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Protamine is administered as protamine sulfate to reverse the anticoagulant effect of heparin following cardiopulmonary bypass surgery. Immunogenicity of protamine has been recognized for decades in several patient groups including vasectomized men, diabetic patients on protamine-containing insulin and patients undergoing cardiopulmonary bypass surgery. Anti-protamine/heparin antibodies are a newly described class of heparin-dependent antibodies found in about 30% of patients exposed to protamine and heparin during cardiac surgery. A subset of seropositive patients especially who tested positive for platelet-activating anti-protamine/heparin immunoglobulin G (IgG) antibodies before surgery have prolonged postoperative thrombocytopenia with an increased risk for arterial occlusions. Studies presented in this thesis shed light on potential approaches that may prevent antibody-mediated platelet activation by anti-protamine/heparin antibodies. Two approaches are presented in this thesis, partially desulfated heparin (ODSH) and low molecular weight protamine (LMWP). Our studies demonstrated the ability of ODSH to inhibit anti-protamine/heparin antibody-mediated platelet destruction in the NOD/SCID mouse model by: i) reduction of antibody binding to preformed protamine/heparin complexes, as shown by enzyme immunoassay, ii) interfering with the binding of protamine/heparin complexes to platelets as shown by flow cytometry and fluorescence microscopy, and iii) inhibition of antibody-mediated platelet activation. Interestingly, ODSH was also able to block ongoing platelet destruction by displacing pre-bound complexes from the platelet surface. In addition, our data suggest the use of synthesized LMWP as a substitute for protamine in heparin reversal. The in vitro investigations showed that synthesized LMWP efficiently neutralizes heparin using the activated partial thromboplastin time. Anti-protamine/heparin antibodies have low binding properties to LMWP/heparin complexes as indicated in enzyme immunoassay. The ability of platelet-activating anti-protamine/heparin antibodies to induce platelet activation in the functional assay was significantly reduced in the presence of LMWP/heparin compared to protamine/heparin complexes. Owing to findings obtained in our studies, both approaches might be a promising future option to reduce anti-protamine/heparin antibody-mediated adverse effects.
Since its introduction in 2006, the NOD/scid mouse model has greatly contributed to the understanding of the pathomechanisms of antibody-mediated thrombocytopenia. This progress has however been hampered by inter-laboratory differences. With this work, we make several suggestions to minimise these differences:
We suggest that human platelets (blood group 0) be injected into the mice (age- and sex-matched, 8-16 weeks) via the tail vein. For antibody injection, scientists may choose between intraperitoneal and tail vein injection, each of which has strengths and drawbacks. In case of low antibody titer or low avidity antibodies, preincubation of the platelets with the patient serum prior to injection promotes platelet elimination where standard protocols fail. For subsequent sample preparation, we found that newly-launched ready-to-use kits present a good alternative to classical density gradient centrifugation by reducing man-hours and turnover time without affecting the quality of flow cytometry analysis.
In a second part, we used the revised mouse model to study anti-CD36 mediated thrombocytopenia in vivo. Anti-CD36 antibodies have been suggested as frequent case for FNAIT in Asia. The mechanisms behind this remain partly unclear. After injecting anti-CD36 monoclonal antibody or anti-CD36 patient immunoglobulin into the system, circulating human platelets were rapidly cleared. Interestingly, the polyclonal patient immunoglobulins used were not uniform in their anti-platelet reactivity. On further examination, we found that the anti-CD36 antibodies induce platelet activation and aggregation, which we were able to inhibit by the addition of an Fcγ-receptor blocking agent. This suggests a possible role for Fcγ-receptor in the activation and elimination process.
As our results from the experiments on the role of complement in the elimination process are however ambiguous, further studies are needed. The clinical relevance of anti-CD36 antibody-mediated platelet activation and aggregation for the high abortion rates in affected women has yet to be evaluated.