Identification of promoter region of ghrelin gene in human medullary thyroid carcinoma cell line.

Ghrelin, an endogenous ligand for growth hormone (GH) secretagogue receptor, stimulates GH secretion. The ghrelin gene is expressed most abundantly in stomach. The mRNA is also detected in other tissues and cell lines. However, the mechanism of the transcriptional regulation of the ghrelin gene has not yet been clarified. In the present study, we have investigated the regulatory region of the ghrelin gene expression in the human medullary thyroid carcinoma cell line (TT cells). PCR analysis of the 5'-region for human ghrelin gene revealed the presence of the first exon corresponding to the short non-coding first exon of the mouse ghrelin gene. The first exon is located at the 502 bp upstream from the 5'-end of the formerly reported human ghrelin gene. RT-PCR analysis showed the expression of the first exon in the stomach and TT cells. The expression of the first exon in the human stomach was confirmed by 5'-RACE method. Significant level of promoter activity was observed in the 1225-1107 bp up-stream region of the translation initiation site by luciferase assay. Specific protein binding to the promoter region of -1129 to -1100 was detected by electrophoretic mobility shift assay with nuclear extract from TT cells. These results suggest that the ghrelin gene expression in TT cells might be regulated by the upstream region of the first exon.

Nakai N ，Kaneko M ，Nakao N ，Fujikawa T ，Nakashima K ，Ogata M ，Tanaka M ... -  《LIFE SCIENCES》

The mouse chemerin receptor gene, mcmklr1, utilizes alternative promoters for transcription and is regulated by all-trans retinoic acid.

CMKLR1 (chemoattractant-like receptor 1) is a G-protein-coupled receptor implicated in cartilage and bone development and is expressed in organs like the parathyroid gland, brain, and lung. The receptor is also expressed in dendritic cells and in macrophages where it acts as a co-receptor for entry of HIV/SIV isolates into human CD4(+) cells. Recently, a protein named "chemerin" (also known as TIG2) was isolated from human inflammatory fluids and hemofiltrate and found to be the endogenous ligand for CMKLR1. We have previously described the genomic organization of the cmklr1 gene and characterized its promoter in mouse neuroblastoma NB4 1A3 cells. In the present study we identify a second transcript, cmklr1b, in mouse microglia BV2 cells. Cmklr1b is transcribed from an alternative promoter with a transcription start site located 6780 bp downstream of the previously identified exon 1 (cmklr1a). The cmklr1b promoter lacks a TATA box but contains two CCAAT boxes in opposite directions. 5' Deletion analysis of the promoter region in BV2 cells using a luciferase reporter gene assay indicates two regions, between 623-755 bp and 56-125 bp upstream of transcription start site, to be important for promoter function. The proximal promoter region includes both CCAAT boxes, and site-directed mutagenesis separately within these elements revealed that only the forward CCAAT element was important for transcription. Although the forward CCAAT element is essential for transcription electrophoretic mobility shift and super-shift assays demonstrated that both CCAAT elements actually bind nuclear proteins from BV2 cells and identified the binding factor as NFY. Real-time reverse transcriptase-PCR experiments of cmklr1b expression in all-trans retinoic acid (ATRA)- stimulated BV2 cells showed strong up-regulation of receptor transcript. Luciferase reporter gene assay of the promoter in ATRA-stimulated BV2 cells confirmed that transcriptional activity of the cmklr1b promoter is increased by ATRA. However, deletion analysis could not identify an ATRA-responsive element within the promoter region suggesting that gene activation is likely to occur through alternative mechanisms. The results emphasise a possible role of cmklr1 in bone modelling.

Mårtensson UE ，Bristulf J ，Owman C ，Olde B ... -  《GENE》

Transcriptional regulation of the mouse PNRC2 promoter by the nuclear factor Y (NFY) and E2F1.

PNRC2 (Proline-rich Nuclear Receptor Coactivator 2) was previously identified through its interaction with SF1 (steroidogenic factor 1) and has been demonstrated to be a novel coactivator for multiple nuclear receptors. In this study, PNRC2 was found to be widely expressed in mouse tissues with a strong expression in lung, spleen, ovary, thymus, and colon. Alignment of mouse genomic sequence with mouse cDNA sequence (BC006598), using mouse genome browser, defines that PNRC2 gene, located on chromosome 4, contains 3 exons: 166 bp-exon I, 205 bp-exon II, and 1526 bp-exon III. The translational start site is located in exon III. The first two exons are not translated. The 420 bp coding sequence in exon III encodes a 140 amino acid protein. To understand the molecular mechanisms that regulate the expression of PNRC2 gene, we have cloned and characterized the 5'-flanking region of the gene. Potential transcriptional start sites were determined by 5' RACE analysis. Functional analysis of the 5' flanking region of the mPNRC2 gene by deletion mutagenesis, transient transfection and luciferase assays revealed that the -67/+53 region is the minimal promoter of the mouse PNRC2 gene in HeLa cells. Within this sequence we identified two putative binding sites (inverted CCAAT box) for the transcription factor NFY (nuclear factor Y), a factor mediating cell type-specific and cell-cycle regulated expression of genes, and one binding site for E2F1, a founding member of the E2F family that displays the properties of both an oncogene and a tumor suppressor gene. Mutating each individual CCAAT site or changing the orientation of the CAATT box led to a 5-fold decrease in PNRC2 promoter activity in transient transfection experiments. Gel shift, supershift assay, and ChIP analysis demonstrated the specific binding of NFY and E2F1 proteins to the mouse PNRC2 promoter. Transient transfections and luciferase assays further revealed that overexpression of NFY enhanced-promoter activity of PNRC2 gene in a dose-dependent manner while overexpression of E2F1 strongly repressed the activity of the PNRC2 promoter. Since most genes regulated by E2F1 or NFY play a regulatory role in the cell cycle, the finding that the PNRC2 promoter is activated by NFY and repressed by E2F1 indicates that in addition to functioning as nuclear receptor coactivator, PNRC2 may also play a role in the cell cycle.

Zhou D ，Masri S ，Ye JJ ，Chen S ... -  《GENE》

Seabream ghrelin: cDNA cloning, genomic organization and promoter studies.

Recent studies have indicated that ghrelin stimulates growth hormone release from the pituitary via the growth hormone secretagogue receptor (GHSR). We have previously isolated two GHSR subtypes from the pituitary of the black seabream Acanthopagrus schlegeli. In the present study, we have cloned and characterized ghrelin from the same fish species at both the cDNA and gene levels. The full-length seabream ghrelin cDNA, isolated from sea-bream stomach using a novel approach by exploiting a single conserved region in the coding region, was found to encode a prepropeptide of 107 amino acids, with the predicted mature ghrelin peptide consisting of 20 amino acids (GSSFLSPSQKPQNRGKSSRV). Embedded in this full-length cDNA is a putative fish orthologue of the recently reported mammalian obestatin peptide. The ghrelin gene in black seabream, obtained by genomic PCR, was found to encompass four exons and three introns, possessing the same structural organization as in tilapia and goldfish, but different from that in rainbow trout. In addition, a 2230-bp 5'-flanking region of the seabream ghrelin gene was obtained by genome walking. Sequence analysis revealed that, as in the case of the human ghrelin gene, there is neither a GC box nor a CAAT box present in the isolated 5'-flanking region. However, a number of putative transcription factor-binding sites different from the human counterpart were found in the 5'-flanking region of the seabream ghrelin gene, suggesting that different cis- and trans-acting elements are involved in controlling their gene expression. Functional activity of this 5'-flanking region was examined by cloning it into the pGL3-Basic vector upstream of the luciferase reporter gene and transfected into various cell lines. Positive promoter activity could only be recorded in the colon-derived Caco-2 cells, suggesting that the cloned 5'-flanking region represents the functional promoter of the seabream ghrelin gene, which exhibits tissue-specific promoter activity. Using reverse transcriptase PCR analysis, expression of ghrelin was detected only in the seabream stomach, but not in the other tissues examined, including the brain, gill, intestine, kidney, liver and spleen. This stomach-specific expression of ghrelin in seabream is subject to regulation, as administration of growth hormone or ipamorelin to the fish in vivo was demonstrated to enhance its expression. Reminiscent of the homologous upregulation found in the transcriptional control of the seabream GHSR gene, a similar homologous regulatory mechanism might also exist in controlling the expression of seabream ghrelin. The identification of both GHSR and ghrelin from a single fish species would facilitate our subsequent studies on the elucidation of the physiological functions of the ghrelin/GHSR system in teleost. The possible existence of obestatin in teleost opens up new research avenues on the somatotropic axis in fish.

Yeung CM ，Chan CB ，Woo NY ，Cheng CH ... -  《JOURNAL OF ENDOCRINOLOGY》

KLF4 positively regulates human ghrelin expression.

Lee HJ ，Kang YM ，Moon CS ，Joe MK ，Lim JH ，Suh YH ，Song J ，Jung MH ... -  《-》