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Target Concepts:
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Query: UMLS:C0001511 (
Adhesion
)
5,955
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Human Factor VIII associated von Willebrand factor (
VIII
:vWF) binds to human platelets in vitro only in the presence of a mediator such as ristocetin, thrombin or ADP. Studies reported here were designed to determine if human platelets will adhere to solid-phase
VIII
:vWF. Human
VIII
:vWF was purified from a phosphate precipitate of A1(OH)3 absorbed plasma using 4% agarose and DEAE cellulose. Purified
VIII
:vWF (90 units of
VIII
:vWF activity/mg) was coated on dialysis membranes using ultrafiltration (final concentration of 0.4 units/cm2). Membranes (0.5 cm2) were held stationary in human citrated PRP suspension or washed platelet suspensions and stirred continuously for 5 minutes at 37 degrees C. The membranes were then rinsed in phosphate buffered saline, fixed, stained, and examined by light and scanning electron microscopy. Abundant normal platelets adhered to
VIII
:vWF-coated membranes, while minimal adhesion was seen on uncoated membranes and membranes coated with albumin.
Adhesion
occurred without ristocetin, thrombin, ADP or other agonist and in the presence of Ca+2/Mg+2 ions. Preincubation of the
VIII
:vWF coated membranes with monospecific rabbit anti-
VIII
:vWF inhibited the adhesion reaction. However, preincubation of
VIII
:vWF coated membranes with naturally occurring human anti-FVIIIc antibodies failed to interfere with platelet adhesion. Platelets from a patient with Bernard-Soulier Syndrome (BSS) which did not bind human
VIII
:vWF in the presence of ristocetin or aggregate with bovine cryoprecipitate also did not adhere to
VIII
:vWF-coated membranes.
...
PMID:Adhesion of human platelets to purified solid-phase von Willebrand factor: studies of normal and Bernard-Soulier platelets. 641 73
Adhesion
of platelets from 15 patients with von Willebrand's disease was tested in an ex vivo human umbilical vein model. Experiments employed umbilical veins still in their umbilical cords taken from patients undergoing cesarean section and platelets (fetal, adult and vW) either apyrase-washed or used as platelet-rich plasma or whole blood. F
VIII
R:Ag, F
VIII
:Rcof, and F
VIII
:C were measured in initial fresh plasma and in effluents from the umbilical vein segments. F
VIII
:Rcof increased in most perfusates. Binding of latex-linked specific antihuman F
VIII
R:Ag demonstrated that F
VIII
R:Ag existed on subendothelium and on injured endothelial cells. Scanning electron microscopy three-dimensionally displayed vW platelet--vessel-wall interactions. Although vW platelets adhered to injured vein, both qualitative and quantitative differences existed in comparison with adhesion of normal platelets. The differences correlated best with the plasma F
VIII
:Rcof level. The best adhesion shown by vW platelets was only 51 percent of the adhesion of control fetal or adult platelets. vW platelets had less surface activity, fewer pseudopods, and little ability to spread and pave the exposed subendothelium. Pretreatment of the vein with F
VIII
R:Ag antibody partly blocked adhesion. Coperfusion of cryoprecipitate with vW platelets improved their adhesivity, state of activation on subendothelium, and ability to form aggregates. ABO differences in blood cell types of fetal material and platelet donors seemed without effect, which further establishes this model's validity for studies of platelet dysfunction and platelet or endothelial reactive agents.
...
PMID:Platelet-vessel-wall interactions: experiences with von Willebrand platelets. 679 41
Recirculation of normal and neoplastic lymphocytes occurs via binding to the endothelial luminar surface, followed by extravasation and the subsequent interaction of the cells with components of the underlying basement membrane and stromal extracellular matrix (ECM). To identify matrix constituents that could be involved in the tissue dissemination of neoplastic B cells, we have examined the ability of three lymphoma B-cell lines and one Philadelphia chromosome (Ph1)-positive cell line established from the lymphoid transformation of a chronic myeloid leukemia (CML) to adhere to a range of purified ECM molecules. Immunophenotyping with a panel of markers suggested that the lines derived from cells that had undergone transformation at distinct stages of B-cell maturation. The four cell lines displayed a differential ability to adhere to the ECM molecules tested. BV-173, Ci-1, and Sc-1 cells attached to various degrees to fibronectin (FN). Ri-1, Ci-1, and Sc-1 cells attached to human laminin (LN) variants, whereas only Ci-1 and Sc-1 cells showed some affinity for collagen (Col) type VI. All four cell lines interacted with fibrillar Col I, but only BV-173 and Ri-1 cells attached to fibrillar Col III. The subendothelial Col
VIII
only was active as a substratum for BV-173 cells. In all cases, cells bound to fibrillar collagens when they were assembled into polymeric fibrils, and were incapable of adhering to monomeric and denatured collagen. In contrast to cell adhesion to FN and LN, which showed a plateau at high substrate concentrations, adhesion to fibrillar Col I reached a peak at intermediary concentrations and decreased thereafter, suggesting that cells respond to a definite macromolecular arrangement of collagenous fibrils.
Adhesion
to individual ECM molecules was not directly correlated with the apparent maturation state of the cells, nor with the relative density of known ECM receptors. Taken together, these results suggest that interaction of neoplastic B cells with selected matrix components may influence their dispersion throughout tissues. We further suggest that the use of quantitative cell adhesion assays in vitro may provide means of defining the behavioral traits of neoplastic B cells in vivo.
...
PMID:Differential attachment of human neoplastic B cells to purified extracellular matrix molecules. 812 49
