Gene/Protein
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Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: EC:3.5.1.4 (
deaminase
)
5,113
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Incubation of rat hepatocytes with anandamide (arachidonoylethanolamide) inhibited acetyl-CoA carboxylase activity and fatty acid synthesis de novo without affecting
fatty acid synthase
. This was concomitant to a decrease in the intracellular levels of malonyl-CoA. Likewise, anandamide depressed both cholesterol synthesis de novo and the incorporation of exogenous palmitate into triacylglycerols and phospholipids. On the other hand, anandamide stimulated in parallel both carnitine palmitoyltransferase I activity and ketogenesis from palmitate, though ketogenesis from octanoate was unaffected. The effects of anandamide on hepatic fatty acid synthesis and oxidation were: (a) mimicked by arachidonic acid, a product of anandamide breakdown by anandamide
amidase
; (b) prevented by phenylmethylsulfonyl fluoride, an inhibitor of anandamide
amidase
; and (c) not affected by bisindolylmaleimide, a specific inhibitor of protein kinase C. Furthermore, delta 9-tetrahydrocannabinol had no effect on any of the parameters determined, ruling out the possibility that the effects of anandamide on hepatic fatty acid metabolism are mediated by the peripheral cannabinoid receptor. The results thus indicate that anandamide might function as a carrier of arachidonic acid in the modulation of hepatic fatty metabolism.
...
PMID:Effects of anandamide on hepatic fatty acid metabolism. 757 52
R1128 substances are anthraquinone natural products that were previously reported as non-steroidal estrogen receptor antagonists with in vitro and in vivo potency approaching that of tamoxifen. From a biosynthetic viewpoint, these polyketides possess structurally interesting features such as an unusual primer unit that are absent in the well studied anthracyclic and tetracyclic natural products. The entire R1128 gene cluster was cloned and expressed in Streptomyces lividans, a genetically well developed heterologous host. In addition to R1128C, a novel optically active natural product, designated HU235, was isolated. Nucleotide sequence analysis of the biosynthetic gene cluster revealed genes encoding two ketosynthases, a chain length factor, an acyl transferase, three acetyl-CoA carboxylase subunits, two cyclases, two oxygenases, an
amidase
, and remarkably, two acyl carrier proteins. Feeding studies indicate that the unusual 4-methylvaleryl side chain of R1128C is derived from valine. Together with the absence of a dedicated ketoreductase, dehydratase, or enoylreductase within the R1128 gene cluster, this suggests a functional link between fatty acid biosynthesis and R1128 biosynthesis in the engineered host. Specifically, we propose that the R1128 synthase recruits four subunits from the endogenous
fatty acid synthase
during the biosynthesis of this family of pharmacologically significant natural products.
...
PMID:Cloning, nucleotide sequence, and heterologous expression of the biosynthetic gene cluster for R1128, a non-steroidal estrogen receptor antagonist. Insights into an unusual priming mechanism. 1093 52
The pyrazinamide (PZA) analog 5-chloropyrazinamide (5-Cl PZA) is active against mycobacterial species, including PZA-resistant strains of Mycobacterium tuberculosis. In M. smegmatis, overexpression of the type 1
fatty acid synthase
(FAS I) confers resistance to 5-Cl PZA, a potent FAS I inhibitor. Since M. tuberculosis and M. bovis cannot tolerate FAS I overexpression, 5-Cl PZA resistance mutations have yet to be described for tubercle bacilli. In an attempt to identify other factors that govern the activity of 5-Cl PZA, we selected for 5-Cl PZA-resistant isolates from a library of transposon-mutagenized M. smegmatis isolates. Here, we report that increased expression of the M. smegmatis pyrazinamidase PzaA confers resistance to 5-Cl PZA and susceptibility to PZA in M. smegmatis, M. tuberculosis, and M. bovis. In contrast, while ectopic overexpression of the M. tuberculosis pyrazinamidase PncA increases PZA susceptibility, this
amidase
does not mediate resistance to 5-Cl PZA. We conclude that PncA-independent turnover of 5-Cl PZA represents a potential mechanism of resistance to this compound for M. tuberculosis, which will likely translate into enhanced PZA susceptibility. Thus, countersusceptibility can be manipulated as a resistance-proofing strategy for PZA-based compounds when these agents are used simultaneously.
...
PMID:Mutually exclusive genotypes for pyrazinamide and 5-chloropyrazinamide resistance reveal a potential resistance-proofing strategy. 2087 80
