Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P51532 (transcriptional activator)
 6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DNA-binding proteins containing the basic helix-loop-helix (bHLH) domain have been implicated in lineage determination and the regulation of specific gene expression in a number of cell types. By oligonucleotide screening of an adipocyte cDNA expression library, we have identified a novel member of the bHLH-leucine zipper transcription factor family designated ADD1. ADD1 mRNA is expressed predominantly in brown adipose tissue in vivo and is regulated during both determination and differentiation of cultured adipocyte cell lines. ADD1 can function as a sequence-specific transcriptional activator in that it stimulates expression of a chloramphenicol acetyltransferase vector containing multiple ADD1 binding sequences but is unable to activate the myosin light-chain enhancer, which contains multiple binding sites for another bHLH factor, MyoD. ADD1 can also activate transcription through a binding site present in the 5'-flanking region of the fatty acid synthetase gene which is expressed in a differentiation-dependent manner in adipose cells. These data suggest that ADD1 plays a role in the regulation of determination- and differentiation-specific gene expression in adipocytes.
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PMID:ADD1: a novel helix-loop-helix transcription factor associated with adipocyte determination and differentiation. 833 13

Glucose-regulated transcription of the L-type pyruvate kinase (L-PK) gene is mediated through its glucose response element (GlRE/L4 box) composed of two degenerated E-boxes. Upstream stimulatory factor (USF) is a component of the transcriptional glucose response complex built up on the GlRE. Cooperation of the GlRE with the contiguous binding site (L3 box) for the orphan nuclear receptor hepatocyte nuclear factor 4 (HNF4) has also been suggested. We compared by transient transfection assays the effects of USF2a and other basic helix-loop-helix leucine zipper (bHLH-LZ) factors (TFE3, c-Myc, SREBP/ADD1) on the activity and glucose responsiveness of a minimal L-PK promoter directed by oligomerized glucose response units (L4L3 boxes). We found that: (i) although USF2a is intrinsically a moderate transcriptional activator, it has a strong stimulatory effect on the activity of the L4L3-based reporter construct in hepatocyte-derived cells and interferes with the glucose responsiveness; (ii) despite its potent ability as a transactivator, TFE3 alone is barely active on the GlRE in hepatocyte-derived cells; (iii) TFE3 as USF2a acts synergistically with HNF4 and abolishes glucose responsiveness of the promoter when overexpressed; (iv) in contrast, overexpression of HNF4 alone stimulates activity of the promoter without interfering with glucose responsiveness; (v) SREBP/ADD1 has a very weak activity on the L4L3 elements, only detectable in the presence of HNF4, and c-Myc does not interact with the GIRE of the L-PK promoter. Our studies indicate that different bHLH-LZ transcription factors known to recognize CACGTG-type E-boxes are not equivalent in acting through the L-PK glucose response element, with USF proteins being especially efficient in hepatocyte-derived cells.
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PMID:Effect of different basic helix-loop-helix leucine zipper factors on the glucose response unit of the L-type pyruvate kinase gene. 969 82

Adiponectin is expressed in adipose tissue by adipogenic transcription factors including PPARgamma, C/EBPalpha, and ADD1/SREBP1c. Because cAMP-response element binding protein (CREB) is also a central transcriptional activator of adipocyte differentiation, we evaluated CREB to determine if it stimulates adiponectin gene expression. To accomplish this, we evaluated the effects of activated CREB on the promoter activity of the mouse adiponectin gene, and identified the cAMP-response element (CRE) in the promoter. The constitutively active form of CREB increased the promoter activity of the mouse adiponectin gene. In addition, transfection studies using 5' serial deleted promoters revealed the presence of a putative CRE located between the -1250 and -1000bp region. Furthermore, an electrophoresis mobility shift assay (EMSA) and chromatin immunoprecipitation (ChIP) analysis demonstrated that CREB bound to the region between -1022 and -995 in the adiponectin promoter. Insulin-like growth factor (IGF-1), which activate CREB, increased the adiponectin promoter activity. However, this stimulation was prevented by the dominant negative form of CREB (ACREB) and pretreatment with PD098059, indicating that IGF-1 stimulate adiponectin expression through CREB phosphorylation via the ERK pathway. Importantly, the transactivation of adiponectin expression by CREB was inhibited by ATF3. Coimmunoprecipitation and GST pull-down assay revealed that ATF3 bound to CREB and prevented CREB phosphorylation induced during differentiation of 3T3-L1 adipocytes. Collectively, these findings demonstrate that CREB is a positive regulator of mouse adiponectin gene expression in adipocytes, which play an important role in the regulation of adiponectin expression in response to growth factor.
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PMID:cAMP-response element binding protein (CREB) positively regulates mouse adiponectin gene expression in 3T3-L1 adipocytes. 1993 81