Hormonal induction of the mouse mammary tumour virus (MMTV) promoter is mediated by interactions between hormone receptors and other transcription factors bound to a complex array of sites. Previous results suggested that access to these sites is modulated by their precise organization into a positioned regulatory nucleosome. Using genomic footprinting, we show that MMTV promoter DNA is rotationally phased in intact cells containing either episomal or chromosomally integrated proviral fragments. Prior to induction there is no evidence for factors bound to the promoter. Following progesterone induction of cells with high levels of receptor, genomic footprinting detects simultaneous protection over the binding sites for hormone receptors, NF‐I and the octamer binding proteins. Glucocorticoid or progestin induction leads to a characteristic chromatin remodelling that is independent of ongoing transcription. The centre of the regulatory nucleosome becomes more accessible to DNase I and restriction enzymes, but the limits of the nucleosome are unchanged and the 145 bp core region remains protected against micrococcal nuclease digestion. Thus, the nucleosome covering the MMTV promoter is neither removed nor shifted upon hormone induction, and all relevant transcription factors bind to the surface of the rearranged nucleosome. Since these factors cannot bind simultaneously to free DNA, maintainance of the nucleosome may be required for binding of factors to contiguous sites.
DNA-dependent protein kinase (DNA-PK) has been implicated in several nuclear processes including transcription, DNA replication, double-stranded DNA break repair, and V(D)J recombination. Linkage of kinase and substrate on DNA in cis is required for efficient phosphorylation. Recruitment of DNA-PK to DNA is by Ku autoantigen, a DNA-end-binding protein required for DNA-PK catalytic activity. Although Ku is known to translocate along naked DNA, how DNA-end binding by Ku might lead to DNA-PK-mediated phosphorylation of sequence-specific DNA-binding proteins in vivo has not been obvious. Here we report the identification of Ku as a transcription factor that recruits DNA-PK directly to specific DNA sequences. NRE1 (negative regulatory element 1) is a DNA sequence element (-394/ -381) in the long terminal repeat of mouse mammary tumour virus (MMTV) that is important for repressing inappropriate viral expression. We show that direct binding of Ku/DNA-PK to NRE1 represses glucocorticoid-induced MMTV transcription.
Glucocorticoid receptor (GR) cycles between a free liganded form that is localized to the nucleus and a heat shock protein (hsp)-immunophilin-complexed, unliganded form that is usually localized to the cytoplasm but that can also be nuclear. In addition, rapid nucleocytoplasmic exchange or shuttling of the receptor underlies its localization. Nuclear import of liganded GR is mediated through a well-characterized sequence, NL1, adjacent to the receptor DNA binding domain and a second, uncharacterized motif, NL2, that overlaps with the ligand binding domain. In this study we report that rapid nuclear import (half-life [t 1/2 ] of 4 to 6 min) of agonist-and antagonist-treated GR and the localization of unliganded, hsp-associated GRs to the nucleus in G 0 are mediated through NL1 and correlate with the binding of GR to pendulin/importin ␣. By contrast, NL2-mediated nuclear transfer of GR occurred more slowly (t 1/2 ؍ 45 min to 1 h), was agonist specific, and appeared to be independent of binding to importin ␣. Together, these results suggest that NL2 mediates the nuclear import of GR through an alternative nuclear import pathway. Nuclear export of GR was inhibited by leptomycin B, suggesting that the transfer of GR to the cytoplasm is mediated through the CRM1-dependent pathway. Inhibition of GR nuclear export by leptomycin B enhanced the nuclear localization of both unliganded, wild-type GR and hormone-treated NL1 ؊ GR. These results highlight that the subcellular localization of both liganded and unliganded GRs is determined, at least in part, by a flexible equilibrium between the rates of nuclear import and export.The predominant pathway for the nuclear import of transcription factors and other nuclear regulatory proteins originates with the interaction of importin ␣-like proteins (also called karyopherin ␣, Rch1/hSRP␣, hSRP1/NPI-1, and pendulin/OHO31) with specific nuclear localization sequences (NLSs), which contain closely spaced arrangements of five to eight basic amino acids (31,62,64). For DNA sequence-specific transcription factors, NLSs generally colocalize with their DNA binding domains (DBDs), which appears to reflect a coevolutionary selective pressure to ensure that proteins that bind DNA are able to access the nucleus (52). Nuclear export, by contrast, occurs through alternative pathways, which for many proteins involves the binding of CRM1 (exportin 1) to hydrophobic nuclear export sequences (26,90).However, some transcription factors, including the glucocorticoid hormone receptor (GR), contain additional NLSs that occur in other regions of the proteins (69,89,95,99). In at least some instances, the presence of these additional NLSs has been found to reflect a requirement for specialized or tightly regulated nuclear localization of the protein. For example, the nuclear localization potential of one of the two NLSs in the adenovirus E1A protein is active only during early development (92), while two of the three c-abl NLSs promote nuclear localization of c-abl only in certain cell types (97, 99). T...
Glucocorticoids potentiate the early steps of preadipocyte differentiation and promote obesity in Cushing's syndrome and during prolonged steroid therapy. We show that glucocorticoids stimulate 3T3 L1 preadipocyte differentiation through a non-transcriptional mechanism mediated through the ligand-binding domain of the glucocorticoid receptor. This enhanced the onset of CCAAT/enhancer binding protein (C/EBPa) expression by potentiating its initial transcriptional activation by C/EBPb. In the absence of steroid, C/EBPb associated with a transcriptional corepressor complex containing mSin3A and histone deacetylase 1 (HDAC1), but lacking HDAC2 and RbAp46/48. HDAC1/mSin3A were recruited to the C/EBPa promoter with C/EBPb and promoted the deacetylation of histone H4. Steroid induced the speci®c depletion of this corepressor by targeting the HDAC1 within the complex for degradation through the 26S proteasome. Treatment with histone deacetylase inhibitors replaced the effects of steroid treatment on preadipocyte differentiation and C/EBPa expression, while overexpression of HDAC1 abrogated the stimulatory effects of steroid. Recapitulation of the glucocorticoid effect by progestin treatment in the presence of the progesterone receptor ligand-binding domain suggests a conserved mechanism relevant to many aspects of steroid-mediated differentiation. Keywords: CAAT enhancer binding protein b function/ histone deacetylase 1/initiation of preadipocyte differentiation/26S proteasome/steroid hormone action IntroductionThe glucocorticoid receptor (GR) is a ligand-activated nuclear hormone receptor that regulates gene expression primarily through direct interaction with DNA response elements (Mangelsdorf et al., 1995). Glucocorticoids provide an adipogenic stimulus that is most obvious in the truncal obesity of patients with Cushing's syndrome (Peeke and Chrousos, 1995). Weight gain is also a sideeffect of immunosuppressive glucocorticoid therapies (Pijl and Meinders, 1996). In rodents, the weight loss that follows adrenalectomy is prevented by glucocorticoid replacement (Freedman et al., 1986;Sainsbury et al., 2001). However, gene-targeted mice in which GR is compromised for DNA binding are of normal weight and do not display any overt signs of alterations in adipogenesis, suggesting that the effects of glucocorticoids on adipogenesis may be mediated through a non-genomic mechanism (Reichardt et al., 2000a).The adipocytes that constitute white fat originate from committed precursor cells, which differentiate in response to a series of cues including insulin and inducers of cAMP. In primary preadipocytes and most cell culture models, glucocorticoids strongly potentiate differentiation (Gregoire et al., 1998). The early responses to insulin and cAMP include the transient induction of CCAAT/enhancer binding protein (C/EBP) b and C/EBPd, and overexpression of C/EBPb is suf®cient to force preadipocyte differentiation in culture (Yeh et al., 1995). In vivo, the stimulatory effect of C/EBPb activity is complemented by the action of C/...
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