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Query: EC:2.3.1.28 (
chloramphenicol acetyltransferase
)
5,100
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Aromatase
, a cytochrome P-450, catalyzes the formation of aromatic C18 estrogenic steroids from C19 androgens. DNA sequence analysis of the human aromatase gene has revealed that a putative promoter sequence exists immediately up-stream of the second exon. Chloramphenicol acetyltransferase functional analyses of cells transfected with
chloramphenicol acetyltransferase
expression plasmids containing various DNA fragments derived from the 3'-end of the first intron of the aromatase gene were performed to show that a promoter indeed exists in this region. However, in all of the cell lines used in this study, MCF-7, JAR, OVCAR-3, and skin fibroblast, the function of this promoter was inhibited by a negative regulatory element situated up-stream from the promoter. The results further suggest that this inhibitory element behaves as a silencer element, in that it could inhibit a simian virus-40 promoter from a distance of several kilobases. This negative element worked in both orientations and inhibited the functions of several promoters, including the newly identified promoter situated in the 3'-end of the first intron of the human aromatase gene. Primer extension analysis has been performed to determine the potential transcription start site. The mechanism of the regulation of aromatase expression is known to be very complex. The presence of a promoter and a silencer at the 3'-end of the first intron may represent one additional way that aromatase expression is controlled in estrogen-producing cells.
...
PMID:Identification of a promoter and a silencer at the 3'-end of the first intron of the human aromatase gene. 133 79
The proximal promoter of the rat aromatase CYP19 gene contains two functional regions that, by 5'-deletion analyses, have been shown to confer hormone/ cAMP inducibility to chimeric genes in primary cultures of rat granulosa cells and constitutive expression in R2C Leydig cells. Promoter region A binds Steroidogenic Factor-1 (SF-1); region B binds cAMP-regulatory element binding protein (CREB) and two other factors (designated X and Y). Mutations were generated within the context of the intact promoter to selectively eliminate the binding of either SF-1, CREB, CREB plus factors X and Y, or all of the above. When expression vectors that failed to bind either CREB alone or CREB plus factors X and Y were transfected into granulosa cells, cAMP-dependent
chloramphenicol acetyltransferase
(
CAT
) activity was reduced 65% indicating that CREB alone, and not factors X and Y, mediates the cAMP response of this cAMP response element-like domain. Similarly, cAMP-dependent
CAT
activity was reduced 50% in constructs that failed to bind SF-1 and was abolished with vectors that were unable to bind either factor. In R2C Leydig cells, the absence of either CREB or SF-1 binding resulted in an almost complete loss in
CAT
activity. Both immunoreactive CREB and phosphorylated CREB (phospho-CREB) were present in extracts and nuclei of R2C cells. Immunoreactive phosphoCREB was low in granulosa cell extracts and nuclei but increased rapidly (90 min) in response to FSH/cAMP and was highest at 48 h, at a time when SF-1 was also phosphorylated and expression of the endogenous gene was elevated. Although the amount of CREB and SF-1 remained unchanged in response to FSH, LH mediated a rapid decrease in the amount of SF-1 (but not CREB) that is coincident with decreased
aromatase mRNA
in luteinizing granulosa cells. Taken together, the data indicate that expression of the aromatase gene is dependent on the additive interactions of regions A and B of the aromatase promoter in granulosa cells and the synergistic interactions of these same regions in R2C cells and that these interactions are dependent, in turn, on the phosphorylation of CREB and SF-1 and the content of these factors, as well as the presence of putative coregulatory molecules.
...
PMID:Functional interactions, phosphorylation, and levels of 3',5'-cyclic adenosine monophosphate-regulatory element binding protein and steroidogenic factor-1 mediate hormone-regulated and constitutive expression of aromatase in gonadal cells. 905 76
The expression of aromatase in human breast tumors was studied using the reverse transcription-polymerase chain reaction (RT-PCR) method on 70 breast tissue specimens. An RT-PCR analysis using two oligonucleotide primers derived from exon II of the human aromatase gene revealed that
aromatase mRNA
was detected in all but three tissue specimens. Furthermore, primer-directed RT-PCR was performed to determine the exon I usage in
aromatase mRNA
in these breast tumor specimens. The analysis revealed that exons I.3 and PII are the two major exons I present in
aromatase mRNA
isolated from breast tumors, suggesting that promoters I.3 and II are the major promoters driving aromatase expression in breast cancer and surrounding adipose stromal cells (ASCs). Recently, the regulatory properties of a 696-base pair region that contains promoter II, and is situated immediately upstream of exon II of the human aromatase gene, were investigated. Detailed DNase 1 footprinting analysis, DNA mobility shift assays, and
chloramphenicol acetyltransferase
(
CAT
) functional studies of this genomic region were performed and led to the identification of a segment (B1) that could act as a promoter (probably promoter I.3) in adipose stromal and breast cancer cells. The study further revealed that the B1 region could be divided into two domains which were designated RE1 and RE2. RE1 was found to have the promoter activity, and RE2 was found to regulate the promoter activity of RE1, but in different manners in MCF-7 cells (as an example of breast cancer cells) and in ASCs. RE2 was found to function as a positive regulatory element in MCF-7 cells and as a negative regulatory element in ASCs, respectively. It was also found that in several breast cancer cell lines, including MCF-7, the promoter activities of both promoter II and promoter I.3 were found to be suppressed by a negative regulatory element, a silencer, present in the 162 bp fragment which is located upstream from promoter II and downstream from promoter I.3. The precise position of the silencer element (termed S1) was localized by deletion mutation and DNase 1 footprinting analysis, and the silencing activity of S1 on promoter I.3 (in B1 fragment) was confirmed by
CAT
plasmid transfection experiments. UV crosslinking experiments are being performed to examine the regulatory proteins interacting with the silencer element. These studies serve as the basis for the further characterization of the regulatory mechanism of aromatase expression in human breast cancer and ASCs.
...
PMID:Gene regulation studies of aromatase expression in breast cancer and adipose stromal cells. 936 1
