Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Drug
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Compound
Query: EC:2.3.1.28 (
chloramphenicol acetyltransferase
)
5,100
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The digestion of dietary triglycerides occurs in the duodenum through the action of
triglyceride lipase
, a pancreatic exocrine protein. The activity of pancreatic lipase is inhibited by the bile salts normally found in the gut lumen. Another pancreatic exocrine protein, colipase, restores the lipolytic activity of
triglyceride lipase
. The synthesis and secretion of both
triglyceride lipase
and colipase is increased by dietary fats and secretin. An increase in mRNA accompanies the increased activity, suggesting that the genes for
triglyceride lipase
and colipase contain nucleotide elements responsive to dietary fats or secretin or both. To study the regulation of colipase expression, we have first isolated the gene for human colipase from a cosmid library with a cDNA probe. The gene was localized to chromosome 6 and is organized into three exons contained in a single 3.3-kb BamHI fragment. The 5'-flanking region of the gene contains a TATA box, a GC box, and a 28-bp region with homology to the rat pancreatic-specific enhancer. This region directs the tissue-specific expression of the
chloramphenicol acetyltransferase
gene in a transfected rat pancreatic acinar cell line, AR42-J. The same construct is inactive in HEPG2, C2C12, and COS-1 cells. These results demonstrate that the isolated gene for human colipase contains tissue-specific promoter activity in the 5'-flanking DNA. The 28-bp region specifically binds to a factor in nuclear extracts.
...
PMID:The human colipase gene: isolation, chromosomal location, and tissue-specific expression. 164 46
Production of inflammatory cytokines in the pancreas, lung, and liver is believed to play a major role in the development of severe pancreatitis. This tissue-specific production could lend itself to directed anti-cytokine gene therapy if an appropriate delivery system could be developed. This study was undertaken to examine a novel approach for the delivery of protein-based therapies to the tissues involved during acute pancreatitis. Healthy mice received an intraperitoneal injection of cationic liposomes and a DNA plasmid containing the
chloramphenicol acetyltransferase
(
CAT
) reporter gene. Animals were killed at 12 hours and 1, 2, 3, 7, and 14 days with serum, pancreas, lung, and liver harvested. Acute pancreatitis was induced (cerulein, 50 micrograms/kg/hr intraperitoneally x4) in additional mice before or after
CAT
transfection. The presence of pancreatitis was established in all animals by histologic scoring of pancreata and by serum amylase and
lipase
levels.
CAT
transfection efficiency was determined by quantitative
CAT
enzyme activity within tissue homogenates. Animals that received the liposome were successfully transfected with the
CAT
gene into the pancreas, lungs, and liver. Maximal transfection in each tissue occurred at 12 hours with decreasing
CAT
activity over the ensuing 14 days. No healthy animals receiving the
CAT
gene developed elevations in amylase,
lipase
, or any histologic parameter of pancreatitis. Transfection efficiency in the pancreas was markedly increased by preexisting or delayed induction of pancreatitis, whereas transfection of the lung and liver was increased to a lesser extent. Gene transfection into the pancreas, liver, and lungs is possible using a cationic liposome delivery system that does not induce pancreatitis or pancreatic inflammation. Pancreatic expression of the gene product is equal to or greater than that of the organs of the reticuloendothelial system and continues at very high efficiency rates during acute pancreatitis.
...
PMID:Cationic liposome-mediated gene transfer during acute pancreatitis: tissue specificity, duration, and effects of acute inflammation. 984 74
A testicular form of hormone-sensitive lipase (HSL(tes)), a
triacylglycerol lipase
, and cholesterol esterase, is expressed in male germ cells. Northern blot analysis showed HSL(tes) mRNA expression in early spermatids. Immunolocalization of the protein in human and rodent seminiferous tubules indicated that the highest level of expression occurred in elongated spermatids. We have previously shown that 0.5 kilobase pairs of the human HSL(tes) promoter directs testis-specific expression of a
chloramphenicol acetyltransferase
reporter gene in transgenic mice and determined regions binding nuclear proteins expressed in testis but not in liver (Blaise, R., Grober, J., Rouet, P., Tavernier, G., Daegelen, D., and Langin, D. (1999) J. Biol. Chem. 274, 9327-9334). Mutation of a SRY/Sox-binding site in one of the regions did not impair in vivo testis-specific expression of the reporter gene. Further transgenic analyses established that 95 base pairs upstream of the transcription start site were sufficient for correct testis expression. In gel retardation assays using early spermatid nuclear extracts, a germ cell-specific DNA-protein interaction was mapped between -46 and -29 base pairs. The DNA binding nuclear protein showed properties of zinc finger transcription factors. Mutation of the region abolished reporter gene activity in transgenic mice, showing that it is necessary for testis expression of HSL(tes).
...
PMID:Testis hormone-sensitive lipase expression in spermatids is governed by a short promoter in transgenic mice. 1107 52
