Serum effect on cellular uptake of spermidine, spergualin, 15-deoxyspergualin, and their metabolites by L5178Y cells

Spergualin (SG) and 15-deoxyspergualin (DSG) were more slowly incorporated into L5178Y cells than spermidine. SG and DSG inhibited carrier-mediated transport of [3H]spermidine competitively with inhibition constants of 0.67 mM and 0.45 mM, respectively. Addition of calf serum stimulated uptake of [3H]spermidine into the cells in a serum concentration-dependent manner. The effect was not observed when horse serum was used in place of calf serum. Preincubation of spermidine in calf serum for 1 hour before addition to cells remarkably decreased cellular incorporation of tritium. Three amine oxidase inhibitors, aminoguanidine, 3-hydroxybenzyloxyamine, and semicarbazide, inhibited stimulation of uptake of [3H]spermidine by calf serum and the decrease of it by preincubation in calf serum. So we propose that cellular incorporation or binding of products generated by oxidation of spermidine by amine oxidase in calf serum was much faster than that of spermidine itself and they were unstable and transformed quickly to unincorporable or non-binding substances if cellular targets were not present. Effect of amine oxidase inhibitors on cytotoxic activity of SG and DSG were determined in low and high concentrations of calf serum. In the presence of 10% calf serum in the basal medium, cytotoxicity to L5178Y cells by SG and DSG was suppressed at high drug concentrations (above 10 micrograms/ml) and enhanced at low drug concentrations (below 2.5 micrograms/ml) by amine oxidase inhibitors. In the presence of 0.5% calf serum suppression of cytotoxicity at high drug concentrations by amine oxidase inhibitors was also observed, but enhancement at low drug concentrations was obscure. These data may suggest the existence of two kinds of cytotoxic mechanism of SG and DSG, one dependent on and one independent of amine oxidase in serum.     

Antitumor spectrum of deoxyspergualin and its lack of cross-resistance to other antitumor agents

Antitumor activities of 15-deoxyspergualin (NKT-01), an analogue of spergualin (SGL), were examined in cultured tumor cells, transplantable murine tumors, and human tumor xenografts in nude mice. NKT-01 exhibited strong antitumor activity specifically against leukemias both in vitro and in vivo. Moreover, it also showed activity against AH66F hepatoma, M5076 fibrosarcoma and MH134 hepatoma. However, antitumor activity of NKT-01 against other non-leukemic tumors was marginal. Effective dose range of NKT-01 in sensitive tumors was so wide that the largest chemotherapeutic indexes were produced by NKT-01 in P388 and L1210 leukemias among 15 antitumor agents examined. The efficacy of NKT-01 against doxorubicin- and cytosine arabinoside-resistant P388 leukemias was comparable to that against parental sensitive P388 leukemia. NKT-01 also retained activity against other p388 leukemia sublines resistant to cisplatin, 5-fluorouracil or nimustine, although the effect was slightly decreased. In addition, in the in vitro and in vivo experiments using NKT-01-resistant P388 and SGL-resistant L1210(IMC) leukemias, no cross-resistance was observed. Moreover, collateral sensitivity was observed especially to alkylating agents in animal study.     

In vivo effects of deoxyspergualin (NKT-01) on lymphocyte activation in response to alloantigens

We studied the effects of deoxyspergualin (NKT-01) on the events of lymphocyte activation in vivo by inoculating mice in the footpad with allogeneic spleen cells, and compared the effects with those of cyclosporin A (CyA). The administration of NKT-01 increased the numbers of cells recovered from the popliteal lymph node (PLN) 7 days after inoculation, but inhibited the proliferation of these cells in the presence of exogenous interleukin 2 (IL-2). NKT-01 enhanced IL-2 production, but suppressed the production of macrophage activating factor (MAF) in the mixed lymphocyte reaction between the PLN cells and allogeneic spleen cells treated with mitomycin C. CyA decreased the numbers of PLN cells little, and suppressed the response to exogenous IL-2 and the production of both IL-2 and MAF. Results with tumor cells used as allogeneic cells suggested that there was a close relationship between the suppression of MAF production by NKT-01 and its inhibition of allograft rejection. The findings showed that NKT-01 inhibited both the MAF production by and the response to IL-2 of PLN cells, and that these effects were involved in the suppression of allograft rejection by NKT-01.     

Mode of action of 3-substituted propylamine cytotoxicity in culture cells

Cytotoxic effects on MDBK cells of various 3-substituted propylamines, including spermine and spermidine, were tested in culture in the presence of calf serum, and the possible mode of action was studied from the viewpoint of oxidative deamination leading to acrolein formation. The compounds were roughly classified in two groups with ic₅₀ values of 0.1 and 0.4mM under the conditions used. Phenyl derivatives of 3-substituted propylamines, 3-benzylaminopropylamine, and polyamines were included in the first group with ic₅₀ values of 0.1 mM, and acrolein was liberated from these compounds after incubation with bovine plasma amine oxidase. Alkyl derivatives of 3-substituted propylamines (with ic₅₀ values of 0.4mM), on the other hand, were unable to release acrolein after the oxidative deamination, which was further confirmed by a lack of liberation of acrolein from the authentic 3-butoxypropanal. These observations indicated that both the acrolein originating from the 3-substituted propanals, and the propanal as such, were possibly involved in manifestation of the cytotoxicity of the 3-substituted propylamines. Thus, spermine and spermidine may exert their cytotoxic effects on the cells in vitro by a combination of two mechanisms involving acrolein and oxidized polyamines.     

The nature of in vivo cell-killing of deoxyspergualin, and its implication in combination with other antitumor agents.

The mode of in vivo cell-killing by 15-deoxyspergualin (NKT-01) was assessed by measuring change of whole body radioactivity of mice inoculated with 125I-iododeoxyuridine-labeled P388 leukemia cells. Although NKT-01 showed strong life prolonging effect on P388 leukemia-bearing mice, significant excretion of 125I was not observed within 4 days after the start of treatment with NKT-01. Thereafter, the remaining 125I was reduced gradually and reached about half of control level on day 7. Colony forming ability in soft agar media of peritoneal tumor cells taken after completion of 5-day treatment with NKT-01 was markedly reduced to less than 3%. These results suggested that life prolongation of NKT-01 was produced both by a cytostatic effect, which lasts for an extraordinarily long period, and by a subsequent cytotoxic effect. Cell cycle distribution analysis using flow cytometry showed the cytostatic action of NKT-01 caused G0/G1 arrest of the tumor cells. Therefore, the drug-sensitive cycling population of the tumor cells was reduced, and combination with other antitumor agents was antagonistic, if they were administered simultaneously or consecutively with NKT-01. In contrast, if the other drugs such as cyclophosphamide, cisplatin and cytosine arabinoside, were administered prior to NKT-01, a synergistic combination effect was obtained. This synergism might be due to prolongation of the period of cell cycle perturbation caused by other drugs (such as G2 arrest by cisplatin) by the cytostatic effect of NKT-01. Although the precise mechanisms of the cytostatic action of NKT-01 remain unclear, it might play an important role in the combination with other antitumor drugs.     

Biological activities of deoxyspergualin in autoimmune disease mice

An assessment of the prophylactic and ameliorative effects of deoxyspergualin (NKT-01), an immunosuppressive agent, was carried out in male MRL/MpJ-lpr/lpr (MRL/1) mice which spontaneously develop lupus-like lesions. When NKT-01 was administered ip daily from the age of either 8 or 19 weeks, diseases such as massive lymphadenopathy, circulating anti-DNA antibody and lupus nephritis were markedly suppressed. The primary response to lipopolysaccharide was significantly reduced in MRL/1 mice administered NKT-01 but the response to sheep red blood cells was not affected. The ability of spleen cells to release interleukins 2 and 3 with or without mitogen was significantly enhanced in mice receiving NKT-01. These findings demonstrate that NKT-01 has therapeutic activity against the development of spontaneous disease in MRL/1 mice.     

Formation of spermidine or norspermidine from synthetic diacetylpolyamines by acetylpolyamine oxidase in cultured cells

Prodrugs that can readily release polyamine into cells without the problem of generating cytotoxic compound by serum amine oxidase would be extremely useful for elucidation of polyamine function. As linear polyamines with acetamide groups on both sides are thought to be stable in the presence of serum amine oxidase and produce polyamines by the catalytic reaction of acetylpolyamine oxidase (PAO), a series of diacetyltetraamines, diacetylpentaamines and diacetylhexaamines was prepared as prodrugs and tested for substrate activity against PAO, partially purified from rat liver. Of the compounds, N(1),N(15)-diacetyl-1,15-diamino-4,8,12-triazapentadecane (DA3333) and N(1),N(16)-diacetyl-1,16-diamino-4,8,13-triazahexadecane (DA3343) were found to be stable in culture medium containing newborn bovine serum, and to produce reasonable amounts of norspermidine and spermidine, respectively. DA3333 and DA3343 were then applied to 1-aminooxy-3-aminopropane (AOAP)-treated HTC cells with depleted putrescine and spermidine, and arrested growth. Cell growth recovered with DA3333 and DA3343, but growth rate was reduced in cells with added DA3333 compared with growth rates in cells with added DA3343 and control cells untreated with AOAP. Significant amounts of norspermidine and spermidine were found in cells with added DA3333 and DA3343, respectively. These results show the potential use of diacetylpolyamines in introducing polyamines into cells.     

Treatment schedule dependency of antitumor effect of deoxyspergualin

The effect of treatment schedule on antitumor activity of 15-deoxyspergualin (NKT-01) against P388 leukemia was studied by changing each 2 out of 3 factors of administration schedule (number of injections, injection interval, and injection period) with the rest being constant. The antitumor activity of NKT-01 was shown to be strongly time-dependent; higher efficacy was obtained with prolongation of treatment period and with increasing the number of injections. The dosing interval seemed not to be a dominant factor regarding the activity of NKT-01. The strong dependency on treatment period was also observed in continuous infusion schedules by using Alzet 2001 osmotic minipump. The degree of dependency on infusion period was estimated to be 3- to 4-fold stronger than that on the infused dose by logarithmical plotting of the infusion periods and infused daily doses required to produce 130% of T/C(%). The effective dose range by the continuous infusion was slightly narrower than that by the repeated bolus injections, although slightly higher maximal activity was obtained at the optimal dose. Hyperacute pharmacological toxicity caused by bolus injection of high dose (51.2 mg/kg) of NKT-01 did not occur by continuous infusion method even at much higher dose (409.6 mg/kg/day). Cumulative gastrointestinal toxicity was observed by prolonged continuous infusion as well as repetitive treatment schedule. From these results on antitumor activity and toxicity by various treatment schedules, recommendable clinical modality for NKT-01 seems to be the short-time infusion on every or every other day continuing for a few weeks.(ABSTRACT TRUNCATED AT 250 WORDS)     

In vitro effects of 2-tert-butyl-benzothiazole derivatives on microfilariae of Litomosoides carinii, Brugia malayi and Acanthocheilonema viteae.

Six 2-tert-butyl-benzothiazole derivatives (2-tert-butyl-6-iso-thiocyanato-5-methyl-benzothiazole CGP 21306); 3-[(2-tert-butyl-5-methyl-benzothiazole-6-yl) aminothiocarbonylthiol] propionic acid (CGP 21835); 2-tert-butyl-5-methyl-6-(N-methyl-piperazinyl-thiocarbonylamino)-b enzothiazole (CGP 21833); 2-tert-butyl-5-methyl-6-(4-dimethylamino-piperid-1-yl-thiocarbo nylamino)- benzothiazole (CGP 26702); CGP 20376, the 5-methoxy analogue to CGP 21835 and CGP 20309, the 5-methoxy analogue to CGP 21833) with known, high filaricidal activity in vivo were tested for in vitro efficacy against microfilariae of L. carinii (Lc), B. malayi (Bm) and A. viteae (Av) in order to study intrinsic antifilarial activities. All drugs affected the motility of the microfilariae of the three species in a species, dose and time dependent fashion. Lc was the most sensitive, Av the most resistant species. CGP 20376 and 21835 were the most effective compounds followed by CGP 21306. Complete immobilization of microfilariae was observed after 20 h in protein-free medium RPMI 1640 at drug concentrations of 0.1 to 10 nmol/ml. Effects were still marked 2 when graded on a 4 (full motility) to 0 (immobile) scale at concentrations of 0.01-0.1 nmol/ml. In the case of the thiourea derivatives CGP 21833, 26702 and 20309 concentrations had to be increased 10-100 fold to obtain similar effects. When proteins were present in the incubation medium (10% foetal calf serum, 100% normal serum) the efficacy of the compounds was reduced, i.e. drug concentrations had to be increased up to 100 fold to produce similar effects as in protein-free medium.(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibition of mast cell secretion by oxidation products of natural polyamines.

Mast cells secrete many biologically active compounds upon stimulation by immunoglobulin E (IgE) and specific antigen (Ag), anaphylatoxins, as well as a number of cationic compounds which include drugs, kinins and neuropeptides. The effects of the two naturally occurring polyamines, spermine (SP) and spermidine (SPD), on mast cell secretion were studied because they have been implicated in the modulation of cellular processes, possibly through their cationic charge or the regulation of calcium ions. SP and SPD over the range of 10(-7) to 10(-4) M inhibited the release of 5-hydroxytryptamine (5-HT, serotonin) triggered by compound 48/80 (C48/80) in a time- and concentration-dependent manner, as long as at least 2% calf serum (CS) was present. SP also inhibited secretion of both histamine and serotonin stimulated immunologically by using IgE and anti-rat IgE. This inhibition was not accompanied by cytotoxicity. The major available polyamine metabolites tested, N1-acetyl spermine (N1-acSP) and N8-acetyl spermidine (N8-acSPD), also showed inhibition in the presence of CS, whereas putrescine, N8,N1-hexamethylene-bis-acetamide (HMBA) and benzylamine did not. Fetal bovine serum (FBS), as well as human and rat serum, which do not contain polyamine oxidase, did not result in any inhibition with the polyamines tested. Inhibitors of the polyamine oxidase blocked the polyamine effect, indicating that the inhibition of mast cell secretion must derive from aldehydes produced from these polyamines. Addition of the aldehyde inhibitor phenylhydrazine (phi-HDZ), simultaneously with, but not following the polyamines, blocked their inhibitory effect, further strengthening the involvement of aldehydes. These results indicate that naturally occurring polyamines may regulate mast cell secretion through metabolic products of polyamine oxidase, a similar enzyme of which is also present in human liver, placenta and pregnant serum.     

Spermidine/spermine n(1)-acetyltransferase catalyzes amantadine acetylation.

Amantadine acetylation was demonstrated to occur both in vivo and in vitro using transgenic male mice overexpressing spermidine/spermine N(1)-acetyltransferase (SSAT). We previously reported that neither NAT1 nor NAT2 was responsible for catalyzing acetylation of the primary amine group of amantadine. We hypothesized that the inducible polyamine-catabolizing enzyme, SSAT, was an alternate pathway for acetylating amantadine. Transgenic mice injected s.c. with 3 mg/kg amantadine excreted 4.5 +/- 1% (mean +/- S.E.) of the administered dose as acetylamantadine in 24-h urine samples while, by contrast, nontransgenic control mice failed to excrete any detectable acetylamantadine in their urine. In vitro studies with the cytosolic liver fraction from transgenic mice as the source of SSAT demonstrated spermidine acetylation catalytic activity with an apparent K(m) = 267 +/- 46 microM and V(max) = 0.009 +/- 0.002 nmol/min/mg of protein. Amantadine competitively inhibited spermidine acetylation with an apparent K(i) = 738 +/- 157 microM. Incubation of amantadine, SSAT, and an acetyl CoA-regenerating system produced modest amounts of acetylamantadine. The NAT2 substrate, sulfamethazine, inhibited spermidine acetylation with a calculated K(i) = 3.5 mM, suggesting that SSAT may be an alternate pathway for acetylation of NAT2 substrates. The NAT1 substrate, p-aminobenzoic acid, had no inhibitory effect. These results provide evidence that amantadine can be acetylated by SSAT and may be a specific drug substrate for this enzyme. Further investigation of the role of SSAT as a potential drug-metabolizing pathway is warranted.     

The metabolism of aminoacetone to methylglyoxal by semicarbazide-sensitive amine oxidase in human umbilical artery.

The aliphatic amine aminoacetone has been described previously as a product of mitochondrial metabolism of threonine and glycine. Here, aminoacetone is shown to be deaminated to methylglyoxal by supernatants obtained by low speed centrifugation (600 g/10 min) of human umbilical artery homogenates, and also by membrane fractions isolated by high speed centrifugation (105,000 g/60 min) of these supernatants. Metabolism of 100 microM aminoacetone was completely inhibited by 1 mM propargylamine and MDL 72145, drugs which are capable of inhibiting the membrane-bound semicarbazide-sensitive amine oxidase (SSAO) activity found in vascular smooth muscle cells, whereas 1 mM pargyline and deprenyl which are inhibitors of monoamine oxidase, were without inhibitory effect. Estimated kinetic constants (at pH 7.8) for aminoacetone metabolism were Km = 92 microM; Vmax = 270 nmol/hr/mg protein. In addition, aminoacetone was a competitive inhibitor (Ki = 83 microM and 128 microM in low speed supernatants and high speed membrane fractions, respectively) of [14C]benzylamine metabolism by SSAO in this tissue. Aminoacetone would appear to be an endogenously occurring amine with a Km for metabolism by SSAO far lower than other aliphatic and aromatic biogenic amines examined previously as potential physiological substrates for the human vascular enzyme and possible implications of this are discussed.     

Antioxidant activities of buckwheat hull extract toward various oxidative stress in vitro and in vivo

We have undertaken four basic in vitro studies and an animal experiment to obtain information about the antioxidant activities of buckwheat hull extract (BWHE). In the in vitro studies, BWHE scavenged super oxide anion produced in the xanthine/xanthine oxidase system (IC50=11.4 microg phenolic compound/ml), and strongly inhibited autoxidation of linoleic acid (IC50=6.2 microg phenolic compound/ml). Low-density lipoprotein (LDL) oxidation induced by Cu2+ ion was also protected by BWHE. In the animal experiment, ddY mice were fed a standard diet supplemented with 0.75% BWHE for 14 d. In blood, liver and brain of the mice TBARS and fluorescent substance concentration were significantly decreased compared with those of non-treated mice. SOD like activity in serum also significantly rose by BWHE treatment. BWHE was shown to be effective for protecting biological systems against various oxidative stresses in vitro, and to have antioxidant activity in vivo.     

Involvement of semicarbazide-sensitive amine oxidase in tresperimus metabolism in human and in rat.

The metabolism of tresperimus, a new immunosuppressive agent, was investigated in vivo and in vitro in rat and in human. Two metabolic pathways were identified at each side of the molecule with two deamination reactions on the spermidine moiety and hydrolysis of the amide bond leading to the liberation of guanidinohexylamine. As the major metabolic pathway of the drug seemed to be the oxidative deamination, the capacity of different amine oxidases to metabolize tresperimus was then tested using in vivo experiments in rat and in vitro studies in rat and human plasma. The increase of tresperimus plasma levels induced by the administration of hydralazine, an irreversible in vivo inhibitor of semicarbazide-sensitive amine oxidase (SSAO), reflected the major involvement of this enzyme in tresperimus metabolism. This result was confirmed in vitro in rat and human plasma by the use of semicarbazide, a specific SSAO inhibitor. As opposed to rat plasma, human plasma may be an interesting in vitro model to study the metabolism of a drug extensively metabolized by SSAO such as tresperimus. Indeed, SSAO activity was significantly higher in human plasma than in rat plasma. The second metabolic pathway of the drug, which only occurred in rat plasma, appeared thus as the major route of tresperimus metabolism in this biological matrix.     

Fetal calf serum-mediated toxicity of human polyamines to lymphocytes

The toxicity of polyamines in the presence of fetal calf serum (FCS) to resting and stimulated human lymphocytes was investigated. Polyamines were cytotoxic to resting lymphocytes in the presence of FCS in a dose-dependent manner. The order of toxicity was: spermine greater than spermidine greater than putrescine. Blastogenic responses of human lymphocytes were also suppressed by spermine and spermidine but not putrescine. The lymphocytes which respond to PWM were most sensitive to polyamine toxicity. Superoxide dismutase, catalase and mannitol were ineffective in preventing the toxicity of polyamines. The sensitivity to polyamine toxicity of lymphocytes varied with age of the lymphocyte donors.     

Synthesis and antitumor activity of spergualin analogues. II. Chemical modification of the spermidine moiety

Chemical modifications of the spermidine moiety of an antitumor antibiotic, spergualin (Ia), and the structure-activity relationship are described. Replacement of spermidine with other polyamines decreased the antitumor activity against mouse leukemia L1210. Analogues containing an oxidized spermidine moiety that probably formed during oxidation with amine oxidase were inactive. Spermidine is indispensable for the antitumor activity. A facile method for the synthesis of glyoxyloyl polyamine, a key intermediate of spergualin-related compounds, is also reported.     

Contribution of serum and cellular semicarbazide-sensitive amine oxidase to amine metabolism and cardiovascular toxicity.

Semicarbazide-sensitive amine oxidase (SSAO) plays a role in the in vivo and in vitro toxicity of several environmental and endogenous amines. We investigated the role of SSAO as a component of cell culture medium (through addition of fetal calf serum (FCS)) compared to intracellular SSAO in the in vitro cytotoxicity of three amines and metabolites. Smooth muscle cells and beating cardiac myocytes were grown in 96-well plates and exposed to various concentrations and combinations of FCS in medium, amines (allylamine, AA; benzylamine, BZA; and methylamine, MA), and amine metabolites (aldehydes: acrolein, benzaldehyde, and formaldehyde; hydrogen peroxide, H2O2; ammonia, NH3). Amine and amine metabolite cytotoxicity was quantified by monitoring cell viability. SSAO activity was measured in FCS, cardiovascular cells, or rat plasma by a radioenzymatic assay using [14C]BZA. Our data show that AA and its aldehyde metabolite, acrolein, were the most toxic compounds to both cell types. However, AA toxicity was FCS-dependent in both cell types, while BZA, MA, and amine metabolite (i.e., aldehydes, H2O2, and NH3) cytotoxicity showed little FCS dependence. In these experiments, medium containing 10% FCS had a calculated amine metabolic capacity that was 30- to 50-fold that of the cultured smooth muscle cellular content in a single well of a 96-well plate. Our study demonstrates that SSAO in FCS contributes to amine metabolism and cytotoxicity to rat cardiovascular cells in vitro and how critical it is to evaluate serum for its role in mechanisms of amine toxicity in vitro and in vivo.     

Sesquiterpene furan compound CJ-01, a novel chitin synthase 2 inhibitor from Chloranthus japonicus SIEB

A novel sesquiterpene furan compound CJ-01 was isolated from the methanol extract of the whole plant of Chloranthus japonicus SIEB. by monitoring the inhibitory activity of chitin synthase 2 from Saccharomyces cerevisiae. Based on spectroscopic analysis, the structure of compound CJ-01 was determined as 3,4,8a-trimethyl-4a,7,8,8a-tetrahydro-4a-naphto[2,3-b]furan-9-one. The compound inhibited chitin synthase 2 of Saccharomyces cerevisiae in a dose-dependent manner with an IC50 of 39.6 microg/ml, whereas it exhibited no inhibitory activities against chitin synthase 1 and 3 of S. cerevisiae up to 280 microg/ml. CJ-01 has 1.7-fold stronger inhibitory activity than polyoxin D (IC50=70 microg/ml), a well-known chitin synthase inhibitor. These results indicate that the compound is a specific inhibitor of chitin synthase 2 from S. cerevisiae. In addition, CJ-01 showed antifungal activities against various human and phytopathogenic fungi. Therefore, the compound might be an interesting lead to develop effective antifungal agents.     

Xanthine oxidase-catalyzed metabolism of 2-nitrofluorene, a carcinogenic air pollutant, in rat skin.

The reductive metabolism of 2-nitrofluorene, a carcinogenic air pollutant, in rat skin microsomes and cytosol was investigated. 2-Nitrofluorene was reduced to the corresponding amine by the microsomes with NADPH and by the cytosol with 2-hydroxypyrimidine or 4-hydroxypyrimidine under anaerobic conditions. The cytosolic activity was much higher than that of skin microsomes. The 2- or 4-hydroxypyrimidine-linked nitroreductase activity was inhibited by oxypurinol and (+/-)-8-(3-methoxy-4-phenylsulfinylphenyl) pyrazolo[1,5-a]-1,3,5-triazine-4(1H)-one (BOF-4272), inhibitors of xanthine oxidase, but not by menadione, chlorpromazine and isovanillin, inhibitors of aldehyde oxidase. When skin cytosol was applied to a DEAE-cellulose column, the fractions containing xanthine oxidase exhibited a marked 2-hydroxypyrimidine-linked nitroreductase activity. In contrast, the aldehyde oxidase fraction showed little activity. Nitroreductase fractions obtained by ion exchange chromatography showed a band in Western blotting analysis using anti-rat xanthine oxidase. Moreover, the xanthine oxidase fraction exhibited a significant nitroreductase activity in the presence of 2-hydroxypyrimidine, 4-hydroxypyrimidine or hypoxanthine, and these activities were inhibited by inhibitors of xanthine oxidase. These results indicated that reduction of 2-nitrofluorene in the skin was mainly catalyzed by xanthine oxidase.     

Effect of tea beverages on aldehyde oxidase activity

Aldehyde oxidase (AO) plays an important role in metabolizing antitumor and antiviral drugs, including methotrexate, cyclophosphamide and acyclovir. Green tea and its catechins have been shown to modulate the activities of various xenobiotic-metabolizing cytochrome P450 species, both in vivo and in vitro, but their effect on AO has not been studied. Therefore, we evaluated the effect of tea beverages on AO activity in rat and human liver cytosol. We also investigated the influence of several catechins on AO activity in rat liver cytosol. AO activity was evaluated in terms of oxidation of N-1-methylnicotinamide to N-1-methyl-2-pyridone-5-carboxamide and N-1-methyl-4-pyridone-3-carboxamide. Bottled green tea beverages at 10% (vol/vol) inhibited AO activity by 90.0-93.5%, while at 1.0% (vol/vol), they reduced AO activity by 73.9-90.0%. At 0.1% (vol/vol), green tea II and III, which have high contents of catechins and their derivatives, inhibited AO activity by 24.3% and 38.8%, respectively. Bottled mineral water had no effect. AO activity was inhibited potently by epicatechin and epicatechin gallate. These results indicate that the AO-inhibitory activity of tea beverages is predominantly due to catechins and their derivatives. Thus, consumption of tea beverages may cause a decrease of AO activity, which may result in reduced clearance of drugs that are AO substrates.