Maureen E. Hill/Sandbox1
From Proteopedia
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| - | + | == Caspase-7 Dynamics == | |
<StructureSection load='1f1j' size='350' side='right' caption='Structure of caspase-7(PDB entry [[1f1j]])' scene=''> | <StructureSection load='1f1j' size='350' side='right' caption='Structure of caspase-7(PDB entry [[1f1j]])' scene=''> | ||
| - | + | == Background == | |
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Caspases are cysteine-aspartate proteases that are responsible for the execution of apoptosis, also known as programmed cell death. Dysregulation of apoptosis has been linked to neurodegenerative disorders, including Alzheimer's and Huntington's, as well as inflammatory diseases and cancer. | Caspases are cysteine-aspartate proteases that are responsible for the execution of apoptosis, also known as programmed cell death. Dysregulation of apoptosis has been linked to neurodegenerative disorders, including Alzheimer's and Huntington's, as well as inflammatory diseases and cancer. | ||
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The apoptotic caspases consist of two distinct classes: the initiators (caspase -2, -8, -9, and -10) and the executioners (caspase -3, -6, and -7). All caspases are synthesized as catalytically inactive zymogens that must undergo proteolytic cleavage to be activated during apoptosis. Initiator caspases are activated by upstream cellular events, which in turn cleave at distinct internal aspartate residues in the executioner caspases to remove the prodomain and separate the large and small subunits. The executioner caspases then cleave a wide range of targets within the cell that ultimately leads to cellular suicide. | The apoptotic caspases consist of two distinct classes: the initiators (caspase -2, -8, -9, and -10) and the executioners (caspase -3, -6, and -7). All caspases are synthesized as catalytically inactive zymogens that must undergo proteolytic cleavage to be activated during apoptosis. Initiator caspases are activated by upstream cellular events, which in turn cleave at distinct internal aspartate residues in the executioner caspases to remove the prodomain and separate the large and small subunits. The executioner caspases then cleave a wide range of targets within the cell that ultimately leads to cellular suicide. | ||
| - | + | == Caspase-7 Structure == | |
Caspases are crystallized as homodimers. Each monomer contains a large (~20 kDa) and a small (~10 kDa) subunit. The active site is made up of four flexible loops which include L2, L3 and L4 from one half of the dimer that interact with L2' from the opposite half of the dimer. In the <scene name='56/566502/Procaspase-7_zymogen/1'>procaspase-7 zymogen</scene>, the loops are disordered, which prevents substrate binding. Upon cleavage at the intersubunit linker, the active-site loop bundle becomes partially ordered, whereas L2' stays in the inactive, down conformation. At this point, caspase-7 may bind either substrate or allosteric inhibitors. Substrate binding forces L2' to move upward, creating a foundation beneath the L2 bundle. However, if caspase-7 were to bind an allosteric inhibitor at the dimer-interface cavity, the L2' loop would be locked in the down conformation, thereby inactivating the enzyme. | Caspases are crystallized as homodimers. Each monomer contains a large (~20 kDa) and a small (~10 kDa) subunit. The active site is made up of four flexible loops which include L2, L3 and L4 from one half of the dimer that interact with L2' from the opposite half of the dimer. In the <scene name='56/566502/Procaspase-7_zymogen/1'>procaspase-7 zymogen</scene>, the loops are disordered, which prevents substrate binding. Upon cleavage at the intersubunit linker, the active-site loop bundle becomes partially ordered, whereas L2' stays in the inactive, down conformation. At this point, caspase-7 may bind either substrate or allosteric inhibitors. Substrate binding forces L2' to move upward, creating a foundation beneath the L2 bundle. However, if caspase-7 were to bind an allosteric inhibitor at the dimer-interface cavity, the L2' loop would be locked in the down conformation, thereby inactivating the enzyme. | ||
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| - | === Forms of Caspase-7 === | ||
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| - | *<scene name='Molecular_Playground/Caspase_Dynamics/1f1j/2'>Caspase-7 bound to suicide inhibitor/substrate mimic DEVD-CHO</scene>, trapping protein in active/substrate bound conformation. | ||
| - | *<scene name='Molecular_Playground/Caspase_Dynamics/1shj-234234/1'>Caspase-7 bound to allosteric inhibitor DICA through CYS290</scene> trapping protein in a form incompatible with substrate binding. | ||
| - | *<scene name='Molecular_Playground/Caspase_Dynamics/Morph2/2'>Conformational change between substrate bound and substrate incompatible forms</scene> of Caspase-7. | ||
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| - | === Molecular Playground banner for Caspase-7 === | ||
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| - | '''Molecular Playground banner:''' Conformational Dynamics between active and allosterically inhibited caspase-7 elucidate the mechanism of allostery in this important class of cysteine proteases. | ||
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| - | ==3D structures of caspase== | ||
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| - | [[Caspase]] | ||
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| - | ==Additional Resources== | ||
| - | For additional information, see: [[Cancer]] | ||
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<scene name='56/566502/Zoom_bundle/1'>Loop bundle</scene> | <scene name='56/566502/Zoom_bundle/1'>Loop bundle</scene> | ||
Revision as of 19:02, 2 December 2013
Caspase-7 Dynamics
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