Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0001511 (
Adhesion
)
5,955
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The specific binding of human polymorphonuclear leukocytes (PMN) to antibody-coated target cells was characterized by flow cytometry. PMN were labeled with phycoerythrin-E (PE) via a granulocyte-specific monoclonal antibody (leu-M1) and mixed with fluorescein isothiocyanate-labeled K562 tumor cells sensitized with rabbit antiserum. Specific conjugates were formed as analyzed by two-color fluorescence in a flow cytometer. The formation of stable conjugates was dependent on initiation of contact, temperature, time, and antiserum concentration. Studies with inhibitors implicate that microfilaments, but not microtubules, Ca2+, Mg2+, or energy-dependent processes were a prerequisite for binding of PMN to the antibody-coated target cells. No conjugates were formed when uncoated target cells were used or when the experiment was performed in the presence of protein A, indicating that binding was specifically mediated through Fc receptors (FcR). Monoclonal antibodies against the FcRII and FcRIII were used to address the role of these receptors in conjugation. One of the two anti-FcRIII antibodies and an anti-FcRII antibody effectively prevented conjugation. A monoclonal antibody directed against the common beta-chain of the adhesion molecule family and a combination of antibodies against the alpha-chain of LFA-1 and Mo-1 also blocked conjugation when target cells were sensitized under suboptimal conditions. The antibody against the beta-chain also diminished killing of antibody-coated K562, as measured by
chromium
release when included in the cytotoxicity assay. These results indicate that flow cytometry permits accurate quantitation and characterization of the binding between PMN and antibody-coated target cells, which in principle, can be prevented by monoclonal antibodies against surface receptors. Binding is primarily established by both the FcRII and FcRIII.
Adhesion
-associated molecules on the PMN surface contribute to optimal binding.
...
PMID:Quantitation of conjugate formation between human polymorphonuclear leukocytes and antibody-coated target cells by flow cytometry: the role of Fc receptor and LFA-1 antigen. 268 90
In order to study the adhesive interactions of the human bone marrow microenvironment and acute myeloid leukaemic cells, we investigated the binding capacity of KG-1 cells upon human long-term bone marrow cultures derived from 17 healthy volunteers and 12 patients with acute myeloid leukemia.
Adhesion
was measured using a 51-
chromium
labelling assay.
Adhesion
of KG-1 cells upon 'normal' stromal layers: 33% +/- 4.0, n = 17 (mean +/- SEM) was higher as compared to the binding to 'leukaemic' stromas: 24% +/- 3.7, n = 12 (p < 0.05). Blocking monoclonal antibodies against adhesion molecules reduced the binding of KG-1 cells upon 'normal' stroma, when anti-VLA4 (p < 0.03), anti-Mac1 (p < 0.03) and anti-p150/95 (p < 0.04) were used. Binding of KG-1 cells on 'leukaemic' stromas was partly inhibited by anti-VCAM1 (p < 0.03). Blocking achieved by single or combined antibodies was never complete, suggesting that the adhesion is a multifactorial process, including a variety of adhesion molecules and/or adhesion mechanisms.
...
PMID:Adhesive capacity of human long-term bone marrow cultures from normals and patients with acute myeloid leukaemia: the influence of adhesion molecules. 845 Jun 74
Cellular adhesion and specific cytotoxicity are two essential components for the successful cellular therapy of cancer. Intercellular adhesion molecule-1 (ICAM-1) is an essential participant in lymphocyte-endothelial cell adhesion and may also play a role in lymphocyte-mediated cytotoxicity. To study the effect of ICAM-1 on adhesion and cytotoxicity in vitro, MCA-105 tumor cells were cotransfected with ICAM-1 and the gene for neomycin resistance (NeoR). Two clones (Clones 81 and 149) with confirmed enhancement of ICAM-1 expression were selected. Studies were performed examining adhesion of lymphocytes to HUVECs, MCA-105, Clone 81 or Clone 149 alone, or combinations of the three tumor cell lines with HUVECs. Peripheral blood lymphocytes labeled with 51Cr were used and adhesion was determined by counting in a gamma-counter after rinsing away nonadherent cells. Cytotoxicity was performed using 51Cr-labeled MCA-105, NeoR, Clone 81, and Clone 149 target cells. LAK cells cultured from splenocytes of normal mice were used as the effector cells and a
chromium
release assay was performed.
Adhesion
data showed significant increases in adhesion (P < 0.05) for Clones 81 and 149 compared to MCA-105. However, the combination of HUVECs and tumor cells to mimic the in vivo condition had a variable effect on adhesion compared to tumor cells alone. Cytotoxicity experiments demonstrated that Clone 149 was significantly (P < 0.05) more susceptible to lysis by normal LAK cells compared to MCA-105, NeoR, and Clone 81. These results suggest that increased ICAM-1 expression enhances the susceptibility of tumor cells to lysis by LAK cells.
...
PMID:ICAM-1 increases in vitro adhesion and cytotoxicity in a murine fibrosarcoma. 859 76
Copper-carbon composites are candidate materials for heat sinks for high speed/high-performance electronic components. They combine high thermal conductivity with low density and a tailorable coefficient of thermal expansion (CTE). Because of the low wettability of carbon by copper, a thin layer of
chromium
can be deposited to promote both the adhesion and the thermal contact of copper with the carbon fibers. Therefore, in a first step layers of Cr and Cu were deposited by magnetron sputtering on plane vitreous carbon substrates (Sigradur G), which serve as a model for carbon fibers. From pull-off-adhesion measurements an interlayer thickness of Cr in the range of 2-10 nm was found to provide the optimal adhesion for 1 micro m thick copper overlayers. To model the later serial fabrication of the composite that involves a hot pressing step following the deposition, the C/Cr/Cu samples were heat treated at 800 degrees C under vacuum for 1 h.
Adhesion
on the heat-treated samples was superior in comparison to the untreated ones. To obtain information about the adhesion mechanism secondary ion mass spectrometry (SIMS) investigations were done on the depth distribution of the main elements copper,
chromium
, and carbon. Two samples, one as deposited and one subjected to heat treatment after deposition, were compared in this investigation. We found that heat treatment mainly modifies the distribution of Cr in the C/Cr/Cu system.
...
PMID:Adhesion promotion of Cu on C by Cr intermediate layers investigated by the SIMS method. 1239 77
Molybdenum (Mo) is the most commonly used material as back contact in thin-film solar cells.
Adhesion
of Mo film to soda-lime glass (SLG) substrate is crucial to the performance of solar cells. In this study, an optimized bilayer structure made of a thin layer of Mo on an ultra-thin
chromium
(Cr) adhesion layer is used as the back contact for a copper zinc tin sulfide (CZTS) thin-film solar cell on a SLG substrate. DC magnetron sputtering is used for deposition of Mo and Cr films. The conductivity of Mo/Cr bilayer films, their microstructure and surface morphology are studied at different deposition powers and working pressures. Good adhesion to the SLG substrate has been achieved by means of an ultra-thin Cr layer under the Mo layer. By optimizing the deposition conditions we achieved low surface roughness, high optical reflectance and low sheet resistivity while we could decrease the back contact thickness to 600 nm. That is two thirds to half of the thickness that is currently being used for bilayer and single layer back contact for thin-film solar cells. We demonstrate the excellent properties of Mo/Cr bilayer as back contact of a CZTS solar cell.
...
PMID:Optimization of Mo/Cr bilayer back contacts for thin-film solar cells. 3041 21
Adhesion
is a major factor in film failure. Based on the basic theory of interfacial toughness, the relationship between film thickness and internal stress and adhesion is qualitatively analyzed. The adhesive properties of silicon nitride deposited on stainless steel substrate by plasma enhanced chemical vapor deposition methods is discussed. The case where nickel, nickel-
chromium
and alumina films are respectively used as transition layers is compared. After vacuum annealing thermal treatment of these films, the results show that the alumina film has better matching performance with 304 stainless steel, and the interface toughness is improved by 51.2% compared with the silicon nitride film. After the samples are stretched, the silicon nitride film show a large number of cracks when the transition layer is nickel or nickel-
chromium
, possibly due to the large thermal stress in the film. At the same time, the process parameters of magnetron sputtered alumina are optimized, and the optimal deposition rate of alumina film is determined to be 40.25 nm min
-1
. Then, the effect of film thickness on adhesion is investigated by theoretical analysis and tape breakage test. As the film thickness ratio of alumina and silicon nitride increases, the adhesion is optimal.
...
PMID:Adhesion analysis of silicon nitride film deposited on stainless steel surface by adding transition layer. 3205 Jan 71
