phage infection. Previously, we found that VP3, the T7 family phage of the Vibrio cholerae serogroup O1 biotype El Tor, can adsorb the core oligosaccharide (OS) of lipopolysaccharides of V. cholerae. However, some wildtype strains of V. cholerae possessing the intact OS gene cluster still have VP3 binding but are resistant to VP3 infection. Moreover, an OS gene-deletion mutant still exhibits weak VP3 binding, suggesting multiple factors are possibly involved in VP3 binding to V. cholerae. Here, we report that the outer-membrane protein TolC of V. cholerae is involved in the host adsorption of VP3. We observed that TolC directly interacts with the VP3 tail fiber protein gp44 and its C-terminal domains, and we also found that three amino acid residues in the outside loops of TolC, at positions 78, 290, and 291, are critical for binding to gp44. Among the VP3-resistant wildtype V. cholerae strains, frequent amino acid residue mutations were observed in the loops around the sites 78, 290, and 291, which were predicted to be exposed to the cell surface. These findings reveal a co-receptor-binding mechanism for VP3 infection of V. cholerae and that both outer-membrane TolC and OS are necessary for successful VP3 infection of V. cholerae. We conclude that mutations on the outside loops of the receptor may confer V. cholerae strains with VP3 phage resistance, enabling these strains to survive in environments containing VP3 or related phages. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
3. Heparan Sulfate Modification of the Transmembrane Receptor CD47 Is Necessary for Inhibition of T Cell Receptor Signaling by Thrombospondin-1.
- Author
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Kaur, Sukhbir, Kuznetsova, Svetlana A., Pendrak, Michael L., Sipes, John M., Romeo, Martin J., Zhuqing Li, Lijuan Zhang, and Roberts, David D.
- Subjects
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CELL membranes , *PROTEOGLYCANS , *T cells , *RETROVIRUS diseases , *HEPARIN , *AMYLOID - Abstract
Cell surface proteoglycans on T cells contribute to retroviral infection, binding of chemokines and other proteins, and are necessary for some T cell responses to the matricellular glycoprotein thrombospondin-1. The major cell surface proteoglycans expressed by primary T cells and Jurkat T cells have an apparent Mr> 200,000 and are modified with chondroitin sulfate and heparan sulfate chains. Thrombospondin-1 bound in a heparin-inhibitable manner to this proteoglycan and to a soluble form released into the medium. Based on mass spectrometry, knockdown, and immunochemical analyses, the proteoglycan contains two major core proteins as follows: amyloid precursor-like protein-2 (APLP2, apparent Mr 230,000) and CD47 (apparent Mr > 250,000). CD47 is a known thrombospon- din-i receptor but was not previously reported to be a proteoglycan. This proteoglycan isoform of CD47 is widely expressed on vascular cells. Mutagenesis identified glycosamino-glycan modification of CD47 at Ser64 and Ser79. Inhibition of T cell receptor signaling by thrombospondin-1 was lost in CD47-deficient T ceib that express the proteoglycan isoform of APLP2, indicating that binding to APLP2 is not sufficient. Inhibition of CD69 induction was restored in CD47-deficient cells by re-expressing CD47 or an S79A mutant but not by the S64A mutant. Therefore, inhibition of T cell receptor signaling by thrombospondin-1 is mediated by CD47 and requires its modification at Ser64, [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
4. Chemically Oversulfated Glycosaminoglycans Are Potent Modulators of Contact System Activation and Different Cell Signaling Pathways.
- Author
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Jing Pan, Yi Qian, Xiaodong Zhou, Hong Lu, Ramacciotti, Eduardo, and Lijuan Zhang
- Subjects
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STRUCTURE-activity relationships , *GLYCOSAMINOGLYCANS , *ENZYME activation , *CHEMICAL structure , *HEPARIN , *CELL lines - Abstract
Contaminated heparin was associated with adverse reactions by activating the contact system. Chemically oversulfated/modified glycosaminoglycans (GAGs) consisting of heparan sulfate, dermatan sulfate, and chondroitin sulfate have been identified as heparin contaminants. Current studies demonstrated that each component of oversulfated GAGs was comparable with oversulfated chondroitin sulfate in activating the contact system. By testing a series of unrelated negatively charged compounds, we found that the contact system recognized negative charges rather than specific chemical structures. We further tested how oversulfated GAGs and contaminated heparins affect different cell signaling pathways. Our data showed that chemically oversulfated GAGs and contaminated heparin had higher activity than the parent compounds and authentic heparin, indicative of sulfation-dominant and GAG sequence-dependent activities in BaF cell-based models of fibroblast growth factor/fibroblast growth factor receptor, glial cell line-derived neurotrophic factor/c-Ret, and hepatocyte growth factor/c-Met signaling. In summary, these data indicate that contaminated heparins intended for blood anticoagulation not only activated the contact system but also modified different GAG-dependent cell signaling pathways. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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5. Human Follicular Fluid Heparan Sulfate Contains Abundant 3-O-Sulfated Chains with Anticoagulant Activity*.
- Author
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de Agostini, Ariane I., Ji-Cui Dong, de Vantéry Arrighi, Corinne, Ramus, Marie-Andrée, Dentand-Quadri, Isabelle, Thalmann, Sébastien, Ventura, Patricia, Ibecheole, Victoria, Monge, Felicia, Fischer, Anne-Marie, Mohammadi, Sassan Haj, Shworak, Nicholas W., Lijuan Zhang, Zhenqing Zhang, and Linhardt, Robert J.
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PROTEOGLYCANS , *HEPARIN , *SULFATES , *ANTITHROMBINS , *ANTICOAGULANTS , *OVARIAN atresia , *GLUCOSAMINE , *PROTEIN binding - Abstract
Anticoagulant heparan sulfate proteoglycans bind and activate antithrombin by virtue of a specific 3-O-sulfated pentasaccharide. They not only occur in the vascular wall but also in extravascular tissues, such as the ovary, where their functions remain unknown. The rupture of the ovarian follicle at ovulation is one of the most striking examples of tissue remodeling in adult mammals. It involves tightly controlled inflammation, proteolysis, and fibrin deposition. We hypothesized that ovarian heparan sulfates may modulate these processes through interactions with effector proteins. Our previous work has shown that anticoagulant heparan sulfates are synthesized by rodent ovarian granulosa cells, and we now have set out to characterize heparan sulfates from human follicular fluid. Here we report the first anticoagulant heparan sulfate purified from a natural human extravascular source. Heparan sulfate chains were fractionated according to their affinity for antithrombin, and their structure was analyzed by 1H NMR and MS/MS. We find that human follicular fluid is a rich source of anticoagulant heparan sulfate, comprising 50.4% of total heparan sulfate. These antithrombin-binding chains contain more than 6% 3-Osulfated glucosamine residues, convey an anticoagulant activity of 2.5 IU/ml to human follicular fluid, and have an anti-Factor Xa specific activity of 167 IU/mg. The heparan sulfate chains that do not bind antithrombin surprisingly exhibit an extremely high content in 3-O-sulfated glucosamine residues, which suggest that they may exhibit biological activities through interactions with other proteins. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
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6. Inhibition or Activation of Apert Syndrome FGFR2 (S252W) Signaling by Specific Glycosaminoglycans.
- Author
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Mcdoweill, Lynda M., Frazier, Beth A., Studelska, Daniel R., Giljum, Kari, Jinghua Chen, Jian Liu, Kai Yu, Ornitz, David M., and Lijuan Zhang
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APERT syndrome , *CRANIOSYNOSTOSES , *AMINO acids , *ORGANIC acids , *GENETIC mutation , *FIBROBLAST growth factors , *GROWTH factors - Abstract
Most Apert syndrome patients harbor a single amino acid mutation (S252W) in fibroblast growth factor (FGF) receptor 2 (FGFR2), which leads to abnormal FGF/FGFR2 signaling. Here we show that specific combinations of FGFs and glycosaminoglycans activate both alternative splice forms of the mutant but not of the wild-type FGF receptors. More importantly, 2-O- and N-sulfated heparan sulfate, prepared by a combined chemical and enzymatic synthesis, antagonized the over-activated FGFR2b (S252W) to basal levels at nanomolar concentrations. These studies demonstrated that specific glycosaminoglycans could be useful in treating ligand-dependent FGFR signaling-related diseases, such as Apert syndrome and cancer. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
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7. Tropoelastin Interacts with Cell-surface Glycosaminoglycans via Its COOH-terminal Domain.
- Author
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Broekelmann, Thomas J., Kozel, Beth A., Ishibashi, Hideaki, Werneck, Claudio C., Keeley, Fred W., Lijuan Zhang, and Mecham, Robert P.
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CELL communication , *ELASTIN , *CARRIER proteins , *ADHESION , *CELL adhesion , *GLYCOSAMINOGLYCANS , *BIOSYNTHESIS - Abstract
Using a biochemical and cell biological approach, we have identified a cell interaction site at the carboxyl terminus of tropoelastin. Cell interactions with the COOH-terminal sequence are not through the elastin-binding protein (EBP67) because neither VGVAPG-like peptides nor galactoside sugars altered adhesion. Our results also show that cell adhesion to tropoelastin is not promoted by integrins. Through the use of mutant Chinese hamster ovary cell lines defective in glycosaminoglycan biosynthesis, as well as competition studies and enzymatic removal of specific cell-surface glycosaminoglycans, the tropoelastin-binding moieties on the cell surface were identified as heparan and chondroitin sulfate-containing glycosaminoglycans, with heparan sulfate being greatly preferred. Heparin affinity chromatography combined with cell adhesion assays identified the last 17 amino acids as the sequence element at the carboxyl terminus of tropoelastin responsible for the adhesive activity. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
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