Abstract
In response to cell death signals, an active apoptosome is assembled from Apaf-1 and procaspase-9 (pc-9). Here we report a near atomic structure of the active human apoptosome determined by cryo-electron microscopy. The resulting model gives insights into cytochrome c binding, nucleotide exchange and conformational changes that drive assembly. During activation an acentric disk is formed on the central hub of the apoptosome. This disk contains four Apaf-1/pc-9 CARD pairs arranged in a shallow spiral with the fourth pc-9 CARD at lower occupancy. On average, Apaf-1 CARDs recruit 3 to 5 pc-9 molecules to the apoptosome and one catalytic domain may be parked on the hub, when an odd number of zymogens are bound. This suggests a stoichiometry of one or at most, two pc-9 dimers per active apoptosome. Thus, our structure provides a molecular framework to understand the role of the apoptosome in programmed cell death and disease.
Highlights
Programmed cell death occurs during tissue development and homeostasis to remove superfluous cells or alternatively, during disease states to remove damaged or rapidly dividing cells (Song and Stellar, 1999; Salvesen and Dixit, 1997; Green and Evan, 2002; Danial and Korsmeyer, 2004; Thompson, 1995)
Many rod-like a-helices are visible in the map that dominate the central hub and seven arms, while a cylindrical Caspase recognition domains (CARDs) disk sits atop the platform and shows little structural detail (Figure 1A and inset)
Density for the CARD disk was blurred due to a symmetry mismatch with the platform
Summary
Programmed cell death occurs during tissue development and homeostasis to remove superfluous cells or alternatively, during disease states to remove damaged or rapidly dividing cells (Song and Stellar, 1999; Salvesen and Dixit, 1997; Green and Evan, 2002; Danial and Korsmeyer, 2004; Thompson, 1995) This process allows cellular components to be recycled without activating inflammatory pathways (Green and Evan, 2002; Inohara and Nunez, 2003). Intrinsic cell death signals converge on mitochondria to release pro-apoptotic factors through outer membrane pores formed by Bcl-2 family members (Brunelle and Letai, 2009; Tait and Green, 2010) These factors include cytochrome c, which up-regulates assembly of the Apoptotic protease activation factor-1 (Apaf-1) to form the apoptosome (Li et al, 1997). This multi-pronged pathway allows activation of procaspase-9 on the apoptosome and subsequent proteolytic activation of procaspase and –7, which results in selective proteolysis of target proteins and cell death (Bratton and Salvesen, 2010)
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