Dorota Haber scite author profile

We examined the intramolecular effect of altered cap structures on translation efficiency of artificial beta-globin mRNAs. For these studies, synthetic dinucleotides of the form X(5')ppp(5')G [X = 7-methyl guanosine (m7G), 2,7-dimethyl guanosine (m2(2,7)G) or 2,2,7-trimethyl guanosine (m3(2,2,7)G)], were transcriptionally incorporated into mRNAs, containing rabbit beta-globin coding sequences, using T7 RNA polymerase and a beta-globin cDNA template. These synthetic mRNAs were assayed in reticulocyte lysate for activity relative to m7G-capped mRNA. m2(2,7)G-Capped mRNA was found to be 1.5-fold more active than m7G-capped mRNA. Messenger RNA capped with m3(2,2,7)G was less active with activity of 0.24 relative to its m7G-capped counterpart (activity = 1.0). These data suggest that m7G-capped mRNAs become more active as translation templates after addition of a single N2 methyl moiety, which is especially pertinent to gene expression in togaviridae. The latter are observed to synthesize m2(2,7)G and m3(2,2,7)G-capped mRNAs in addition to m7G-capped templates during the course of infection in animal cells.

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Inhibition of eukaryotic translation by nucleoside 5'-monophosphate analogs of mRNA 5'-cap: changes in N7 substituent affect analog activity

Darżynkiewicz¹,

Stępiński²,

Ekiel³

et al. 1989

Biochemistry

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Nucleotide cap analogues of 7-methylguanosine 5'-monophosphate (m7GMP) were synthesized in which the 7-methyl moiety was replaced with 7-ethyl (e7), 7-propyl (p7), 7-isopropyl (ip7), 7-butyl (b7), 7-isobutyl (ib7), 7-cyclopentyl (cp7), 7-(carboxymethyl) (cm7), 7-benzyl (bn7), 7-(2-phenylethyl) [7-(2-PhEt)], and 7-(1-phenylethyl) [7-(1-PhEt)]. These derivatives were assayed as competitive inhibitors of capped mRNA translation in reticulocyte lysate. We observed that N7 alkyl and alicyclic substituents larger than ethyl significantly decreased the inhibitory activity of these cap analogues presumably by decreasing their affinity for cap binding proteins, which participate in the initiation of translation. This result defined a maximum size for this class of N7 substituents in the nucleotide binding domain of cap binding proteins. Like m7GMP, the N7-substituted GMP derivatives synthesized in this study were found to be predominantly in the anti conformation as determined by proton NMR analyses. However, bn7GMP and 7-(2-PhEt)GMP, which have aromatic N7 substituents, were more effective than m7GMP as competitive inhibitors of translation. The increased affinity of bn7GMP for cap binding proteins was further examined by synthesis of beta-globin mRNA containing 5'-bn7G, 5'-m7G, or 5'-e7G cap structures. These modified mRNAs were tested as translation templates. Messenger RNA capped with bn7G was observed to increase the translation activity of the template 1.8-fold relative to that of its m7G-capped mRNA counterpart. By contrast, e7G-capped mRNA was 25% less active than m7G-capped mRNA.2+V photo-cross-linking of m7G-capped mRNA to cap binding proteins

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Synthesis, Conformation and Hydrolytic Stability of p¹,p³−Dinucleoside Triphosphates Related to mRNA 5′-cap, and Comparative Kinetic Studies on their Nucleoside and Nucleoside Monophosphate Analogs

Darżynkiewicz

Stępiński

Tahara

et al. 1990

Nucleosides and Nucleotides

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Modification of hepatic drug-metabolizing enzymes in rat fed naturally occurring allyl sulphides

et al. 1994

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1. The effects of feeding allyl sulphides to rat (2000 ppm of the diet for 15 days) were investigated on various microsomal hepatic drug-metabolizing enzymes by their immunochemical detection and catalytic activity. 2. Allyl sulphides provoked a temporary dietary restriction, which enhanced the microsomal level of P450 and the activities of NADH-cytochrome c reductase and p-hydroxybiphenyl UDP-glucuronyltransferase (UDPGT 2), and lowered the activities of p-nitrophenol hydroxylase (PNPH), N-nitrosodimethylamine demethylase (NDMAD), laurate omega-hydroxylase (LAH) and glutathione S-transferase (GST). Therefore, pair-fed animals were used as a more relevant control for the dietary effects of allyl sulphides. 3. Diallyl sulphide (DAS) as well as diallyl disulphide (DADS) produced an enhancement of the microsomal level of P4501A2, 2B1/2 and 3A1/2, and epoxide hydrolase (EH) proteins, with an increase in the enzymatic activities they catalyse: ethoxyresorufin O-deethylase (EROD), aryl hydrocarbon hydroxylase (AHH), methoxyresorufin O-demethylase (MROD), ethoxycoumarin O-deethylase (ECOD), pentoxyresorufin O-depentylase (PROD), benzoxyresorufin O-debenzylase (BROD) and EH. Although P4502E1 proteins were lowered on treatment, NDMAD activity was not modified, and PNPH activity was even enhanced by allyl sulphides. Only DAS treatment raised erythromycin N-demethylase (ERDM) activity. 4. Both DAS and DADS increased the activity of GST and p-nitrophenol UDP-glucuronyltransferase (UDPGT 1), whereas UDPGT 2 activity was enhanced only by DAS.

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Differential effects of dietary diallyl sulfide and diallyl disulfide on rat intestinal and hepatic drug‐metabolizing enzymes

Haber

Siess²,

Canivenc-Lavier³

et al. 1995

Journal of Toxicology and Environmental Health

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The chemopreventive properties of allyl sulfides on carcinogenesis may be related to the modulation of drug-metabolizing enzymes involved in carcinogen activation or detoxication. In order to investigate the effects of diallyl sulfide (DAS) and diallyl disulfide (DADS) on intestinal and hepatic drug-metabolizing enzymes, rats were fed a diet containing 0.2% of either allyl sulfide. The DADS enhanced intestinal epoxide hydrolase (EH) and cytochrome P-450 (P-450) 2B1/2 protein levels and the activities of pentoxy- and benzyl-oxyresorufin O-dealkylases, arylhydrocarbon hydroxylase, microsomal epoxide hydrolase, p-nitrophenol UDP-glucuronyl transferase and glutathione S-transferase, and decreased nitrosodimethylamine demethylase activity. In liver, DADS produced similar effects and, in addition, increased P-450 1A1/2 protein level and phenoxazone metabolizing activities (ethoxy- and methoxyresorufin O-dealkylases), p-hydroxybiphenyl UDP-glucuronyl transferase, and decreased P-450 2E1 level. The DAS enhanced only EH activity in the small intestine and induced P-450 2B1/2 and epoxide hydrolase protein levels. In liver, DAS produced similar effects as DADS. The different effects of DAS on intestinal drug-metabolizing enzymes, compared to liver, could be ascribed to less metabolism of this compound in small intestine. It is also suggested that DAS and DADS may not yield the same metabolites and therefore would have different effects on intestinal drug-metabolizing enzymes.

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Dorota Haber

-globin mRNAs capped with m7G, m22.7G or m32.2.7G differ in intrinsic translation efficiency

Inhibition of eukaryotic translation by nucleoside 5'-monophosphate analogs of mRNA 5'-cap: changes in N7 substituent affect analog activity

Synthesis, Conformation and Hydrolytic Stability of p¹,p³−Dinucleoside Triphosphates Related to mRNA 5′-cap, and Comparative Kinetic Studies on their Nucleoside and Nucleoside Monophosphate Analogs

Modification of hepatic drug-metabolizing enzymes in rat fed naturally occurring allyl sulphides

Differential effects of dietary diallyl sulfide and diallyl disulfide on rat intestinal and hepatic drug‐metabolizing enzymes

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Dorota Haber

-globin mRNAs capped with m7G, m22.7G or m32.2.7G differ in intrinsic translation efficiency

Inhibition of eukaryotic translation by nucleoside 5'-monophosphate analogs of mRNA 5'-cap: changes in N7 substituent affect analog activity

Synthesis, Conformation and Hydrolytic Stability of p1,p3−Dinucleoside Triphosphates Related to mRNA 5′-cap, and Comparative Kinetic Studies on their Nucleoside and Nucleoside Monophosphate Analogs

Modification of hepatic drug-metabolizing enzymes in rat fed naturally occurring allyl sulphides

Differential effects of dietary diallyl sulfide and diallyl disulfide on rat intestinal and hepatic drug‐metabolizing enzymes

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Synthesis, Conformation and Hydrolytic Stability of p¹,p³−Dinucleoside Triphosphates Related to mRNA 5′-cap, and Comparative Kinetic Studies on their Nucleoside and Nucleoside Monophosphate Analogs