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Query: UMLS:C0001511 (Adhesion)
 5,955 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adhesion of baby hamster kidney fibroblasts (BHK cells) to a Falcon tissue culture flask was measured under various physiological conditions. While 75-80% of the fibroblasts adhere at temperatures from 19-50 degrees, cellular adhesion decreased dramatically below 19 degrees. Less than 10% of the cells adhere to the substratum even after prolonged incubations at temperatures of 8 degrees or below. This lack of adhesion at low temperatures cannot be overcome by the application of increased gravitational force to the cells. No correlation exists between cellular ATP concentrations or respiration rates and the rate of cell adhesion to the substratum. One millimolar Na F and 1 mM 2,4 dinitrophenol together lower cellular ATP concentration by 95% but adhesion is reduced by only 50%. NaN3 and KCN greatly lower cellular ATP concentrations without a corresponding inhibition of adhesion. Inhibition of cellular respiration by these compounds occurs at lower concentrations than does the inhibition of adhesion. Two micrograms/milliliters of cytochalasin B inhibits adhesion by 90%, 0.1 mM vinblastine sulphate or colchicine by less than 50% and 50 microgram/ml colcemid by less than 30%. Fixing the cells with formaldehyde, hardening their membranes with ZnCl2 or treating the cells with toluene, all cause an inhibition in adhesion. Again, application of increased gravitational force cannot overcome these latter inhibitions of BHK cell adhesion to the surface of the flasks.
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PMID:Effects of temperature, metabolic and cytoskeletal inhibitors on the rate of BHK cell adhesion to polystyrene. 56 Oct 77

Adhesion of platelets to collagen fibrils in a stirred system was inhibited by preincubation of platelets with combinations of 2-deoxy-D-glucose and oligomycin or antimycin. The inhibition of adhesion was associated with a decrease in metabolic ATP to 6% of control levels. Without metabolic inhibitors, platelets adherent to collagen fibrils were found to have catabolized approximately 57% of their metabolic ATP, and converted a major part of this to IMP. Storage pool ATP and ADP contents were also diminished in the adherent platelets. Pretreatment with imipramine resulted in 76% inhibition of the release reaction, but only 5% inhibition of adhesion. Imipramine-treated platelets that were adherent to collagen showed significant depletion of metabolic ATP, but markedly diminished conversion of ATP to IMP as compared to control adherent platelets. Inhibition of deamination of platelet AMP by coformycin or erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA) did not inhibit adhesion, although platelets adherent to collagen after treatment with these agents showed depletion of metabolic ATP. These studies suggest that adhesion is an energy dependent process, occurring independently of release, and not associated with conversion of ATP to IMP. The energy dependent portions of the adhesion process are probably disc to sphere transformation and pseudopod formation, the ATP threhold requirement is relatively low, and the ATP utilized can probably be regenerated during the adhesion process via glycolysis and oxidative phosphorylation.
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PMID:Relationships of adenine nucleotide metabolism to platelet-collagen adhesion. 58 Sep 88

1. A mesodermal stem cell line C3H10T1/2 was induced to differentiate to muscle by adding 0.3 microM-5-aza-2'-deoxy-cytidine to the medium for 24 h. The changes in membrane currents during differentiation were studied by whole-cell recording and changes in the expression of fibronectin, Neural Cell Adhesion Molecule (NCAM), myosin and desmin were studied immunohistochemically. 2. The stem cells showed the morphology of fibroblastic cells. Most of the stem cells showed ATP-induced slow K+ current. T-type Ca2+ current and inward rectifier K+ current were observed in 19% of the stem cells. The stem cells expressed fibronectin, but not NCAM, myosin or desmin. 3. About 2 weeks after the addition of 5-aza-2'-deoxy-cytidine, large multinucleated skeletal muscle-like cells appeared. Most of the induced muscles showed L-type Ca2+ current, responses to acetylcholine, outward K+ current, inward rectifier K+ current and contraction upon depolarizing stimulation. They expressed NCAM, myosin and desmin, but not fibronectin, and showed no ATP response. 4. In some batches (2/14), the induced muscles showed spontaneous twitches, and possessed tetrodotoxin (TTX)-sensitive Na+ current in addition to the currents described above. Furthermore clear striation was observed in some of the twitching muscles under Nomarski optics. 5. To ascertain the properties of cells at the initial step of muscle differentiation, whose differentiation is determined but not yet evident morphologically or electrophysiologically, subcloning was performed from the heterogeneous cells 10 days after induction. Three myogenic clones were obtained, which proliferated at low cell densities but differentiated to muscle with a high incidence at high cell densities, as well as ten non-myogenic clones. 6. Most myogenic clones still showed ATP-induced K+ current and fibronectin. In addition, most of them showed T-type Ca2+ current and inward rectifier K+ current. They had already expressed NCAM. No other properties observed in muscles had yet been expressed. Most cells of the non-myogenic clones showed ATP-induced K+ current and fibronectin. T-type Ca2+ current was also expressed, but not inward rectifier K+ current or NCAM. 7. The properties of the observed ionic currents were studied. The TTX-sensitive Na+ current could be completely blocked by 0.1 microM-TTX. It could be evoked by depolarizing steps to a level above -40 mV, while steady-state inactivation was detectable around -75 mV and reached half by -52 mV. T-type Ca2+ current could be evoked by a depolarizing pulse to a level above -45 mV, with a maximum amplitude around -15 mV.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Electrophysiological and immunohistochemical analysis of muscle differentiation in a mouse mesodermal stem cell line. 166 64

1. Electrophysiological and immunohistochemical properties during the early stages of muscle differentiation were studied in two myoblastic cell lines, mouse C2C12 and rat L6, and compared to those in myogenic clonal cells derived from the mouse mesodermal stem cell line C3H10T1/2, studied in the preceding paper. 2. Mouse C2C12 cells were induced to differentiate to muscle by changing from 10% fetal calf serum to 2% horse serum in the medium. Most of the C2C12 cells before serum reduction showed ATP-induced slow K+ current. Twelve per cent showed inward rectifier K+ current. They expressed fibronectin and Neural Cell Adhesion Molecule (NCAM). Small spindle-shaped cells at an early stage of muscle differentiation began to appear 24 h after serum reduction. In contrast to cells before serum reduction, only 13% of these spindle-shaped cells showed an ATP response. Most showed tetrodotoxin (TTX)-resistant Na+ current and outward K+ current. Thirty-eight per cent had inward rectifier K+ current. They expressed NCAM but not fibronectin. The T-type Ca2+ current was not observed up to the latest stage of differentiation investigated. 3. Rat L6 cells in maintaining culture medium showed only infrequent ATP responses, but already showed TTX-resistant Na+ current. No clear T-type Ca2+, inward rectifier K+ or outward K+ currents were observed. About one-third of the cells did not express fibronectin. From these results, L6 cells appear to be at a stage near to but slightly earlier than that of C2C12 cells after serum reduction. 4. The properties of the early stages of muscle differentiation in C3H10T1/2 cells, such as the disappearance of ATP-induced K+ current and fibronectin, and the appearance of NCAM, were also seen in C2C12 and L6. However, T-type Ca2+ and inward K+ currents, which were found in the initial stages of C3H10T1/2 muscle differentiation, were not clearly observed in C2C12 and L6. Instead, C2C12 and L6 showed a TTX-resistant Na+ current which was never observed in C3H10T1/2 cells. 5. The properties of the TTX-resistant Na+ current were investigated. In L6 cells, it was reduced to 60% by 1 microM-TTX. It could be evoked by depolarizations to a level above -50 mV with a maximum amplitude at around -15 mV. Steady-state inactivation was detectable with pre-pulses to -100 mV for 100 ms and reached half at pre-pulses of -78 mV. These parameters of inactivation are clearly different from those of the TTX-sensitive Na+ current observed in C3H10T1/2-derived mature muscle cells in the preceding paper.
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PMID:Comparison of initial stages of muscle differentiation in rat and mouse myoblastic and mouse mesodermal stem cell lines. 179 50

A novel inhibitor of receptor-mediated calcium entry (RMCE) is described. SK&F 96365 (1-(beta-[3-(4-methoxy-phenyl)propoxy]-4-methoxyphenethyl)-1H- imidazole hydrochloride) is structurally distinct from the known 'calcium antagonists' and shows selectivity in blocking RMCE compared with receptor-mediated internal Ca2+ release. Human platelets, neutrophils and endothelial cells were loaded with the fluorescent Ca2(+)-indicator dyes quin2 or fura-2, in order to measure Ca2+ or Mn2+ entry through RMCE as well as Ca2+ release from internal stores. The IC50 (concn. producing 50% inhibition) for inhibition of RMCE by SK&F 96365 in platelets stimulated with ADP or thrombin was 8.5 microM or 11.7 microM respectively; these concentrations of SK&F 96365 did not affect internal Ca2+ release. Similar effects of SK&F 96365 were observed in suspensions of neutrophils and in single endothelial cells. SK&F 96365 also inhibited agonist-stimulated Mn2+ entry in platelets and neutrophils. The effects of SK&F 96365 were independent of cell type and of agonist, as would be expected for a compound that modulates post-receptor events. Voltage-gated Ca2+ entry in fura-2-loaded GH3 (pituitary) cells and rabbit ear-artery smooth-muscle cells held under voltage-clamp was also inhibited by SK&F 96365; however, the ATP-gated Ca2(+)-permeable channel of rabbit ear-artery smooth-muscle cells was unaffected by SK&F 96365. Thus SK&F 96365 (unlike the 'organic Ca2+ antagonists') shows no selectivity between voltage-gated Ca2+ entry and RMCE, although the lack of effect on ATP-gated channels indicates that it discriminates between different types of RMCE. The effects of SK&F 96365 on functional responses of cells thought to be dependent on Ca2+ entry via RMCE were also studied. Under conditions where platelet aggregation is dependent on stimulated Ca2+ entry via RMCE, the response was blocked by SK&F 96365 with an IC50 of 15.9 microM, which is similar to the IC50 of 8-12 microM observed for inhibition of RMCE. Adhesion and chemotaxis of neutrophils were also inhibited by SK&F 96365. SK&F 96365 is a useful tool to distinguish RMCE from internal Ca2+ release, and to probe the role of RMCE in mediating functional responses of cells. However, SK&F 96365 is not as potent (IC50 around 10 microM) or selective (also inhibits voltage-gated Ca2+ entry) as would be desirable, so caution must be exercised when using this compound.
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PMID:SK&F 96365, a novel inhibitor of receptor-mediated calcium entry. 217 65

Platelet glycoprotein VI (GPVI), a 62kD membrane protein, has been identified as one of the platelet receptors for collagen, since GPVI-deficient platelets exhibit abnormal responses to collagen and an abnormal bleeding tendency. We report a female patient with a mild bleeding history whose platelets expressed 10% GPVI of normal platelets. Shape change, aggregation and ATP release of the patient's platelets were completely absent in response to 1-5 micrograms/ml collagen but present normally in response to ADP and Ca2+ ionophore A23187. Adhesion of the patient's platelets to coated collagen was mildly affected (40-60% of normal platelets) in spite of only 10% expression of GPVI. Flow cytometrical studies revealed that the patient's platelets expressed normal amounts of the GPIa/IIa complex. These results suggest that platelet GPVI is less involved in adhesion to collagen than shape change and aggregation induced by collagen.
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PMID:Platelets with 10% of the normal amount of glycoprotein VI have an impaired response to collagen that results in a mild bleeding tendency. 753 Apr 76

In this study, the effects of platelet release products (PRPr), ATP, and ADP on the adhesion of human neutrophils to human umbilical vein endothelial cells (HUVEC) and nylon fibers (NF) are described and the implications of various adhesion molecules are considered. Adhesion of neutrophils to HUVEC and NF was increased by PRPr, ATP, and ADP, while their adhesion-increasing actions were cancelled or considerably repressed by apyrase treatment. When anti-CD11a or anti-CD11b was added to neutrophils with PRPr, ATP, or ADP, the adhesion-increasing action was cancelled or considerably repressed. On the other hand, anti-ICAM-1 and anti-CD35 had no significant effects on this action. The above results indicated that platelets, through ATP and ADP in PRPr, increased the adhesion of neutrophils to endothelial cells and foreign bodies. Although it was suggested that the adhesion-increasing action was at least partially based on CD11a and CD11b, ICAM-1 and CD35 had no part in the enhancement of the adhesion.
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PMID:Effects of released products from platelets on neutrophilic adhesion to endothelial cells and nylon fibers. 869 26

Adhesion of platelets to extracellular matrix via von Willebrand factor (vWF) and activation of platelets by thrombin are critical steps in hemostasis. Glycoprotein (GP) V is a component of the GPIb-V-IX complex, the platelet receptor for vWF. GPV is also cleaved by thrombin. Deficiency of GPIb or GPIX results in Bernard-Soulier syndrome (BSS), a bleeding disorder in which platelets are giant and have multiple functional defects. Whether GPV-deficiency might also cause BSS is unknown as are the roles of GPV in platelet-vWF interaction and thrombin signaling. We report that GPV-deficient mice developed normally, had no evidence of spontaneous bleeding, and had tail bleeding times that were not prolonged compared with wild-type mice. GPV-deficient platelets were normal in size and structure as assessed by flow cytometry and electron microscopy. GPV-deficient and wild-type platelets were indistinguishable in botrocetin-mediated platelet agglutination and in their ability to adhere to mouse vWF A1 domain. Platelet aggregation and ATP secretion in response to low and high concentrations of thrombin were not decreased in GPV-deficient platelets compared with wild-type. Our results show that (1) GPV is not necessary for GPIb expression and function in platelets and that GPV deficiency is not likely to be a cause of human BSS and (2) GPV is not necessary for robust thrombin signaling. Whether redundancy accounts for the lack of phenotype of GPV-deficiency or whether GPV serves subtle or as yet unprobed functions in platelets or other cells remains to be determined.
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PMID:Glycoprotein V-deficient platelets have undiminished thrombin responsiveness and Do not exhibit a Bernard-Soulier phenotype. 1059 56

The ygdP and apaH genes of Salmonella enterica serovar Typhimurium (S. Typhimurium) encode two unrelated dinucleoside polyphosphate (NpnN) hydrolases. For example, YgdP cleaves diadenosine tetraphosphate (Ap4A) producing AMP and ATP, while ApaH cleaves Ap4A producing 2ADP. Disruption of ygdP, apaH individually, and disruption of both genes together reduced intracellular invasion of human HEp-2 epithelial cells by S. Typhimurium by 9-, 250-, and 3000-fold, respectively. Adhesion of the mutants was also greatly reduced compared with the wild type. Invasive capacity of both single mutants was restored by transcomplementation with the ygdP gene, suggesting that loss of invasion was due to increased intracellular NpnN. The normal level of 3 microM adenylated NpnN (ApnN) was increased 1.5-, 3.5-, and 10-fold in the ygdP, apaH and double mutants, respectively. Expression of the putative ptsP virulence gene downstream of ygdP was not affected in the ygdP mutant. Analysis of 19 metabolic enzyme activities and the ability to use a range of carbohydrate carbon sources revealed a number of differences between the mutants and wild type. The increase in intracellular NpnN in the mutants appears to cause changes in gene expression that limit the ability of S. Typhimurium to adhere to and invade mammalian cells.
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PMID:Regulation of dinucleoside polyphosphate pools by the YgdP and ApaH hydrolases is essential for the ability of Salmonella enterica serovar typhimurium to invade cultured mammalian cells. 1282 72

Rats were exposed to cell phone radiation for 6 hours per day for 18 weeks. The buccal and mandibular branches of the facial nerve were evaluated for this study. The mRNA levels of four proteins that are usually up regulated when an injury has occurred were investigated; included were Calcium ATP-ase, Endothelin, Neural Cell Adhesion Molecule, and Neural Growth Factor. These isolated mRNAs were subjected to RT-PCR and all four were up regulated. The mandibular nerve showed a higher and broader level of up regulation than the buccal nerve. All four mRNA up regulations for the mandibular nerve and two for the buccal nerve were also statistically significant. These specific injury-related findings were mild. As the use of these cell phones continues, there most likely will be permanent damage to these tissues over the years and the likelihood of tumors, cancers, and system failures will potentially increase.
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PMID:Qualitative effect on mRNAs of injury-associated proteins by cell phone like radiation in rat facial nerves. 2001 29


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