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Studies on platelet cytoskeletal dynamics and receptor regulation in genetically modified mice
(2009)
Platelets are produced by bone marrow megakaryocytes in a process involving actin dynamics. Actin-depolymerizing factor (ADF) and cofilin are actin-binding proteins that act as key regulators in actin turnover by promoting filament severing and depolymerization. The overall significance of ADF/cofilin function and actin turnover in platelet formation is presently unclear. In the first part of this thesis, platelet formation and function were studied in mice constitutively lacking ADF and/or mice with a conditional deficiency (Cre/loxP) in n-cofilin. To delete cofilin exclusively in megakaryocytes and platelets, cofilinfl/fl mice were crossed with PF4 (platelet factor 4)-Cre mice. While a single-deficiency in ADF or n-cofilin resulted in no or only a minor platelet formation defect, respectively, a double-deficiency in ADF and n-cofilin led to an almost complete loss of platelets. Bone marrow megakaryocytes of ADF/n-cofilin-deficient mice showed defective platelet zone formation. Interestingly, in vitro and ex vivo megakaryocyte differentiation revealed reduced proplatelet formation and absence of platelet-forming swellings. These data establish that ADF and n-cofilin have redundant but essential roles in the terminal step of platelet formation in vitro and in vivo. In the second part of the thesis, mechanisms underlying cellular regulation of the major platelet collagen receptor, glycoprotein VI (GPVI), were studied. GPVI mediates platelet activation on exposed subendothelial collagens at sites of vascular injury, and thereby contributes to normal hemostasis but also to occlusion of diseased vessels in the setting of myocardial infarction or stroke. Thus, GPVI is an attractive target for anti-thrombotic therapy, particularly because previous studies have shown that anti-GPVI antibodies induce irreversible down-regulation of the receptor in circulating platelets by internalization and ectodomain shedding. Metalloproteinases of the ADAM (a disintegrin and metalloproteinase domain) family are suspected to mediate this ectodomain shedding, but in vivo evidence for this is lacking. To study the mechanism of GPVI regulation in vivo, two mouse lines, Gp6 knock-out and Adam10fl/fl, PF4-Cre mice, were generated and in addition low TACE (TNFalpha converting enzyme) mice were analyzed. It was shown that GPVI can be cleaved in vitro by ADAM10 or TACE depending on the shedding-inducing signaling pathway. Moreover, GPVI was down-regulated in vivo upon antibody injection in ADAM10-deficient and low TACE mice suggesting that either both or an additional metalloproteinase is involved in GPVI regulation in vivo.