Medical Biology - Theses
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ItemFunctional characterisation of Caspase-9 in haematopoiesis( 2012)Caspases are a family of cysteine-aspartic proteases that play essential roles in programmed cell death (apoptosis), programmed necrosis (necroptosis), and inflammation. This work aims to clarify additional reported functions of caspases, and to enhance our understanding of the functional roles of caspases in the blood (haematopoietic system). By genetically dissecting the apoptotic pathway, I show that caspase activation is not required for megakaryocytes to form platelets from their cytoplasm. Rather the opposite is true, apoptotic caspase activation must be restrained for megakaryocytes to survive and produce platelets. In addition, platelets are fully functional without the initiator Caspase-9. Caspase-9-deficient platelets maintain blood clotting (hemostasis), and are capable of facilitating thrombin generation via the exposure of membrane phospholipid phosphatidylserine – supporting the notion that platelet apoptosis and platelet activation are biochemically distinct processes. Herein, I also show that the Bcl-2 regulated caspase cascade is critical for haematopoietic stem cell maintenance. A novel relationship between apoptotic caspase activation and type-1 interferon production – a cytokine known to regulate ‘stem-ness’ – is established. Together, this research refines previously described biological functions for caspases, and provides new insight into the role of caspases in cell death and the physiological consequence of their genetic or pharmacological inhibition.