To better understand how leukemia inhibitory factor (LIF) activates proopiomelanocortin (POMC) gene transcription in pituitary corticotrophs, time-course studies of the induction of POMC promoter activity and specific tyrosine phosphorylation of signal transducer and activator of transcription 1 (STAT1) and STAT3 were performed. It was found that both phosphorylation of STAT1 and -3 and activation of the promoter activity rapidly and transiently take place within minutes and 2-6 h, respectively, in favor of a direct effect of the LIF pathway on POMC promoter. Activated STAT1 and -3 form homo-/heterodimers able to bind the Sis-inducible element. The most abundant Sis-inducible element binding dimers are STAT3/3 and STAT1/3. Degenerated STAT1/3-binding sites from the POMC promoter were tested for their ability to bind activated STAT1 and 3; only the -390/-379 site, partially overlapping the Nur response element, binds with low affinity activated STAT1 and -3. Analysis of the three domains and subregions of the POMC promoter showed that two subregions are specifically responsive to LIF. The response of the distal subregion requires the intact STAT1 and -3 DNA-binding site -390/-379, whereas the responsiveness of the proximal subregion takes place despite the absence of direct STAT1 and -3 DNA binding and may imply interaction of activated STAT with basal transcription factors.
Leukemia inhibitory factor (LIF) cooperates with CRH at the pituitary level to induce POMC gene transcription, resulting in activation of the pituitary-adrenal axis. However, the underlying molecular mechanisms remain elusive. Here, we show that the NurRE-signal transducers and activators of transcription (STAT) composite element of the POMC promoter was the predominant target of the LIF-CRH synergy. Whereas NurRE or STAT sites alone conferred synergy, the maximal response was found with the NurRE-STAT reporter, suggesting that direct DNA binding of both transcription factors is required for an optimal synergy. During LIF-CRH stimulation, Nur77 and activated STAT1-3 were bound to the composite element, and the binding of each factor was abolished by appropriate mutations. CREB was also detected in this complex in a stimulation-dependent and DNA binding-independent manner. Nur77 and STAT1-3 bound to the NurRE-STAT site were each sufficient for CREB recruitment. Recombinant CREB directly interacted with recombinant Nur77 or STAT1-3. Moreover, CREB-Nur77 interaction was increased by CREB phosphorylation at Ser-133 and the dominant-negative mutant CREB-M1 efficiently inhibited the synergistic LIF-CRH response. This synergism was also inhibited after transfection of CREB-small interfering RNA. We conclude that both CREB phosphorylation at Ser-133 and level of CREB expression are crucial in LIF-CRH synergism where CREB, without direct DNA binding, could improve the stability of Nur77 and STAT1-3 binding to POMC promoter and facilitate the recruitment of coactivators. This novel intrapituitary signaling mechanism may have more general implications in cross talks between cAMP-protein kinase A and Janus kinase-STAT pathways.
We previously have described molecular mechanisms converging at the Nur response element-signal transducer and activator of transcription (STAT) composite site responsible for synergistic activation of the proopiomelanocortin (POMC) gene promoter by leukemia inhibitory factor (LIF) and CRH. In this study, we asked how glucocorticoids (GC), the physiological negative regulators of POMC gene expression, modulate this synergism. In the corticotroph cell line AtT-20, the response of the wild-type promoter to LIF+CRH was barely inhibited by GC, whereas a distal promoter subregion (-414/-293) encompassing the Nur response element-STAT site and devoid of the negative GC-responsive element located in the proximal domain, displayed a cooperative response to LIF+dexamethasone (DEX) and LIF+CRH+DEX treatments. LIF+CRH-stimulated ACTH secretion was also inefficiently inhibited by DEX in the same cell line. This study was focused thereafter on LIF+DEX cooperativity, which may be responsible, on the wild-type promoter, for lack of negative regulation by DEX of the LIF+CRH synergy. The STAT1-3 low-affinity site, in the context of the (-414/-293) subregion of the POMC promoter, was found necessary and sufficient for transcriptional synergism between activated GC receptor (GR) and STAT1-3. Moreover the activities of reporters specific for STAT1-3 or GR were reciprocally enhanced by DEX or LIF. Single and sequential chromatin immunoprecipitations revealed 1) a STAT-dependent corecruitment of coactivators after LIF and LIF+DEX stimulation and 2) a more lasting recruitment of both STAT3 and GR in the same enhanceosome on the endogenous POMC promoter after LIF+DEX joint stimulation than after the single one. Such events may be responsible for a lack of repressive property of GR unmasked on the whole POMC promoter during LIF+CRH stimulation and may contribute to the tonicity of the hypothalamic-pituitary-adrenal axis during inflammatory-infectious diseases.
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