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- Moberg, L, et al.
(författare)
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Production of tissue factor by pancreatic islet cells as a trigger of detrimental thrombotic reactions in clinical islet transplantation
- 2002
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Ingår i: The Lancet. - 1474-547X. ; 360:9350, s. 2039-2045
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Tidskriftsartikel (refereegranskat)abstract
- Background Intraportal transplantation of pancreatic islets offers improved glycaemic control and insulin independence in type 1 diabetes mellitus, but intraportal thrombosis remains a possible complication. The thrombotic reaction may explain why graft loss occurs and islets from more than one donor are needed, since contact between human islets and ABO-compatible blood in vitro triggers a thrombotic reaction that damages the islets. We investigated the possible mechanism and treatment of such thrombotic reactions. Methods Coagulation activation and islet damage were monitored in four patients undergoing clinical islet transplantation according to a modified Edmonton protocol. Expression of tissue factor (TF) in the islet preparations was investigated by immunohistochemistry, immunoprecipitation, electron microscopy, and RT-PCR. To assess TF activity in purified islets, human islets were mixed with non-anticoagulated ABO-compatible blood in tubing loops coated with heparin. Findings Coagulation activation and subsequent release of insulin were found consistently after clinical islet transplantation, even in the absence of signs of intraportal thrombosis. The endocrine, but not the exocrine, cells of the pancreas were found to synthesise and secrete active TF. The clotting reaction triggered by pancreatic islets in vitro could be abrogated by blocking the active site of TF with specific antibodies or site-inactivated factor Vlla, a candidate drug for inhibition of TF activity in vivo. Interpretation Blockade of TF represents a new therapeutic approach that might increase the success of islet transplantation in patients with type 1 diabetes, in terms of both the risk of intraportal thrombosis and the need for islets from more than one donor.
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- Bennet, W, et al.
(författare)
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Incompatibility between human blood and isolated islets of Langerhans: a finding with implications for clinical intraportal islet transplantation?
- 1999
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Ingår i: Diabetes. - : American Diabetes Association. - 0012-1797 .- 1939-327X. ; 48:10, s. 1907-1914
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Tidskriftsartikel (refereegranskat)abstract
- The remarkable difference in success rates between clinical pancreas transplantation and islet transplantation is poorly understood. Despite the same histocompatibility barrier and similar immunosuppressive treatments in both transplantation procedures, human intraportal islet transplantation has a much inferior success rate than does vascularized pancreas transplantation. Thus far, little attention has been directed to the possibility that islets transplanted into the blood stream may elicit an injurious incompatibility reaction. We have tested this hypothesis in vitro with human islets and in vivo with porcine islets. Human islets were exposed to nonanticoagulated human ABO-compatible blood in surface-heparinized polyvinyl chloride tubing loops. Heparin and/or the soluble complement receptor 1 (sCR1) TP10 were tested as additives. Adult porcine islets were transplanted intraportally into pigs, and the liver was recovered after 60 min for immunohistochemical staining. Human islets induced a rapid consumption and activation of platelets. Neutrophils and monocytes were also consumed, and the coagulation and complement systems were activated. Upon histological examination, islets were found to be embedded in clots and infiltrated with CD11+ leukocytes. Furthermore, the cellular morphology was disrupted. When heparin and sCR1 were added to the blood, these events were avoided. Porcine islets retrieved in liver biopsies after intraportal islet allotransplantation showed a morphology similar to that of human islets perifused in vitro. Thus, exposure of isolated islets of Langerhans to allogenic blood resulted in significant damage to the islets, a finding that could explain the unsatisfactory clinical results obtained with intraportal islet transplantation. Because administration of heparin in combination with a soluble complement receptor abrogated these events, such treatment would presumably improve the outcome of clinical islet transplantation by reducing both initial islet loss and subsequent specific immune responses.
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- Larsson, R, et al.
(författare)
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Inhibition of complement activation by soluble recombinant CR1 under conditions resembling those in a cardiopulmonary circuit : reduced up-regulation of CD11b and complete abrogation of binding of PMNs to the biomaterial surface.
- 1997
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Ingår i: Immunopharmacology. - 0162-3109 .- 1879-047X. ; 38:1-2, s. 119-127
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Tidskriftsartikel (refereegranskat)abstract
- The influence of soluble recombinant CR1 (sCR1) on complement activation, and its indirect effects on the coagulation system and cellular responses were assessed in two models for the study of blood/surface and blood/air interactions, as are encountered in e.g. cardiopulmonary bypass circuits. The concentrations of C3a and sC5b-9 and the amount of bound C3/C3 fragments were analyzed as indicators of complement activation. Thrombin-antithrombin complexes, the platelet count, surface-ATP, beta-thromboglobulin, and the expression of CD11b on leukocytes were the parameters analyzed to reflect coagulation and cellular responses. In addition, immunochemical analyses of the phenotypes of surface-bound leukocytes and platelets were performed. Recombinant sCR1, at doses ranging between 0.1-0.25 mg/ml, was found to completely inhibit the generation of sC5b-9, and of C3a by two thirds; the binding of C3 and/or C3 fragments to the surface was almost entirely abolished. As a result of the inhibition of complement activation, the expression of CD11b on PMNs, and the binding of these cells to the biomaterial surface was almost completely lost. In contrast, the thrombin-antithrombin complexes, the platelet count, and the adherence of platelets to the surface, as reflected by the ATP binding and the release of beta-thromboglobulin, were not affected. These data show that complement activation, in association with extra-corporeal treatment, causes activation and binding of PMNs to the biomaterial and that these effects can be completely abolished by the addition of soluble recombinant sCR1.
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