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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)
Previous studies have shown that in vitro expression of the neural cell adhesion molecule (N-CAM) can be regulated by the products of homeobox genes HoxB9, -B8, and -C6. N-CAM is a Ca(2+)-independent immunoglobulin-related
CAM
that plays an important role in neural development. In the present study, we investigated whether the liver cell adhesion molecule (L-CAM) a member of the Ca(2+)-dependent
CAM
family (cadherins) is also regulated by homeobox-containing genes. In transient cotransfection experiments of NIH 3T3 cells, we observed that both HoxD9 and liver-enriched POU-homeodomain transcription factor, HNF-1, activated
chloramphenicol acetyltransferase
gene reporter constructs containing the L-
CAM
promoter and an enhancer present in the second intron of the chicken L-
CAM
gene. Using electrophoretic mobility-shift assays, we found that components of cell extracts from NIH 3T3 cells transfected with HoxD9 bound to a small region of the L-
CAM
enhancer having a consensus sequence that is a putative binding site for HNF-1. Components of extracts from the chicken hepatoma cell line LMH that had been transfected with an HNF-1 expression vector also bound to this same site. In nuclear run-on experiments with nuclei from LMH cells that were transfected with expression vectors for HoxD9 or HNF-1, L-
CAM
RNA levels were increased 33-fold and 4-fold respectively. Using the same run-on procedure, it was confirmed that nuclei prepared from normal embryonic chicken liver cells expressed the RNAs for HoxD9, HNF-1, and L-
CAM
. Taken together with previous observations, these data raise the possibility that homeobox-containing genes will have a widespread role in the place-dependent expression of CAMs belonging both to immunoglobulin-related and to cadherin families.
...
PMID:Regulation in vitro of an L-CAM enhancer by homeobox genes HoxD9 and HNF-1. 791 99
L-CAM is a calcium-dependent cell adhesion molecule that is expressed in a characteristic place-dependent pattern during development. Previous studies of ectopic expression of the chicken L-CAM gene under the control of heterologous promoters in transgenic mice suggested that cis-acting sequences controlling the spatiotemporal expression patterns of L-CAM were present within the gene itself. We have now examined the L-CAM gene for sequences that control its expression and have found an enhancer within the second intron of the gene. A 2.5-kb Kpn I-EcoRI fragment from the intron acted as an enhancer of a simian virus 40 minimal promoter driving a
chloramphenicol acetyltransferase
(
CAT
) reporter gene and produced 14.0-fold induction of
CAT
activity in MDCK cells. To narrow down the region responsible for enhancer activity and to determine whether the enhancer could function in a cell type-specific manner, a number of smaller restriction fragments from the intron were tested for activity in two chicken cell lines, the LMH hepatoma line, which produces high levels of L-CAM, and the SL-29 fibroblast line, which produces little, if any, L-CAM. Four L-CAM enhancer plasmids containing shorter segments derived from the intron showed enhanced
CAT
activity levels (between 9.4- and 16.5-fold) in extracts from transfected LMH cells but not from SL-29 cells. DNA sequence analysis of the L-CAM enhancer region revealed putative binding sites for the transcription factors SP1, E2A, and AP-2. In addition, LE-9, the smallest L-CAM enhancer segment (310 bp), contained a consensus binding site for the liver-enriched POU-homeodomain transcription factor, HNF-1. Tests of upstream sequences showed that a 630-bp fragment, corresponding to nearly the entire intergenic region between L-CAM and its neighboring
CAM
gene, K-
CAM
, could function as a promoter. In combination with the L-CAM enhancer, this fragment directed cell type-specific expression of the
CAT
reporter gene in LMH cells at a level comparable to that observed with enhancer constructs using the simian virus 40 minimal promoter. These combined observations define a promoter and an enhancer for the chicken L-CAM gene. They raise the possibility that these cis-acting regulatory sequences may be instrumental in directing specific place-dependent expression of the L-CAM gene in the chicken.
...
PMID:Identification of the promoter and a transcriptional enhancer of the gene encoding L-CAM, a calcium-dependent cell adhesion molecule. 824 53
