Figure 4
Figure 4. Role of AMPKα2 in clot retraction and thrombus stability. (A) Expression of AMPKα subunits in murine platelets from wild-type (α1+/+, α2+/+), AMPKα1−/−, and AMPKα2−/− mice, including (B) thrombin-induced clot retraction in platelet-rich plasma from the same animals. (C) Representative images and summary of FeCl3-induced thrombus formation in carotid arteries from AMPKα2+/+ and AMPKα2−/− mice. The arrows indicate emboli detaching from the thrombus. The graphs summarize data for 8 animals from each group; ###P < .001 vs AMPKα2+/+.

Role of AMPKα2 in clot retraction and thrombus stability. (A) Expression of AMPKα subunits in murine platelets from wild-type (α1+/+, α2+/+), AMPKα1−/−, and AMPKα2−/− mice, including (B) thrombin-induced clot retraction in platelet-rich plasma from the same animals. (C) Representative images and summary of FeCl3-induced thrombus formation in carotid arteries from AMPKα2+/+ and AMPKα2−/− mice. The arrows indicate emboli detaching from the thrombus. The graphs summarize data for 8 animals from each group; ###P < .001 vs AMPKα2+/+.

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