1.Effect of cytokines on the expression of cell adhesion molecule and on the adhesion of melanoma cells to endothelial cells.
Se Jong KIM ; Nam Soo KIM ; Jung Lim LEE
Journal of Korean Medical Science 1993;8(1):41-52
We examined the role of cell adhesion molecules (CAM) by which tumor cells bind to the endothelial cells using human umbilical vein endothelial cells (HUVEC) and cultured melanoma cells. Endothelial cells from human umbilical veins were isolated and examined for CAM expression and its modulation by tumor necrosis factor-alpha (TNF-alpha), interleukin-1 (IL-1), interleukin-6 (IL-6) or interferon-gamma (IFN-gamma). The expression of intercellular adhesion molecule 1 (ICAM-1) on HUVEC was increased by TNF-alpha, IL-1 and IFN-gamma when measured by ELISA or flow cytometric (FACS) analysis. IL-6 did not increase ICAM-1 expression on HUVEC. Two melanoma cell lines, Malme-3M and SK-Mel-28, showed increased expression of ICAM-1 after treatment with TNF-alpha, IL-1 and IFN-gamma in FACS analysis. IFN-gamma induced increased expression of HLA-DR only in SK-Mel-28 melanoma cells, not in Malme-3M melanoma cells. Neither HUVEC nor melanoma cells expressed lymphocyte function-associated antigen 1 (LFA-1) in either the basal (i.e., cytokine untreated) condition or the cytokine treated condition. Melanoma cells showed minimal increment in adhesion to TNF-alpha or IL-1 treated HUVEC than to cytokine untreated HUVEC. HUVEC and melanoma cells did not express LFA-1 and increased ICAM-1 expression by TNF-alpha, IL-1 and IFN-gamma treatment in FACS analysis did not coincide with minimal increase of melanoma cells adhesion to cytokine treated HUVEC. These results suggest that adhesion between melanoma cells and HUVEC is probably mediated by molecular interaction other than ICAM-1/LFA-1.
Cell Adhesion/drug effects
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Cell Adhesion Molecules/*analysis
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Cell Division/drug effects
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Cells, Cultured
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Cytokines/*pharmacology
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Endothelium, Vascular/cytology/*physiology
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HLA-DR Antigens/analysis
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Humans
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Intercellular Adhesion Molecule-1
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Lymphocyte Function-Associated Antigen-1/analysis
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Melanoma/*pathology
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Tumor Cells, Cultured
2.A study on the immunocytochemical localization of neurofascin in rat sciatic nerve.
Byung Joon CHANG ; Ik Hyun CHO ; Peter J BROPHY
Journal of Veterinary Science 2000;1(2):67-71
We examined the localization of neurofascin (NF) in the sciatic nerve of rat. In the myelinated fibers, neurofascin localizes strongly in the nodal axolemma except the small central cleft and also expresses in the paranodes, and weakly in the Schmidt-Lanterman incisures. In the paranodes, NF localizes around the axolemma and it expresses in the apposing membrane of paranodal loops. Axoplasm, compact myelin and cytoplasm of Schwann cell do not express NF at all. In the Schmidt-Lanterman incisures, NF is expressed weakly along the Schwann cell membrane. We propose that neurofascin may be a plasmalemmal integral protein of Schwann cell in the paranode and plays some important roles for the maintenance of axo-glial junctions at the paranode. It may also have some roles for maintaining the structure of Schmidt-Lanterman incisure and have some relations with proteins localizing in the node.
Animals
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Cell Adhesion Molecules/*analysis/physiology
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Fluorescent Antibody Technique
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Microscopy, Immunoelectron
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Nerve Growth Factors/*analysis/physiology
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Rats
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Rats, Sprague-Dawley
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Sciatic Nerve/*chemistry/ultrastructure
3.Biological characteristics of human adipose-derived stem cells and their response to periostin in vitro.
Ying LI ; Xin YANG ; Fang-fei NIE ; Xia ZHAO ; Ze-lian QIN ; Jian-ning LI
Chinese Medical Journal 2013;126(8):1491-1497
BACKGROUNDMany studies on periostin have focused on its role in tumors and vascular reconstruction. However, the effect of periostin on stem cell function remains unclear. The aim of this study was to enhance vitality in adipose-derived stem cells (ADSCs), the effect of periostin on the function of ADSCs was observed.
METHODSHuman ADSCs (hADSCs) were isolated from human adipose tissue by collagenase I digestion and collected in multi-periods for in vitro culture. CD29, CD34, CD44, CD45 and CD105 were detected by flow cytometry. In addition, directed differentiation of hADSCs was induced using adipogenic, osteogenic and chondrogenic induction mediums. The induced morphological changes were observed using oil red O, Alizarin red and alcian blue staining. Periostin was administered to hADSCs in an acidic environment. The treatments of cells were divided into three groups: a periostin group (P); an acidic control group (A); a normal group (N). Then the resulting cell proliferation and migration were detected using a Cell Counting Kit-8 (CCK-8) and a transwell chamber assay, respectively.
RESULTSThe detection rates of CD29, CD44, CD105, CD34 and CD45 were 98.89%, 93.73%, 86.99%, 0.19% and 0.16%. The specific staining of cells was positive after induction culture. The mean absorbance of the cells in group P and A at 12 hours were 16.67% and 22.22% greater than group N, respectively (P < 0.01). The mean absorbance of cells from group P was 20.00% greater than that of group A at 48 hours (P < 0.05). The mean number of migratory cells per visual field in group A was 50.38% lower than that in group N (P < 0.05). The migratory cell number in group P was 119.98% greater than that in group A (P < 0.05).
CONCLUSIONSThe acidic environment impacted hADSC proliferation and inhibited cell migration. However, periostin was able to promote the proliferation and migration of hADSCs despite the acidic environment.
Adipose Tissue ; cytology ; Adult ; Antigens, Surface ; analysis ; Cell Adhesion Molecules ; pharmacology ; Cell Differentiation ; drug effects ; Cell Movement ; drug effects ; Cell Proliferation ; drug effects ; Cells, Cultured ; Female ; Humans ; Stem Cells ; drug effects ; physiology
4.HLB-1 functions as a new regulator for the organization and function of neuromuscular junctions in nematode Caenorhabditis elegans.
Neuroscience Bulletin 2009;25(2):75-86
OBJECTIVETo study the role of HLB-1 in regulating the organization and function of neuromuscular junctions in nematode Caenorhabditis elegans.
METHODSTo evaluate the functions of HLB-1 in regulating the organization and function of neuromuscular junctions, effects of hlb-1 mutation on the synaptic structures were revealed by uncovering the expression patterns of SNB-1::GFP and UNC-49::GFP, and pharmacologic assays with aldicarb and levamisole were also used to test the synaptic functions. Further rescue and mosaic analysis confirmed HLB-1's role in regulating the organization and function of neuromuscular junctions.
RESULTSLoss of HLB-1 function did not result in defects in neuronal outgrowth or neuronal loss, but caused obvious defects of SNB-1::GFP and UNC-49::GFP puncta localization, suggesting the altered presynaptic and postsynaptic structures. The mutant animals exhibited severe defects in locomotion behaviors and altered responses to an inhibitor of acetylcholinesterase and a cholinergic agonist, indicating the altered presynaptic and postsynaptic functions. Rescue and mosaic analysis experiments suggested that HLB-1 regulated synaptic functions in a cell nonautonomously way. Moreover, HLB-1 expression was not required for the presynaptic active zone morphology. Genetic evidence further demonstrated that hlb-1 acted in a parallel pathway with syd-2 to regulate the synaptic functions.
CONCLUSIONHLB-1 appeared as a new regulator for the organization and function of neuromuscular junctions in C. elegans.
Age Factors ; Amino Acid Motifs ; physiology ; Analysis of Variance ; Animals ; Animals, Genetically Modified ; Animals, Newborn ; Behavior, Animal ; physiology ; Caenorhabditis elegans ; Caenorhabditis elegans Proteins ; genetics ; metabolism ; physiology ; Carrier Proteins ; metabolism ; Cell Adhesion Molecules ; genetics ; physiology ; Green Fluorescent Proteins ; genetics ; Locomotion ; genetics ; Mutation ; physiology ; Neuromuscular Junction ; genetics ; physiology ; Phosphoproteins ; genetics ; physiology
5.Bone morphogenetic protein-2 gene controls tooth root development in coordination with formation of the periodontium.
Audrey RAKIAN ; Wu-Chen YANG ; Jelica GLUHAK-HEINRICH ; Yong CUI ; Marie A HARRIS ; Demitri VILLARREAL ; Jerry Q FENG ; Mary MACDOUGALL ; Stephen E HARRIS
International Journal of Oral Science 2013;5(2):75-84
Formation of the periodontium begins following onset of tooth-root formation in a coordinated manner after birth. Dental follicle progenitor cells are thought to form the cementum, alveolar bone and Sharpey's fibers of the periodontal ligament (PDL). However, little is known about the regulatory morphogens that control differentiation and function of these progenitor cells, as well as the progenitor cells involved in crown and root formation. We investigated the role of bone morphogenetic protein-2 (Bmp2) in these processes by the conditional removal of the Bmp2 gene using the Sp7-Cre-EGFP mouse model. Sp7-Cre-EGFP first becomes active at E18 in the first molar, with robust Cre activity at postnatal day 0 (P0), followed by Cre activity in the second molar, which occurs after P0. There is robust Cre activity in the periodontium and third molars by 2 weeks of age. When the Bmp2 gene is removed from Sp7(+) (Osterix(+)) cells, major defects are noted in root, cellular cementum and periodontium formation. First, there are major cell autonomous defects in root-odontoblast terminal differentiation. Second, there are major alterations in formation of the PDLs and cellular cementum, correlated with decreased nuclear factor IC (Nfic), periostin and α-SMA(+) cells. Third, there is a failure to produce vascular endothelial growth factor A (VEGF-A) in the periodontium and the pulp leading to decreased formation of the microvascular and associated candidate stem cells in the Bmp2-cKO(Sp7-Cre-EGFP). Fourth, ameloblast function and enamel formation are indirectly altered in the Bmp2-cKO(Sp7-Cre-EGFP). These data demonstrate that the Bmp2 gene has complex roles in postnatal tooth development and periodontium formation.
Actins
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analysis
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Activating Transcription Factor 2
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genetics
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Age Factors
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Ameloblasts
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pathology
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Amelogenesis
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genetics
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Animals
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Bone Morphogenetic Protein 2
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genetics
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Cell Adhesion Molecules
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analysis
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Cell Differentiation
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genetics
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Cementogenesis
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genetics
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Dental Cementum
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pathology
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Dental Pulp
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blood supply
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Fluorescent Dyes
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Green Fluorescent Proteins
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Male
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Mice
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Mice, Knockout
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Microvessels
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pathology
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Molar
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growth & development
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Molar, Third
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growth & development
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NFI Transcription Factors
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analysis
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Odontoblasts
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pathology
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Odontogenesis
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genetics
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Periodontal Ligament
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growth & development
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Sp7 Transcription Factor
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Stem Cells
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physiology
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Tooth Root
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growth & development
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Transcription Factors
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genetics
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Vascular Endothelial Growth Factor A
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analysis
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Zinc Fingers
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genetics