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Hydrolysis of Carbonates, Thiocarbonates, Carbamates, and Carboxylic Esters of α-Naphthol, β-Naphthol, and p-Nitrophenol by Human, Rat, and Mouse Liver Carboxylesterases (1993)

Huang, Tien L. ; Székács, András ; Uematsu, Tamon ; [et al.]

Springer

Pharmaceutical research 10 (1993), S. 639-648

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ISSN: 1573-904X

Keywords: carboxylesterases ; mammalian liver ; hydrolases A and B ; α- and β-naphthyl substrates ; p-nitrophenol substrates ; esterase assay, in microtiter plate

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Thirty carbonates, thiocarbonates, carbamates, and carboxylic esters of α-naphthol, β-naphthol, and p-nitrophenol were synthesized and tested as substrates for liver carboxylesterases from the crude microsomal fractions of human and mouse, and purified isozymes, hydrolases A and B, from rat liver microsomes. The carbonates, thiocarbonates, and carboxylic esters of α-naphthol were cleaved more rapidly than the corresponding β-naphthol isomers by the mammalian liver esterases. α-Naphthyl esters of acetic, propionic, and butyric acids were among the best substrates tested for these enzymes. The majority of the substrates was consistently hydrolyzed at higher rates by hydrolase B compared with hydrolase A, although the Michaelis–Menten constant (K m) values of selected substrates differed widely with these two isozymes. Malathion was a 15-fold better substrate for hydrolase B than for hydrolase A. Compared with the corresponding carboxylates, the carbonate moiety of α- and β-naphthol and p-nitrophenol lowered the specific activities of the enzymes by about fivefold but improved stability under basic conditions. The optimum pH of mouse liver esterase with the acetate, methylcarbonate, and ethylthiocarbonate of α-naphthol was between pH 7.0 and pH 7.6. Human and mouse liver microsomal esterase activities were about five orders of magnitude lower than the esterase activities of purified rat liver hydrolase B. A relationship between the catalytic activity of the enzymes and the lipophilicity of the naphthyl substrates indicated that (i) in the α- and β-naphthyl carbonate series, an inverse relationship between enzyme activity and lipophilicity of the substrates was observed, whereas (ii) in the α-naphthyl carboxylate series, an increase in enzyme activity with increasing lipophilicity of the substrates up to a log P value of about 4.0 was observed, after which the enzyme activity decreased.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1018987111362

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Structure-Activity Relationships for Substrates and Inhibitors of Mammalian Liver Microsomal Carboxylesterases (1996)

Huang, Tien L. ; Shiotsuki, Takahiro ; Uematsu, Tamon ; [et al.]

Springer

Pharmaceutical research 13 (1996), S. 1495-1500

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ISSN: 1573-904X

Keywords: carboxylesterases ; mammalian liver ; thioester substrates ; trifluoromethylketone inhibitors ; structure-activity relationships

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. Carboxylesterases are important in the detoxification of drugs, pesticides and other xenobiotics. This study was to evaluate a series of substrates and inhibitors for characterizing these enzymes. Methods. A series of novel aliphatic esters and thioesters were used in spectral assays to monitor human, murine and porcine esterases. A series of transition state mimics were evaluated as selective esterase inhibitors. Results. Several α-alkyl thioacetothioates were found to be ~2 to 11-fold superior to commonly used substrates for monitoring carboxylesterase activity. Insertion of a heteroatom in the acid portion of these esters in the β or γ position relative to the carbonyl had a dramatic effect on enzyme activity with S or O substituents often improving the kCAT/K M ratio of the substrate and N decreasing it. Several α,α′-bis(2-oxo-3,3,3-trifluoropropylthio)alkanes proved to be potent selective transition state mimics of the esterase activity with IC50's from 10−5 to 10−9M. Conclusions. This library of substrates and inhibitors are useful research tools for characterizing the numerous isozymes of carboxylesterases present in mammalian tissues.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1016071311190

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Effects of Plant Identity and Chemical Constituents on the Efficacy of a Baculovirus Against Heliothis virescens (1998)

Hoover, Kelli ; Yee, Julie L. ; Schultz, Christine M. ; [et al.]

Springer

Journal of chemical ecology 24 (1998), S. 221-252

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ISSN: 1573-1561

Keywords: Baculovirus ; host-plant resistance ; peroxidase ; polyphenol oxidase ; Heliothis virescens ; tritrophic interactions ; cotton ; lettuce ; phenolics

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract Baculoviruses are arthropod-specific, dsDNA viruses primarily used to control lepidopteran pests. A limitation of the use of baculoviruses for pest control is that their efficacy is modifiable by host-plant chemicals. The levels of phenolic substrates and two foliar oxidative enzymes, peroxidase (POD) and polyphenol oxidase (PTO), were significant predictors of disease caused by a baculovirus in Heliothis virescens fed on either cotton or lettuce; POD was the more influential of the two enzymes. The higher the plant phenolase activity, the lower the percent mortality and the slower the insects died from viral infection. Whether a particular class of phenolic substrates was correlated with enhanced or attenuated baculoviral disease depended upon context, i.e., admixture. Diminution of viral efficacy by plant oxidative activity may compromise the compatibility of baculoviruses with other components of an integrated pest management system such as host plant resistance.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1022576207506

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Influence of Induced Plant Defenses in Cotton and Tomato on the Efficacy of Baculoviruses on Noctuid Larvae (1998)

Hoover, Kelli ; Stout, Michael J. ; Alaniz, Susan A. ; [et al.]

Springer

Journal of chemical ecology 24 (1998), S. 253-271

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ISSN: 1573-1561

Keywords: Induced resistance ; baculovirus ; Heliothis virescens ; Helicoverpa zea ; peroxidase ; polyphenol oxidase ; oxidative enzymes ; tritrophic interactions

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract Constitutive phenolase activity of plants has a profound ability to modulate disease in insects caused by baculoviruses. We investigated the influence of damage-induced plant phenolic oxidases in cotton and tomato on mortality caused by two different baculoviruses in their respective hosts, Heliothis virescens (L.) and Helicoverpa zea (Boddie). For both plant species, peroxidase (POD) and phenolic levels were predictive of larval mortality caused by baculoviruses. The higher the POD activity, the lower the mortality in both hosts. Different classes of phenolics (e.g., monohydroxyphenolics vs. catecholic phenolics) in combination with POD activity had different effects on the severity of viral disease depending upon mixture, which implies that viral efficacy is predictable only if total chemical content of the plants is specified. Inhibition of baculoviral disease by plant phenolase activity has potential implications for the compatibility of baculoviruses with induced resistance in IPM programs.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1022528324344

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Inhibition of Baculoviral Disease by Plant-Mediated Peroxidase Activity and Free Radical Generation (1998)

Hoover, Kelli ; Kishida, Kenneth T. ; DiGiorgio, Louis A. ; [et al.]

Springer

Journal of chemical ecology 24 (1998), S. 1949-2001

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ISSN: 1573-1561

Keywords: Baculovirus ; nucleopolyhedrovirus ; free radicals ; phenolic redox cycling ; clastogenesis ; peroxidase ; polyphenol oxidase ; antioxidants

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract The susceptibility of noctuid larvae to baculoviral infection is markedly affected by phytochemicals ingested during the acquisition of viral inoculum on foliage. We hypothesized that a major process causing phytochemical inhibition of viral disease is phenolic oxidation by phenolases, particularly peroxidase (POD), which subsequently generates free radicals. To test this hypothesis, we manipulated the chemical interactions in foliage of cotton, tomato, and lettuce by application of antioxidants, prooxidants, enriched extracts of phenolases, and/or phenolic substrates. Larvae of Heliothis virescens or Helicoverpa zea that received viral inoculum on treated foliage were less likely to die from viral infection the higher the POD activity of this foliage. Furthermore, the higher the POD activity, the more free radicals were generated in crushed foliage, and the more free radicals generated, the lower the incidence of viral disease. We present a series of reactions hypothesized to lead to inhibition of viral disease by free radicals, the generation of which is mediated, at least in part, by POD. Phenolic redox cycling catalyzed by POD involving clastogenesis (generation of H2O2) appeared to be a critical driver of phytochemical reactions leading to free radical generation and inhibition of baculoviral disease in their noctuid hosts. We also report application of an assay for the detection of free radicals by using methemoglobin as a new modification of this method for detecting radicals in plant foliage in the immediate aftermath of an oxidative burst.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1020777407980

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