Cascades of mammalian caspase activation in the yeast Saccharomyces cerevisiae

Academic Article


  • Caspases (aspartate-specific cysteine proteases) play a critical role in the execution of the mammalian apoptotic program. To address the regulation of human caspase activation, we used the yeast Saccharomyces cerevisiae, which is devoid of endogenous caspases. The apical procaspases, -8β and - 10, were efficiently processed and activated in yeast. Although protease activity, per se, was insufficient to drive cell death, caspase-10 activity had little effect on cell viability, whereas expression of caspase-8β was cytotoxic. This lethal phenotype was abrogated by co-expression of the pan- caspase inhibitor, baculovirus p35, and by mutation of the active site cysteine of procaspase-8β. In contrast, autoactivation of the executioner caspase-3 and -6 zymogens was not detected. Procaspase-3 activation required co-expression of procaspase-8 or -10. Surprisingly, activation of procaspase- 6 required proteolytic activities other than caspase-8, -10, or -3. Caspase- 8β or -10 activity was insufficient to catalyze the maturation of procaspase-6. Moreover, a constitutively active caspase-3, although cytotoxic in its own right, was unable to induce the processing of wild-type procaspase-6 and vice versa. These results distinguish sequential modes of activation for different caspases in vivo and establish a yeast model system to examine the regulation of caspase cascades. Moreover, the distinct terminal phenotypes induced by various caspases attest to differences in the cellular targets of these apoptotic proteases, which may be defined using this system.
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    Digital Object Identifier (doi)

    Author List

  • Kang JJ; Schaber MD; Srinivasula SM; Alnemri ES; Litwack G; Hall DJ; Bjornsti MA
  • Start Page

  • 3189
  • End Page

  • 3198
  • Volume

  • 274
  • Issue

  • 5