Chemical Studies on Amino—Carbonyl Reaction

When N-n-butyl-D-xylosylamine was heated with acetic acid in methanol at 55~70°G, it decomposed to N-n-butyIpyrrole-2-aldehyde,** through 3-deoxy-d-pentosulose as an intermediate. d-Xylose and methylamine in neutralized aqueous solution at 65~100°C also formed N-methylpyrrole-2-aldehyde. N-n-Butyl-l-rhamnosylamine, in a mixture of methanol and acetic acid, formed the corresponding pyrrolealdehyde, l-n-butyl-5-methylpyrrole-2- aldehyde, at the almost same rate as did N-xyloside. On the contrary, N-n-butyl-d-glucosylamine, under the same condition, did not form any detectable amount of the corresponding pyrrolealdehyde, but formed complicated products. A formation mechanism of the pyrrolealdehydes from 3-deoxyosulose and amine was proposed.     

Chemical Studies on Amino––Carbonyl Reaction

The 3-deoxy-n-pentosone (I) was isolated from the browning degradation mixture of N-n-xy1osy1-n-butylamine by the action of acetic acid at 55°C. The 3-deoxy-d-erythrohexosone (IIa) and the 3-deoxy-n-threohexosone (IIb) were also prepared by degradation of the corresponding N-glycosyl-n-butylamine. The 3-deoxy-d-pentosone was characterized as the 2,4-dinitrophenylosazone and its diacetate, and the p-nitrophenylosazone. The two 3-deoxy-d-hexosones were also characterized as the analogous derivatives. The three 3-deoxyosones gave positive color reactions with 2-thiobarbituric acid.

As one of the intermediates in 3-deoxyosone formation from N-glycoside, 1,2-eno1 form of 1-deoxy-1-n-butylamino-2-ketose (IV) was proposed.     

Effects of Calcium Ion on the Catalytic Activity of α-Chymotrypsin in Organic Solvents

Addition of small amounts of calcium ion markedly accelerated the transesterification of N-acetyl-l-tyrosine methyl ester to its ethyl ester by the catalysis of α-chymotrypsin in organic solvents. Maximum increase of the reaction rate was about 12-fold in the presence of 25 μm of calcium ion in ethanol. The rate increase was strongly dependent on calcium ion concentration and nature of organic solvents. Esterification of N-acetyl-l-tyrosine and hydrolysis of N-acetyl-l-tyrosine ethyl ester by α-chymotrypsin in organic solvents were also accelerated by calcium ion. The reactions obeyed Michaelis–Menten kinetics, and the acceleration of the reactions was due to the increase in k_cat.     

γ-Irradiation of malic acid in aqueous solutions

The -irradiation of malic acid in aqueous solutions was studied under initially oxygenated and oxygen-free conditions in an attempt to determine the possible interconversion of malic acid into other carboxylic acids, specifically those associated with Krebs cycle. The effect of dose on product formation of the system was investigated. Gas-liquid chromatography combined with mass spectrometry was used as the principal means of identification of the non-volatile products. Thin layer chromotography and direct probe mass spectroscopy were also employed.The findings show that a variety of carboxylic acids are formed, with malonic and succinic acids in greatest abundance. These products have all been identified as being formed in the -irradiation of acetic acid, suggesting a common intermediary. Since these molecules fit into a metabolic cycle, it is strongly suggestive that prebiotic pathways provided the basis for biological systems.     

Activity of Stress-related Antioxidative Enzymes in the Invasive Plant Crofton Weed （Eupatorium adenophorum）

Crofton weed is an invasive weed in southwestern China. The activities of several antioxidative enzymes involved in plant protection against oxidative stress were assayed to determine physiological aspects of the crofton weed that might render the plant vulnerable to environmental stress. Stresses imposed on crofton weed were heat （progressively increasing temperatures： 25 ℃, 30 ℃, 35 ℃, 38℃ and 42 ℃ at 24 h intervals）, cold （progressively decreasing temperatures： 25 ℃, 20 ℃, 15℃, 10 ℃ and 5℃ at 24h intervals）, and drought （without watering up to 4days）. The three stresses induced oxidative damage as evidenced by an increase in lipid peroxidation. The effect varied with the stress imposed and the length of exposure. The activity of superoxide dismutase （SOD） increased in response to all stresses but was not significantly different from the controls （P 〈 0.05） when exposed to cold stress. Catalase （CAT） activity decreased in response to heat and drought stress but increased when exposed to cold conditions. Guaiacol peroxidase （POD） and glutathione reductase （GR） activities increased in response to cold and drought but decreased in response to heat stress. The activity of ascorbata peroxidase （APX） responded differently to all three stresses. Monodehydroascorbate reductase （MDHAR） activity decreased in response to heat and drought, and slightly increased in response to the cold stress but was not significantly different from the controls （P 〈 0.05）. The activity of dehydroascorbata reductase （DHAR） increased in response to all three stresses. Taken together, the co-ordinate increase of the oxygen-detoxifying enzymes might be more effective to protect crofton weed from the accumulation of oxygen radicals at low temperatures rather than at high temperatures.     

γ-Irradiation of Barley Seeds and Its Effect on the Phytohormonal Status of Seedlings

We investigated the effect of γ-irradiation (4–50 Gy) of barley seeds (Hordeum vulgare L., cv. Nur) on the content of endogenous phytohormones–stimulators of plant growth and development: indol-3-acetic acid (IAA), indolyl-3-butyric acid (IBA), zeatin and abscisic acid (ABA). The ratio (IAA + IBA + zeatin)/ABA from the third to the seventh day of germination has been measured. It was shown that the changes in the content of phytohormones as a function of the radiation dose were nonlinear. In the dose range of 4–20 Gy, phytohormones balance was changed due to increased content of growth stimulators and decreased ABA content. Using a dose of 50 Gy led primarily to a decrease in the content of growth stimulators and an increase in ABA content, and the ratio (IAA + IBA + zeatin)/ABA shifted toward ABA content.     

Effects of Peptide and Non-Peptide Opioids on Protective Reaction of the Cockroach Periplaneta americana in the “Hot Camera”

The ability of morphine, naloxone, and several opioid peptides of the group of beta-casomorphines to change the time of the stay of cockroaches Periplaneta americana in a hot camera (t = 47°C) was studied. It has been shown that the morphine dose ED₅₀ increasing twice the stay amounts to 200 µg/g, while hat of naloxone, to 40, of heptapeptide YPFPGPI, to 440, and of pentapeptide YPFPG, to 420 µg/g. Hexapeptide YPFPGP free of the N-terminal tyrosine had no statistically significant effect on the stay duration. The earlier changes of the stay duration (in 15–60 min after injection; the most pronounced for morphine and naloxone) corresponded to the ability of these drugs to act on the mu-type opioid receptors. The high peptide affinity to the delta-type receptors led to development of the later effects (in 90–150 min after injection; the most pronounced for heptapeptide YPFPGPI). A combined injection of naloxone and heptapeptide lead to the mutual inhibition of their effect: the peptide eliminated the early effect of naloxone on the stay duration, whereas naloxone, the late effects of beta-casomorphine. The obtained results indicate an important role of the endogenous opioid system in control of protective behavior of insects, as well as heterogeneity of the receptor components of the system.     

Effects of Dichloroethene Isomers on the Induction and Activity of Butane Monooxygenase in the Alkane-Oxidizing Bacterium “Pseudomonas butanovora”

We examined cooxidation of three different dichloroethenes (1,1-DCE, 1,2-trans DCE, and 1,2-cis DCE) by butane monooxygenase (BMO) in the butane-utilizing bacterium “Pseudomonas butanovora.” Different organic acids were tested as exogenous reductant sources for this process. In addition, we determined if DCEs could serve as surrogate inducers of BMO gene expression. Lactic acid supported greater rates of oxidation of the three DCEs than the other organic acids tested. The impacts of lactic acid-supported DCE oxidation on BMO activity differed among the isomers. In intact cells, 50% of BMO activity was irreversibly lost after consumption of ~20 nmol mg protein⁻¹ of 1,1-DCE and 1,2-trans DCE in 0.5 and 5 min, respectively. In contrast, a comparable loss of activity required the oxidation of 120 nmol 1,2-cis DCE mg protein⁻¹. Oxidation of similar amounts of each DCE isomer (~20 nmol mg protein⁻¹) produced different negative effects on lactic acid-dependent respiration. Despite 1,1-DCE being consumed 10 times faster than 1,2,-trans DCE, respiration declined at similar rates, suggesting that the product(s) of oxidation of 1,2-trans DCE was more toxic to respiration than 1,1-DCE. Lactate-grown “P. butanovora” did not express BMO activity but gained activity after exposure to butane, ethene, 1,2-cis DCE, or 1,2-trans DCE. The products of BMO activity, ethene oxide and 1-butanol, induced lacZ in a reporter strain containing lacZ fused to the BMO promoter, whereas butane, ethene, and 1,2-cis DCE did not. 1,2-trans DCE was unique among the BMO substrates tested in its ability to induce lacZ expression.     

Effects of Amino Acid Substitutions at the Active Site in Escherichia Coli β-Galactosidase

Forty-nine amino acid substitutions were made at four positions in the Escherichia coli enzyme β-galactosidase; three of the four targeted amino acids are thought to be part of the active site. Many of the substitutions were made by converting the appropriate codon in lacZ to an amber codon, and using one of 12 suppressor strains to introduce the replacement amino acid. Glu-461 and Tyr-503 were replaced, independently, with 13 amino acids. All 26 of the strains containing mutant enzymes are Lac(-). Enzyme activity is reduced to less than 10% of wild type by substitutions at Glu-461 and to less than 1% of wild type by substitutions at Tyr-503. Many of the mutant enzymes have less than 0.1% wild-type activity. His-464 and Met-3 were replaced with 11 and 12 amino acids, respectively. Strains containing any one of these mutant proteins are Lac(+). The results support previous evidence that Glu-461 and Tyr-503 are essential for catalysis, and suggest that His-464 is not part of the active site. Site-directed mutagenesis was facilitated by construction of an f1 bacteriophage containing the complete lacZ gene on a single EcoRI fragment.     

Substitution of Lysine for Arginine in the N-Terminal 217th Amino Acid Residue of the HγII of Staphylococcall γ-Hemolysin Lowers the Activity of the Toxin

The staphyloccocal toxin γ-hemolysin consists of two protein components, LukF and HyII. Staphylococcus aureus P83 was found to have five components, LukF, LukF-PV, LukM, LukS, and HγII for leukocidin or γ-hemolysin. HγII of S. aureus P83 was demonstrated to be a naturally-occurring analogous molecule of HγII [HγII(P83)], in which the 217th arginine residue was replaced by lysine. The HγII(P83) showed about 50% of the hemolytic activity of normal HyII in the presence of LukF.     

Antioxidative Activity of Microbial Metabolites of (−)-Epigallocatechin Gallate Produced in Rat Intestines

The antioxidative activities of (?)-epigallocatechin gallate (EGCg) metabolites degraded by rat intestinal flora were investigated by a flow injection analysis coupled to an on-line antioxidant detection system with the 2,2′-azinobis (3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) radical cation. All of the metabolites were found to have antioxidative activity, suggesting that the EGCg metabolites may show antioxidative activity in the body.     

Decomposition Pathways of p-Bromophenol on γ-Irradiation in Aqueous Systems

In order to elucidate the radiolysis mechanism of p-bromophenol, quantitative determination of the radiolysis products was carried out by gas chromatography and polarography. G(?p · BP) and G(Br^?) were 3.86 and 2.58 at neutral pH, and 1.09 and 0.26 at pH 1.0, respectively, This, together with the radical scavenger effects indicated that hydrated electrons contribute principally to the degradation of p-bromophenol through debromination, followed by the formation of dimer and trimer products by phenylation of the resulting p-hydroxyphenyl radical. This chain-like reaction may cause the difference (G-value = 1.28) between G(?p· BP) and G(Br^?). The contribution of OH radicals to G(?p· BP) is known to be small as compared with other aromatic compounds, because of the poor yield of hydroxylated products such as hydroquinone, 4-bromocatechol and 4-bromoresorcinol.     

Effects of Aging and Amyloid-β Peptides on Choline Acetyltransferase Activity in Rat Brain

Choline acetyltransferase (ChAT, acetyl-CoA:choline O-acetyltransferase, EC 2.3.1.6), involved in the learning and memory processes is responsible for the synthesis of acetylcholine. There are many discrepancies in literature concerning ChAT activity during brain aging and the role of amyloid beta peptides in modulation of this enzyme. The aim of the study was to investigate the mechanism of ChAT regulation and age-related alteration of ChAT activity in different parts of the brain. Moreover the effect of A peptides on ChAT activity in adult and aged brain was investigated. The enzyme activity was determined in the brain cortex, hippocampus and striatum in adult (4-months-old), adult-aged (14-months-old) and aged (24-months-old) animals. The highest ChAT activity was observed in the striatum. We found that inhibitors of protein kinase C, A, G and phosphatase A2 have no effect on ChAT activity and that this enzyme is not dependent on calcium ions. About 70% of the total ChAT activity is present in the cytosol. Arachidonic acid significantly inhibited cytosolic form of this enzyme. In the brain cortex and striatum from aged brain ChAT activity is inhibited by 50% and 37%, respectively. The aggregated form of A 25-35 decreased significantly ChAT activity only in the aged striatum and exerted inhibitory effect on this enzyme in adult, however, statistically insignificant. ChAT activity in the striatum was diminished after exposure to 1 mM H₂O₂. The results from our study indicate that aging processes play a major role in inhibition of ChAT activity and that this enzyme in striatum is selectively sensitive for amyloid beta peptides.     

Sugar Specificity in the Induction and on the Activity of Streptomyces α-d-Galactosidases

The α-d-galactosidases of six Streptomyces strains were examined on their inducer susceptibility, substate specificity, and inhibitor susceptibility. In all strains examined, α-d-galactosidase was induced by d-galactose, but neither by d-fucose nor by l-arabinose. α-d-Fucosidase activity was always induced accompanying with α-d-galactosedase activity. β-l-Arabinosidase activity, however, was never observed. These α-d-galactosidases were purified to electrophoretically pure degree by successive ammonium sulfate and ethanol precipitation, and ion exchange and gel filtration chromatography. The purified preparations from six strains were different from each other in their chromatographic behaviors and in some physical properties, but they all showed strong α-d-fucosidase activity as well. The α-d-galactosidase activities were strongly inhibited by d-galactose and l-arabinose, but scarcely by d-fucose. On the other hand, their α-d-fucosidase activities were inhibited by d-fucose as well as by d-galactose and l-arabinose.     

Effects of Exogenous Excitatory Amino Acid Neurotransmitters on Blood–Brain Barrier Disruption in Focal Cerebral Ischemia

This study was performed to determine whether exogenous N-methyl-d-aspartate (NMDA) or alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid (AMPA) would aggravate blood–brain barrier (BBB) disruption in focal cerebral ischemia in rats. Forty-five minutes after middle cerebral artery (MCA) occlusion, one of the following patches was applied to the exposed ischemic cerebral cortex of each rat: normal saline (control), 10⁻⁵ M AMPA, 10⁻⁴ M AMPA, 10⁻⁵ M NMDA, or 10⁻⁴ M NMDA. At 1 h after MCA occlusion, BBB permeability was determined by measuring the transfer coefficient (Ki) of ¹⁴C-α-aminoisobutyric acid (¹⁴C-AIB). In all experimental groups, the Ki of the ischemic cortex (IC) was higher than that of the corresponding contralateral cortex (CC). The Ki of the IC of the animals treated with 10⁻⁴ M AMPA or 10⁻⁴ M NMDA was higher (+41%: P < 0.05 and +33%: P < 0.05, respectively) than that of the control animals. Our data demonstrated that exogenous NMDA or AMPA could further aggravate the BBB disruption in focal cerebral ischemia. Any insult increasing the release of excitatory neurotransmitters could further aggravate BBB disruption and brain edema during the ischemic period.     

Effects of altered FcγR binding on antibody pharmacokinetics in cynomolgus monkeys

Antibody interactions with Fcγ receptors (FcγRs), like FcγRIIIA, play a critical role in mediating antibody effector functions and thereby contribute significantly to the biologic and therapeutic activity of antibodies. Over the past decade, considerable work has been directed towards production of antibodies with altered binding affinity to FcγRs and evaluation of how the alterations modulate their therapeutic activity. This has been achieved by altering glycosylation status at N297 or by engineering modifications in the crystallizable fragment (Fc) region. While the effects of these modifications on biologic activity and efficacy have been examined, few studies have been conducted to understand their effect on antibody pharmacokinetics (PK). We present here a retrospective analysis in which we characterize the PK of three antibody variants with decreased FcγR binding affinity caused by amino acid substitutions in the Fc region (N297A, N297G, and L234A/L235A) and three antibody variants with increased FcγRIIIA binding affinity caused by afucosylation at N297, and compare their PK to corresponding wild type antibody PK in cynomolgus monkeys. For all antibodies, PK was examined at a dose that was known to be in the linear range. Since production of the N297A and N297G variants in Chinese hamster ovary cells results in aglycosylated antibodies that do not bind to FcγRs, we also examined the effect of expression of an aglycosylated antibody, without sequence change(s), in E. coli. All the variants demonstrated similar PK compared with that of the wild type antibodies, suggesting that, for the six antibodies presented here, altered FcγR binding affinity does not affect PK.     

Effects ofγ-irradiation on embryonic development and nucleic acids in trigeminal neurons

Summary Pregnant rats were exposed to absorbed doses of 0.5, 1, 2, and 4 Gy of⁶⁰Co- rays either on day 8 or on day 12 p.c.. The embryos were collected on day 18 p.c.. Irradiations both on day 8 and 12 p.c. result in a dose dependent decrement of weight. The effect is larger for irradiation on day 8 p.c.. Caryometric studies of the neurons in the trigeminal ganglion show, on the other hand, that the reduction of nuclear sizes in this tissue is more substantial for an irradiation on day 12 p.c. when the ganglion is in a stage of formation. Cytophotometric determinations of the Feulgen-DNA content and determination of the RNA content by staining with chromic gallocyanin in combination with ribonuclease digestion lead to the conclusion that the irradiation induces no significant hyperploidy and that the irradiated neurons have the nuclear RNA content that is normal at this stage of gestation. This applies both to the irradiations on day 8 and on day 12 p.c.     

In Vitro Antioxidative Activity of (−)-Epicatechin Glucuronide Metabolites Present in Human and Rat Plasma

Recently we identified four conjugated glucuronide metabolites of epicatechin, (?)-epicatechin-3′-O-glucuronide (E3′G), 4′-O-methyl-(?)-epicatechin-3′-O-glucuronide (4′ME3′G), (?)-epicatechin-7-O-glucuronide (E7G) and 3′-O-methyl-(?)-epicatechin-7-O-glucuronide (3′ME7G) from plasma and urine. E3′G and 4′ME3′G were isolated from human urine, while E7G and 3′ME7G were isolated from rats that had received oral administration of (?)-epicatechin (Natsume et al. (2003), Free Radic. Biol. Med. 34, 840–849). It has been suggested that these metabolites possess considerable in vivo activity, and therefore we carried out a study to compare the antioxidant activities of the metabolites with that of the parent compound. This was achieved by measuring superoxide scavenging activity, reduction of plasma TBARS production and reduced susceptibility of low-density-lipoprotein (LDL) to oxidation. (?)-Epicatechin was found to have more potent antioxidant activity than the conjugated glucuronide metabolites. Both (?)-epicatechin and E7G had marked antioxidative properties with respect to superoxide radical scavenging activity, plasma oxidation induced by 2,2′-azobis-(2-aminopropane) dihydrochloride (AAPH) and LDL oxidation induced by copper ions or 2,2′-azobis(4-methoxy-2,4-dimethylvaleronitrile) (MeO-AMVN). In contrast, the other metabolites had light antioxidative activities over the range of physiological concentrations found in plasma.