Isolation and characterization of actin and actin-binding protein from human platelets

doi:10.1083/jcb.91.1.201

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Isolation and characterization of actin and actin-binding protein from human platelets

S Rosenberg, A Stracher and RC Lucas

Human blood platelets, which are highly motile cells essential for the maintenance of hemostasis, contain large quantities of actin and other contractile proteins. We have previously introduced a method (Lucas, R. C., T. C. Detwiler, and A. Stracher, J. Cell Biol., 1976, 70(2, Pt. 2):259 a) for the quantitative recovery of the platelets' cytoskeleton using a solution containing 1% Triton X-100 and 10 mM EGTA. This cytoskeleton contains most of the platelets' actin, actin-binding protein (ABP, subunit molecular weight = 260,000), and a 105,000-dalton protein. Negative staining of this Triton-insoluble residue on an EM grid shows it to consist of branched cables of actin filaments aligned in parallel. When this cytoskeletal structure is dissolved in high-salt solutions, the actin and ABP dissociate and can subsequently be separated. Here we will present simple and rapid methods for the individual purifications of platelet actin and platelet ABP. When purified actin and ABP are recombined in vitro, they are shown to be both necessary and sufficient for the reformation of the cytoskeletal complex. The reformed structure is visualized as a complex array of fibers, which at the EM level are seen to be bundles of actin filaments. The reformation of the cytoskeleton requires only that the actin be in the filamentous form--no accessory proteins, chelating agents, divalent cations, or energy sources are necessary. In vivo, however, the state of assembly of the platelets' cytoskeleton appears to be under the control of the intracellular concentration of free calcium. Under conditions where proteolysis is inhibited and EGTA is omitted from the Triton-solubilization step, no cytoskeleton can be isolated. The ability of Ca+2 to control the assembly and disassembly of the platelets' cytoskeleton provides a mechanism for cytoskeletal involvement in shape change and pseudopod formation during platelet activation.
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