Spectroscopic investigation of the interaction of water-soluble azocalix[4]arenes with bovine serum albumin

In this work, three hydrosoluble azocalix[4]arene derivatives, 5-(o-methylphenylazo)-25,26,27-tris(carboxymethoxy)-28-hydroxycalix[4]arene (o-MAC-Calix), 5-(m-methylphenylazo)-25,26,27-tris(carboxymethoxy)-28-hydroxycalix[4]arene (m-MAC-Calix) and 5-(p-methylphenylazo)-25,26,27-tris(carboxymethoxy)-28-hydroxycalix[4]arene (p-MAC-Calix) were synthesized. Their structures were characterized by infrared spectrum (IR), nuclear magnetic resonance spectrum (¹H NMR and ¹³C NMR) and mass spectrum (MS). The interactions between these compounds and bovine serum albumin (BSA) were studied by fluorescence spectroscopy, UV–vis spectrophotometry and circular dichroic spectroscopy. According to experimental results, three azocalix[4]arene derivatives can efficiently bind to BSA molecules and the o-MAC-Calix displays more efficient interactions with BSA molecules than m-MAC-Calix and p-MAC-Calix. Molecular docking showed that the o-MAC-Calix was embedded in the hydrophobic cavity of helical structure of BSA molecular and the tryptophan (Trp) residue of BSA molecular had strong interaction with o-MAC-Calix. The fluorescence quenching of BSA caused by azocalix[4]arene derivatives is attributed to the static quenching process. In addition, the synchronous fluorescence spectroscopy indicates that these azocalix[4]arene derivatives are more accessible to Trp residues of BSA molecules than the tyrosine (Tyr) residues. The circular dichroic spectroscopy further verified the binding of azocalix[4]arene derivatives and BSA.     

Regulation of enzymic oxidation of indole-3-acetic acid by phenols: Structure-activity relationships

Mono- and diphenols were tested for their effects on the decarboxylation of [1-¹⁴C]IAA catalysed by purified horseradish peroxidase (EC 1.11.1.7) in the presence or absence of 2,4-dichlorophenol (DCP). The number of hydroxyl groups and their position relative to each other and the nature and position of other substituents on the aromatic ring were found to affect the activity. Although the effects were complex, the following generalizations may be made. (1) Monophenols produce activation when no other cofactor is present. p-Substituted monophenols are more active than o- or m-compounds. In the presence of DCP, the activity varies from slight activation to strong inhibition. (2) m-Diphenols also produce activation in the absence of other cofactors while o- and p-diphenols, with the exception of 3,4-dihydroxyacetophenone and 3,4-dihydroxypropiophenone, produce strong inhibition in the presence or absence of DCP. The o-diphenolsare degraded in the IAA-oxidizing enzyme system and thus produce only a temporary inhibition. (3) m-Diphenols and 3,4-dihydroxyacetophenone produce a sustained inhibition in the presence of DCP. (4) Substitution at position 2 significantly alters the activity of m-diphenols. (5) O-Methylation alters the activity of most o-diphenols. In the absence of DCP, o-methoxyphenols and certain other phenols such as 3,4-dihydroxyacetophenone and 2,6-dihydroxyacetophenone either promote or inhibit IAA oxidation depending on concentration.     

Leucine aminopeptidase (bovine lens): Synthesis and kinetic properties of ortho-, meta-, and para-substituted leucyl-anilides

The synthesis of a number of leucyl derivatives of substituted anilides and their properties as substrates and inhibitors of Zn²⁺-Mg²⁺ leucine aminopeptidase (EC 3.4.11.1) at pH 8.5 and 30 °C are described. The compounds include leucyl-X where X is o-, m-, or p-aminobenzenesulfonic acid, o-, m-, or p-anisidine, and m- or p-aminobenzenesulfonyl fluoride. The latter two sulfonyl fluorides, designed to be active site-directed irreversible inhibitors, turned out to be good substrates for leucine aminopeptidase. The K_m and V values of the above compounds as substrates for leucine aminopeptidase are reported. N-Leucyl-m-aminobenzenesulfonate exhibits desirable properties (solubility much greater than K_m, Δ? at 295 nm of 2000 m^?1 cm^?1, and V of 300 μmol min^?1 mg^?1) as a substrate for a spectrophotometric assay of leucine aminopeptidase. With the exception of N-leucyl-p-aminobenzenesulfonate, all of the above compounds are inhibitors of the hydrolysis of leucyl-p-nitroanilide by leucine aminopeptidase with K_i values approximately their K_m values when they are used as substrates. Despite wide variability in steric bulk, chemical composition, and electrical charge of the substituted anilides, the K_m values of the above compounds vary over a narrow range (0.5 to 4.8 mm), which indicates that the leucyl moiety plays the predominant role in the determination of K_m values. Although the K_m values of m- substituents are similar to those of o- substituents, the V values for m-substituents are much greater than those for o- substituents, which suggests that o-substituents interfere with the catalytic process. N-Leucyl-p-aminobenzenesulfonate and N-alanyl-p-aminobenzenesulfonate as well as the nonsubstrate p-aminobenzenesulfonate stimulate rather than inhibit the proteolysis of leucyl-p-nitroanilide. The stimulation has no effect on V but lowers the K_m for the hydrolysis of leucyl-p-nitroanilide, which is compatible with these compounds' serving as nonessential activators.     

Towards non-peptide ANG II AT1 receptor antagonists based on urocanic acid: rational design,synthesis and biological evaluation

A series of o-, m- and p-benzyl tetrazole derivatives 11a–c has been designed, synthesized and evaluated as potential Angiotensin II AT1 receptor antagonists, based on urocanic acid. Compound 11b with tetrazole moiety at the m-position showed moderate, however, higher activity compared to the o- and p-counterpart analogues. Molecular modelling techniques were performed in order to extract their putative bioactive conformations and explore their binding modes.     

Inhibition of horseradish peroxidase byN-ethylamide ofo-sulfobenzoylacetic acid

The carboxylic groups of horseradish peroxidase were modified by 1-cyclohexyl-3-(2-morpholinoethyl)carbodiimide metho-p-toluenesulfonate by the Koshland method. The catalytic properties of the native and modified peroxidase were studied in the presence ofN-ethylamide ofo-sulfobenzoylacetic acid (EASBA) at pH 5.0–7.5. In the oxidation ofo-dianisidine, EASBA is a competitive inhibitor of the carbidiimide-modified peroxidase, and it increases bothK _m andV _m in the case of the native enzyme. These data show that at least one of the carboxylic groups modified with carbodiimide is located at the area of the peroxidase active site.     

Synthesis and evaluation of 18F-labeled mitiglinide derivatives as positron emission tomography tracers for β-cell imaging

Measuring changes in β-cell mass in vivo during progression of diabetes mellitus is important for understanding the pathogenesis, facilitating early diagnosis, and developing novel therapeutics for this disease. However, a non-invasive method has not been developed. A novel series of mitiglinide derivatives (o-FMIT, m-FMIT and p-FMIT; FMITs) were synthesized and their binding affinity for the sulfonylurea receptor 1 (SUR1) of pancreatic islets were evaluated by inhibition studies. (+)-(S)-o-FMIT had the highest affinity of our synthesized FMITs (IC₅₀ = 1.8 μM). (+)-(S)-o-[¹⁸F]FMIT was obtained with radiochemical yield of 18% by radiofluorination of racemic precursor 7, hydrolysis, and optical resolution with chiral HPLC; its radiochemical purity was >99%. In biodistribution experiments using normal mice, (+)-(S)-o-[¹⁸F]FMIT showed 1.94 ± 0.42% ID/g of pancreatic uptake at 5 min p.i., and decreases in radioactivity in the liver (located close to the pancreas) was relatively rapid. Ex vivo autoradiography experiments using pancreatic sections confirmed accumulation of (+)-(S)-o-[¹⁸F]FMIT in pancreatic β-cells. These results suggest that (+)-(S)-o-[¹⁸F]FMIT meets the basic requirements for an radiotracer, and could be a candidate positron emission tomography tracer for in vivo imaging of pancreatic β-cells.     

Inhibition of phenylalanine ammonia-lyase by cinnamic acid derivatives and related compounds

Thirty-five derivatives of cinnamic acid and related compounds were tested for inhibition against phenylalanine ammonia-lyase (PAL) derived from sweet potato, pea and yeast. Caffeic and gallic acids showed inhibition against PAL originating from higher plants, but not against yeast PAL. In contrast, yeast PAL was specifically inhibited by p-hydroxycinnamic and p-hydroxybenzoic acids. The results suggest that caffeic and gallic acids may act as regulatory substances in phenylpropanoid metabolism in higher plants. Inhibition experiments with synthetic cinnamic acid derivatives have revealed that the presence of a hydrophobic aromatic ring, α,β-double bond and carboxyl group is essential for inhibitory activity. 2-Naphthoic acid which fulfills these structural requirements showed a strong inhibition. The size and shape of the active site is discussed from structure-activity relationships of cinnamic acid derivatives. o-Chlorocinnamic acid, one of the strongest inhibitors found in this study showed an inhibitory effect on the growth of the roots of rice seedlings.     

Changes in isoperoxidases induced by hydroxyphenylacetic acids

The effects ofo-, m- andp-hydroxyphenylacetic acids on total peroxidase activity and isoperoxidase patterns of wheat coleoptile sections were studied.o-andm-HOPA reduced the total peroxidase activity whilep-HOPA increased it. Electrophoresis in polyacrylamide gel revealed thato- andm-HOPA diminish the intensity of some anodic and cathodic bands, but thatp-HOPA increases anodic and reduces cathodic isoperoxidases. These results may explain the apparently paradoxical positive effects ofp-HOPA on both growth and total peroxidase activity.     

Synthesis and antitubercular activity of novel Schiff bases derived from d-mannitol

Six Schiff base derivatives of d-mannitol, 1,6-dideoxy-1,6-bis-{[(E)-arylmethylidene]amino}-d-mannitol (6: aryl = XC₆H₄: X = o-, m- and p- Cl or NO₂), have been synthesized and evaluated for their in vitro antibacterial activity against Mycobacterium tuberculosis H₃₇Rv using the Alamar Blue susceptibility test and the activity expressed as the minimum inhibitory concentration (MIC) in μg/mL. All three nitro derivatives exhibit significant activities: activities of (6d: X = o-NO₂), (6e: X = m-NO₂) and (6f: X = p-NO₂) are 12.5, 25.0 and 25.0 μg/mL, respectively. When compared with first line drugs, such as ethambutol, they can be considered as a good starting point to develop new lead compounds for the treatment of multidrug-resistant tuberculosis. Characterization of the new compounds 6 is generally achieved spectroscopically. The structure of compound 3 has been confirmed by X-ray crystallography.     

Design,synthesis, evaluation and QSAR analysis of N1-substituted norcymserine derivatives as selective butyrylcholinesterase inhibitors

We synthesized a series of N¹-substituted norcymserine derivatives 7a–p and evaluated their anti-cholinesterase activities. In vitro evaluation showed that the pyridinylethyl derivatives 7m–o and the piperidinylethyl derivative 7p improved the anti-butyrylcholinesterase activity by approximately threefold compared to N¹-phenethylnorcymserine (PEC, 2). A quantitative structure-activity relationship (QSAR) study indicated that logS might be a key feature of the improved compounds.     

Metabolism of chlorobenzene with hepatic microsomes and solubilized cytochrome P-450 systems

Chlorobenzene is converted to mixture of o-, m-, and p-chlorophenols in perfused rat livers, and in the following cell-free hepatic preparations from rat: postmitochondrial supernatant, microsomes, and reconstituted soluble hemoprotein systems. The percentage of m-chlorophenol steadily decreases with increasing resolution of the hemoprotein-monoxygenase system. Prior treatment of rats with 3-methylcholanthrene results in a large increase in rate of formation of the ortho isomer in all hepatic systems. Prior treatment with phenobarbital results in moderate increases in rates of formation of all three chlorophenols. Formation of the three chlorophenols is inhibited to similar extents by carbon monoxide, metyrapone, and high concentrations of glutathione. SKF-525a and 7,8-benzoflavone inhibit formation of o- and p-chlorophenols to a greater extent than that of the meta isomer; with microsomal preparations NADH greatly potentiates NADPH-dependent formation of p-chlorophenol, moderately potentiates formation of m-chlorophenol and has little effect on formation of o-chlorophenol. Dihydrodiols are not significant metabolites of Chlorobenzene with the soluble hemoprotein systems. These results, in concert with changes in proportions of phenolic metabolites seen during resolution of hepatic systems from the intact cell of the perfused liver to the soluble hemoprotein, are at least consonant with the hypothesis that chlorophenol production from Chlorobenzene is catalyzed by three different enzymes, two of which form arene oxide intermediates and one of which catalyzes a direct formation of a phenol. Thus, o- and p-chlorophenols result, respectively, on isomerization of intermediate 3- and 4-chlorobenzene oxides, while formation of m-chlorophenol would appear to occur via a direct oxidative pathway. In vitro conjugation of the arene oxide with glutathione or hydration is not a significant pathway. Assay of chlorophenols and dihydrodiols of Chlorobenzene was by high-pressure liquid chromatography.     

Biotransformation of o- and p-aminobenzoic acids and N-acetyl p-aminobenzoic acid by cell suspension cultures of Solanum mammosum

Some new biotransformation products, p-aminobenzoic acid 7-O-β-d-glucopyranosyl ester, N-acetyl p-aminobenzoic acid 7-O-β-d-glucopyranosyl ester, o-aminobenzoic acid 7-O-β-d-(β-1,6-O-d-glucopyranosyl)glucopyranosyl ester and o-aminobenzoic acid 7-O-β-d-glucopyranosyl ester were isolated from cell suspension cultures of Solanum mammosum following administration of p-aminobenzoic acid, N-acetyl p-aminobenzoic acid or o-aminobenzoic acid respectively. N-acetyl p-aminobenzoic acid and N-formyl p-aminobenzoic acid were also identified as cell suspension metabolites of p-aminobenzoic acid.     

Physicochemical Parameters for Structure-Activity-Studies of Substituted Phenyl N-Methylcarbamates

The electronic and hydrophobic substituent parameters of a number of o-, m- and p- substituted phenyl N-methylcarbamates were estimated by measuring the alkaline catalyzed hydrolysis rate constant and 1-octanol/water partition coefficient. Since some o-substituted derivatives are very potent insecticides, emphasis was placed on determining the ortho substituent effects in terms of the existing free-energy related parameters. The information obtained should be useful in structure-activity studies of carbamate insecticides.     

Molecular Determinants of the Regioselectivity of Toluene/o-Xylene Monooxygenase from Pseudomonas sp. Strain OX1

Bacterial multicomponent monooxygenases (BMMs) are a heterogeneous family of di-iron monooxygenases which share the very interesting ability to hydroxylate aliphatic and/or aromatic hydrocarbons. Each BMM possesses defined substrate specificity and regioselectivity which match the metabolic requirements of the strain from which it has been isolated. Pseudomonas sp. strain OX1, a strain able to metabolize o-, m-, and p-cresols, produces the BMM toluene/o-xylene monooxygenase (ToMO), which converts toluene to a mixture of o-, m-, and p-cresol isomers. In order to investigate the molecular determinants of ToMO regioselectivity, we prepared and characterized 15 single-mutant and 3 double-mutant forms of the ToMO active site pocket. Using the Monte Carlo approach, we prepared models of ToMO-substrate and ToMO-reaction intermediate complexes which allowed us to provide a molecular explanation for the regioselectivities of wild-type and mutant ToMO enzymes. Furthermore, using binding energy values calculated by energy analyses of the complexes and a simple mathematical model of the hydroxylation reaction, we were able to predict quantitatively the regioselectivities of the majority of the variant proteins with good accuracy. The results show not only that the fine-tuning of ToMO regioselectivity can be achieved through a careful alteration of the shape of the active site but also that the effects of the mutations on regioselectivity can be quantitatively predicted a priori.     

Isotope effects in O- and N-demethylations mediated by rat liver microsomes: an application of direct insertion electron impact mass spectrometry

Isotope effects of ～2 have been found for the O-demethylation of p-nitroanisole, p-methoxyacetanilide, and p-dimethoxybenzene and the respective trideuteromethyl derivatives, when mediated by rat liver microsomes.The direct insertion mode of electron impact mass spectrometry (the advantages and limitations of which are discussed) was used together with conventional methods (observation of formaldehyde release, product analysis by spectrophotometry) to determine the isotope effects. Only the mass spectrometry method was applicable for determining the isotope effect associated with the mono-O-demethylation of p-trideuteromethoxyanisole and an unusually large value (10) was found.An insignificant isotope effect (≯ 1.05) was found for the mono-N-demethylation of l-(o-carbamoylphenyl)-3,3-dimethyltriazene and its di-(trideuteromethyl) analogue. The protium and deuterium forms had closely similar growth-inhibitory activities for the TLX5 lymphoma in mice.     

Structural analysis of the reaction products of chitosan with o-, m- and p-phthalaldehydes

Chitosan, a $\text{(I}\text{a}\text{?}\text{4)-}\text{linked}$ 2-amino-2-deoxy-β-d-glucan, was allowed to react with o-, m- and p-phthalaldehydes in aqueous acetic acid-methanol at room temperature to give the corresponding Schiff's base derivative (d.s. ～ 1.0/hexosaminyl residue) in a gel form. The dry product was isolated in yields of 90–97%, and the fine structure was analysed. Both the crosslinking and N-formylbenzylidene structures were present in an almost equal molar ratio in the reaction product of chitosan with p-phthalaldehyde and at a molar ratio of 0.1:0.9 in the reaction product of chitosan with m-phthalaldehyde. However, both structures were absent in the reaction product of chitosan with o-phthalaldehyde, and an intramolecular cyclic structure was present.     

A simple method for detecting drug effects on the DNA of mammalian cells

A simple method for detecting drug or X-ray effects on the DNA of intact cells is described. This method uses an easily constructed viscometer to measure changes in the viscosity of alkaline cell lysates. The method has been tested by comparing the effects of 4′-[(9-acridinyl)amino]methanesulfon-o-anisidide (oAMSA), 4′-[(9-acridinyl)amino]methanesulfon-m-anisidide (mAMSA), daunorubicin, and adriamycin on cellular DNA.     

Microbial Models of Mammalian Metabolism: Aromatic Hydroxylation of Isomeric Xylenes

The ability of 11 microorganisms to convert o-, m-, and p-xylene to monophenolic metabolites was evaluated. Four organisms were found to produce qualitatively identical products to those observed with mammalian systems.     

Action of Benzoic Acid and its o-, m- and p-Hydroxy-Derivatives on the Dark- and Light-Induced Leaflet Movements in Cassia fasciculata Michx.

Benzoic acid and its o-, m- and p-hydroxy derivatives appliedon excised leaves of Cassia fasciculata modified the dark-induced(scotonasty) and light-induced (photonasty) leaflet movements.Benzoic acid inhibited the scotonastic closure in a dose-dependentmanner from 10^–4M to 10^–3M and promoted the photonasticopening at optimum concentration of 5.10^–4M. These effectswere dependent upon the position of hydroxyl group on the benzoicring, the o-derivative inducing a stronger effect than the m-and p-derivatives. Experiments showed that treatment with o-hydroxybenzoicacid had not to exceed 30–60 min and that the maximumeffect was obtained at pH 5.5. (Received September 16, 1986; Accepted June 22, 1987)     

The effects of external potassium and long duration voltage conditioning on the amplitude of sodium currents in the giant axon of the squid, Loligo pealei

Giant axons were voltage-clamped in solutions of constant sodium concentration (230 mM) and variable potassium concentrations (from 0 to 210 mM). The values of the peak initial transient current, I_p, were measured as a function of conditioning prepulse duration over the range from less than 1 msec to over 3 min. Prepulse amplitudes were varied from E _m = -20 mv to E _m = -160 mv. The attenuation of the I_p values in high [K_o] was found to vary as a function of time when long duration conditioning potentials were applied. In both high and low [K_o], I_p values which had reached a quasi-steady—state level within a few milliseconds following a few milliseconds of hyperpolarization were found to increase following longer hyperpolarization. A second plateau was reached with a time constant of about 100–500 msec and a third with a time constant in the range of 30 to 200 sec. The intermediate quasi-steady—state level was absent in K-free ASW solutions. Sodium inactivation curves, normalized to I _pmax values obtained at either the first or second plateaus, were significantly different in different [K_o]. The inactivation curves, however, tended to superpose after about 1 min of hyperpolarizing conditioning. The time courses and magnitudes of the intermediate and very slow sodium conductance restorations induced by long hyperpolarizing pulses are in agreement with those predicted from the calculated rates and magnitudes of [K⁺] depletion in the space between the axolemma and the Schwann layer.