Uncovering a Novel Role of the Apoptotic Initiator Caspase, Caspase-2
dc.contributor.advisor | Kornbluth, Sally A | |
dc.contributor.author | Segear Johnson, Erika Lee | |
dc.date.accessioned | 2014-05-14T19:16:47Z | |
dc.date.available | 2016-05-03T04:30:05Z | |
dc.date.issued | 2014 | |
dc.department | Molecular Cancer Biology | |
dc.description.abstract | With the prevalence of obesity and metabolic syndrome rising sharply world-wide, it has become increasingly important to define the molecular mechanisms underlying the pathogenesis and progression of diseases associated with lipid-induced cytotoxicity. Cardiovascular disease, type-2 diabetes mellitus, and nonalchoholic fatty liver disease (NAFLD) have all recently gained recognition as diseases that are exacerbated by lipoapoptosis. In this dissertation, we demonstrate a novel role for caspase-2 as an initiator of lipoapoptosis. Using an unbiased metabolomics approach, we discovered that the activation of caspase-2, the initiator of apoptosis in Xenopus egg extracts, is associated with an accumulation of long-chain fatty acid (LCFA) metabolites. Metabolic treatments that block the buildup of LCFAs potently inhibit caspase-2, while add-back of a saturated LCFA restores caspase activation in the extract setting. Extending these findings to mammalian cells, we show that caspase-2 is engaged and activated in response to treatment with the saturated LCFA, palmitate. Down-regulation of caspase-2 significantly impairs cell death induced by saturated LCFAs, revealing a conserved, critical role for caspase-2 in mediating LCFA-induced lipoapoptosis. Since lipoapoptosis has been implicated as a key driver of the progression of NAFLD, we aimed to determine the therapeutic significance of our findings by evaluating the importance of caspase-2 in an in vivo model of this disease. We subjected wild-type and caspase-2 knockout mice to a diet which induces severe liver steatosis and the development nonalcoholic steatohepatitis (NASH), the most advanced stage of NAFLD characterized by liver fibrosis. Interestingly, we observed an increase in caspase-2 protein levels in the livers of wild-type mice fed a NASH-inducing diet. These findings were of particular importance, since caspase-2 expression was also significantly elevated in patients diagnosed with NASH. Most importantly, we demonstrated that caspase-2 knockout mice are protected from apoptosis and fibrosis when fed a NASH-inducing diet, suggesting that caspase-2 is major regulator of hepatocyte lipoapoptosis. Together, these findings reveal a previously unknown role for caspase-2 as an initiator of lipoapoptosis and suggest that caspase-2 may be an attractive therapeutic target for inhibiting pathological lipid-induced apoptosis. | |
dc.identifier.uri | ||
dc.subject | Biology | |
dc.subject | Cellular biology | |
dc.subject | Apoptosis | |
dc.subject | Caspase-2 | |
dc.subject | Hepatocyte | |
dc.subject | Lipids | |
dc.subject | Metabolism | |
dc.subject | Nonalcohohlic fatty liver disease | |
dc.title | Uncovering a Novel Role of the Apoptotic Initiator Caspase, Caspase-2 | |
dc.type | Dissertation | |
duke.embargo.months | 24 |
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