The mechanisms by which glucocorticoid receptor (GR) mediates glucocorticoid (GC)-induced apoptosis are unknown. We studied the role of mitochondrial GR in this process. Dexamethasone induces GR translocation to the mitochondria in GC-sensitive, but not in GC-resistant, T cell lines. In contrast, nuclear GR translocation occurs in all cell types. Thymic epithelial cells, which cause apoptosis of the PD1.6 T cell line in a GR-dependent manner, induce GR translocation to the mitochondria, but not to the nucleus, suggesting a role for mitochondrial GR in eliciting apoptosis. This hypothesis is corroborated by the finding that a GR variant exclusively expressed in the mitochondria elicits apoptosis of several cancer cell lines. A putative mitochondrial localization signal was defined to amino acids 558–580 of human GR, which lies within the NH2-terminal part of the ligand-binding domain. Altogether, our data show that mitochondrial and nuclear translocations of GR are differentially regulated, and that mitochondrial GR translocation correlates with susceptibility to GC-induced apoptosis.
Recent data cast new light on the mechanisms by which glucocorticoids (GCs) elicit apoptosis of thymocytes and leukemia cells. Here we attempt to integrate recent studies by others and us, which provide a novel insight to this apoptotic process. In the last few years it was made clear that there is a tight cooperation between genomic and non-genomic effects exerted by GC receptors (GRs). GC invokes major alterations in the gene expression profile through GR-mediated transactivation and transrepression, which ultimately tip the balance between pro-survival and pro-apoptotic proteins. Although essential in shaping the cell's proteome, these genomic effects are insufficient to elicit apoptotic death and additional signals are required for activating the pro-apoptotic proteins. Several non-genomic effects have been described that occur immediately following exposure to GC, which are imperative for the induction of apoptosis. We have recently observed that GC induces instant GR translocation to the mitochondria in GC-sensitive, but not in GC-resistant, T lymphoid cells. This response contrasts the nuclear translocation of GR occurring in both cell types. We propose that the sustained elevation of GR in the mitochondria following GC exposure is crucial for triggering apoptosis.
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