Inhibition of urease activity by hydroxamic acid derivatives of amino acids.

Hydroxamic acids have been reported to be potent and specific inhibitors of urease (EC 3.5.1.5) activity of plant and bacterial origin. The present investigation was performed on the inhibitory effect of hydroxamic acid derivatives of naturally occurring amino acids on the urease activity of the Jack Bean and the alimentary tracts of rats. Methionine-hydroxamic acid was the most powerful inhibitor (I50=3.9 X 10(-6) M) among nineteen alpha-aminoacyl hydroxamic acids. Phenylalanine-, serine-, alanine-, glycine-, histidine-, threonine-, leucine-, and arginine-hydroxamic acids followed, in order of decreasing inhibitory power. The inhibition proceeded with time at a comparable rate to fatty acyl hydroxamic acid inhibition. The I50 values of alpha-aminoacyl hydroxamic acids were found to be almost equal to those of the corresponding fatty acyl hydroxamic acids. This fact shows that the alpha-amino group did not affect inhibitory power. However, aspartic-beta-, lysine-, and glutamic-gamma-hydroxamic acids, in descending order, were much less inhibitory, probably due to the presence of a carboxyl or omega-amino group. Furthermore, the pH optimum of the inhibition shifted to lower pH in the presence of a carboxyl group, and to a higher pH in e presence of an amino group. The results suggest that the dissociation of an acidic or a basic group reduces the inhibitory power of hydroxamic acid. Hydroxamic acid inhibits urease activity with strict specificity, excpet for aspartic-beta-hydroxamic acid, which inhibited asparaginase competitively. Hydroxamic acid derivatives of amino acids inhibited not only the urease activity of the Jack Bean, but also that of the caecum and ileum parts of the rat intestine.     

Structure-activity relationships of trans-cinnamic acid derivatives on alpha-glucosidase inhibition

trans-Cinnamic acid and its derivatives were investigated for the alpha-glucosidase inhibitory activity. 4-Methoxy-trans-cinnamic acid and 4-methoxy-trans-cinnamic acid ethyl ester showed the highest potent inhibitory activity among those of trans-cinnamic acid derivatives. The presence of substituents at 4-position in trans-cinnamic acid altered the alpha-glucosidase inhibitory activity. Increasing of bulkiness and the chain length of 4-alkoxy substituents as well as the increasing of the electron withdrawing group have been shown to decrease the inhibitory activity. 4-Methoxy-trans-cinnamic acid was a noncompetitive inhibitor for alpha-glucosidase, whereas, 4-methoxy-trans-cinnamic acid ethyl ester was a competitive inhibitor. These results indicated that trans-cinnamic acid derivatives could be classified as a new group of alpha-glucosidase inhibitors.     

Keemun black tea extract contains potent fatty acid synthase inhibitors and reduces food intake and body weight of rats via oral administration

The inhibitory effects of a black tea extract on fatty acid synthase were measured through inhibition kinetics. The Keemun black tea extract showed more potent inhibitory activity on fatty acid synthase than green tea extract. Additionally, the inhibitory ability of the black tea extract depended on the extracting solvent and the conditions used. Only 10-23% of the inhibitory activity from the black tea was extracted by the general method of boiling with water. The results suggested that the main fatty acid synthase inhibitors in black tea might be theaflavins. Which were more potent than epigallocatechin gallate or C75. The reaction site on the fatty acid synthase and the inhibition kinetics for the extract were different from those of epigallocatechin gallate or C75. In addition, Keemun black tea extract significantly reduced food intake, body weight and blood triglyceride of diet-induced obesity SD rats via oral administration.     

Metallo-β-lactamase inhibitory activity of 3-alkyloxy and 3-amino phthalic acid derivatives and their combination effect with carbapenem

3-Alkyloxy and 3-amino phthalic acid derivatives were found to have metallo-β-lactamase inhibitory activity. Among them, 3-amino phthalic acid derivatives showed both potent activity against metallo-β-lactamase, IMP-1 inhibitory activity and a strong combination effect with biapenem (BIPM), carbapenem antibiotic. In particular, the 4′-hydroxy-piperidine derivative showed strong IMP-1 inhibitory activity and a combination effect with various antibiotics.     

Soluble cyclic AMP-dependent protein kinases from chick kidney effects of dilution and non-protein inhibitors

Cyclic AMP-dependent protein kinases prepared from crude cytosols of chick kidney, rat kidney and rat liver were found on dilution to exhibit complex kinetics. Dilution of the cytosols appears to increase the state of activation of the enzymes. This effect was due to the presence of inhibitory agents in the cytosol which had a greater inhibitory effect on the cyclic AMP-dependent than on the cyclic AMP-independent enzyme.Two types of inhibitory activity were found by column chromatography, one resistant to trichloroacetic acid precipitation and boiling but affected by trypsin digestion and the other resistant to boiling and trypsin digestion but precipitated by trichloroacetic acid. Inhibitory activity corresponding to the former characteristics has been described previously but the presence of additional soluble inhibitory agents in the cytosol has not been documented. The complete characterisation of this previously undescribed inhibitory activity requires further investigation.The relevance of such cytosolic inhibitory activity to the interpretation of states of activation of protein kinase enzymes is discussed.     

Soluble cyclic AMP-dependent protein kinases from chick kidney. Effects of dilution and non-protein inhibitors.

Cyclic AMP-dependent protein kinases prepared from crude cytosols of chick kidney, rat kidney and rat liver were found on dilution to exhibit complex kinetics. Dilution of the cytosols appears to increase the state of activation of the enzymes. This effect was due to the presence of inhibitory agents in the cytosol which had a greater inhibitory effect on the cyclic AMP-dependent than on the cyclic AMP-independent enzyme. Two types of inhibitory activity were found by column chromatography, one resistant to trichloroacetic acid precipitation and boiling but affected by trypsin digestion and the other resistant to boiling and trypsin digestion but precipitated by trichloroacetic acid. Inhibitory activity corresponding to the former characteristics has been described previously but the presence of additional soluble inhibitory agents in the cytosol has not been documented. The complete characterisation of this previously undescribed inhibitory activity requires further investigation. The relevance of such cytosolic inhibitory activity to the interpretation of states of activation of protein kinase enzymes is discussed.     

Kojic acid-tripeptide amide as a new tyrosinase inhibitor

Twenty two kojic acid-tripeptide amides were prepared using a solid-phase Fmoc/tBu strategy with Rink Amide SURE(R) resin. To effectively obtain kojic acid-tripeptide amide conjugates, the coupling conditions of kojic acid to the tripeptide on the resin were optimized. The tyrosinase inhibitory activity of kojic acid-tripeptide amides and the effect of the amino acid sequence on the activity were compared with those of kojic acid-tripeptide acids. The stability of kojic acid-tripeptide amides were then compared with those of kojic acid and kojic acid-tripeptides acids. As a consequence, kojic acid-FWY-NH(2) proved to be the best compound, with the highest inhibitory activity, which was maintained over different storage times under various temperatures and pHs.     

Chlamydocin-hydroxamic acid analogues as histone deacetylase inhibitors

Chlamydocin-hydroxamic acid analogues were designed and synthesized as histone deacetylase (HDAC) inhibitors based on the structure and HDAC inhibitory activity of chlamydocin and trichostatin A. Chlamydocin is a cyclic tetrapeptide containing an epoxyketone moiety in the side chain that makes it an irreversible inhibitor of HDAC. We replaced the epoxyketone moiety of chlamydocin with hydroxamic acid to design potent and reversible inhibitors of HDAC. In addition, a number of amino-cycloalkanecarboxylic acids (Acc) are introduced instead of the simple amino-isobutric acid (Aib) for a variety of the series of chlamydocin analogues. The compounds synthesized were tested for HDAC inhibitory activity and the results showed that many of them are potent inhibitors of HDAC. The replacement of Aib residue of chlamydocin with an aromatic amino acid enhances the in vivo and in vitro inhibitory activity. We have carried out circular dichroism and molecular modeling studies on chlamydocin-hydroxamic acid analogue and compared it with the solution structure of chlamydocin.     

Inhibition of topoisomerases by fatty acids

The inhibitory effects of various fatty acids on topoisomerases were examined, and their structure activity relationships and mechanism of action were studied. Saturated fatty acids (C6:0 to C22:0) did not inhibit topoisomerase I, but cis-unsaturated fatty acids (C16:1 to C22:1) with one double bond showed strong inhibition of the enzyme. The inhibitory potency depended on the carbon chain length and the position of the double bond in the fatty acid molecule. The trans-isomer, methyl ester and hydroxyl derivative of oleic acid had no or little inhibitory effect on topoisomerases I and II. Among the compounds studied petroselinic acid and vaccenic acid (C18:1) with a cis-double bond were the potent inhibitors. Petroselinic acid was a topoisomerase inhibitor of the cleavable complex-nonforming type and acted directly on the enzyme molecule in a noncompetitive manner without DNA intercalation.     

微量热法研究板蓝根中四种有机酸对微生物生长代谢的影响

微量热法研究传统中药板蓝根中四种有机酸对大肠杆菌、金黄色葡萄球菌和痢疾杆菌生长代谢的影响。得到加药与不加药时大肠杆菌、金黄色葡萄球菌和痢疾杆菌生长代谢的“效-时”曲线, 以生长速率常数(k1, k2)、最大产热功率(Pm)和最大达峰时间(tm)等热力学参数来评价四种有机酸对微生物生长代谢抑制的强度和程度。四种有机酸抗微生物活性作用的顺序为: 丁香酸>邻氨基苯甲酸>水杨酸>苯甲酸, 其中苯甲酸对金黄色葡萄球菌和痢疾杆菌的生长代谢具有促进作用。本研究对板蓝根的进一步研究提供了基础和依据。     

微量热法研究板蓝根中四种有机酸对微生物生长代谢的影响

微量热法研究传统中药板蓝根中四种有机酸对大肠杆菌、金黄色葡萄球菌和痢疾杆菌生长代谢的影响。得到加药与不加药时大肠杆菌、金黄色葡萄球菌和痢疾杆菌生长代谢的“效-时”曲线, 以生长速率常数(k1, k2)、最大产热功率(Pm)和最大达峰时间(tm)等热力学参数来评价四种有机酸对微生物生长代谢抑制的强度和程度。四种有机酸抗微生物活性作用的顺序为: 丁香酸>邻氨基苯甲酸>水杨酸>苯甲酸, 其中苯甲酸对金黄色葡萄球菌和痢疾杆菌的生长代谢具有促进作用。本研究对板蓝根的进一步研究提供了基础和依据。     

Inhibitory activity of novel kojic acid derivative containing trolox moiety on melanogenesis

A novel kojic acid derivative containing a trolox moiety, (±)-5-hydroxy-4-oxo-4H-pyran-2-yl methyl 6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylate (3a), was synthesized. The two biologically active compounds, namely, kojic acid and trolox, were conjugated via an ester bond as they are expected to behave synergistically. The antioxidant activity and the tyrosinase inhibitory activity of this novel kojic acid derivative on melanogenesis were evaluated. Compound 3a exhibited potent tyrosinase inhibitory activity and radical scavenging activity. Limited structure–activity relationship (SAR) investigations indicated that the tyrosinase inhibitory activities may originate from the kojic acid moiety, and the radical scavenging activity may be due to the phenolic hydroxyl group of trolox. Compound 3a also exhibited potent depigmenting activity in a cell-based assay. The limited SAR investigations revealed that the depigmenting activity of 3a may be due to the synergistic activities of kojic acid and its trolox moiety.     

Evidence that arachidonic acid influences hen granulosa cell steroidogenesis and plasminogen activator activity by a protein kinase C-independent mechanism

We recently proposed that arachidonic acid serves as a second messenger within granulosa cells from the largest preovulatory follicle of the hen. The present studies were conducted to determine whether the inhibitory effects of arachidonic acid on LH-induced cAMP accumulation and on the ability of cells to convert 25-hydroxycholesterol to progesterone are mediated via the protein kinase C pathway. Furthermore, we determined the effects of arachidonic acid on plasminogen activator activity in granulosa cells. In the first experiment, the putative protein kinase C inhibitor, staurosporine, completely reversed the inhibitory effects of phorbol 12-myristate 13-acetate (PMA) on LH-promoted cAMP formation, but failed to overcome the inhibitory effects of arachidonic acid. Prolonged pretreatment (18 h) with 1.6 microM PMA depleted granulosa cells of both cytosolic and membrane-associated protein kinase C, and subsequently attenuated the inhibitory effects of PMA on LH-induced progesterone production; however, such depletion did not alter the inhibitory effects of phospholipase A2 (PLA2; an agent that increases intracellular levels of arachidonic acid). PMA, but not arachidonic acid, caused a rapid (within 2 min) translocation of protein kinase C from the cytosol to the membrane (a characteristic of agents that activate protein kinase C). Finally, both arachidonic acid and PLA2 inhibit plasminogen activator (PA) activity in a dose-dependent fashion, whereas activation of protein kinase C with PMA stimulates PA activity. Taken together, the data suggest that the effects of arachidonic acid in granulosa cells can occur independently of protein kinase C activation.(ABSTRACT TRUNCATED AT 250 WORDS)     

N-Caffeoyl serotonin as selective COX-2 inhibitor

The inhibitory effects of the synthetic serotonin analogues (1-8) on COX (1 and 2) were evaluated. Two serotonin derivatives (4 and 8) showed inhibitory effect of COX (1 and 2). Especially, 4 exhibited excellent inhibitions on COX-2 with extremely high potency (IC(50)=42.5 μM). The inhibitory activities of cinnamic acid derivatives and serotonin were evaluated to clarify whether inhibitory activities of compound 4 and 8 are due to cinnamic acid moiety or serotonin moiety. Caffeic acid and N-caffeoyl serotonin (4) exhibited selective inhibition of COX-2 compared to aspirin. Comparison caffeic acid with 4 suggested that the linkage of caffeic acid and serotonin enhance COX-2 inhibition. Comparison of structures of caffeic acid and sinapic acid implied that catechol moiety of cinnamic acid derivatives is a major contributing factor for selective inhibition of COX-2. The selective COX-2 inhibitory activity of compound 4 is significant and could be employed as drugs against inflammatory and allergy.     

Aldose-reductase- and protein-glycation-inhibitory principles from the whole plant of Duchesnea chrysantha

Ellagic acid (1), 3,3'-di-O-methylellagic acid (2), 3,3',4-tri-O-methylellagic acid (3), isovitexin (4), kaempferol 3-O-beta-D-glucuronide methyl ester (5), quercetin 3-O-alpha-L-arabinopyranosyl-(1-->6)-beta-D-galactopyranoside (6), ursolic acid, pomolic acid, tormentic acid, euscaphic acid, euscaphic acid 28-O-beta-D-glucopyranoside, and maslinic acid were isolated from the AcOEt- and BuOH-soluble MeOH extract of Duchesnea chrysantha (whole plant). The isolates were subjected to in vitro bioassays to evaluate their inhibitory activity on rat-lens aldose reductase (RLAR) and formation of advanced glycation end products (AGEs). The ellagic acids and flavonoids, compounds 1-6, exhibited moderate inhibitory effects on RLAR. However, compounds 1 and 4-6 showed excellent inhibitory activities towards the formation of AGEs. This is the first report that 4 and 6 exhibit inhibitory activity towards AR and AGEs formation.     

Carboxypeptidase inhibitor from potatoes. The effects of chemical modifications on inhibitory activity.

The carboxypeptidase inhibitor from Russet Burbank potatoes was subjected to a variety of chemical modifications and their effects on inhibitory activity toward carboxypeptidases A and B were determined. The importance of the alpha carboxylate of glycine-39 to the enzyme-inhibitor interaction was demonstrated by the observation that a derivative in which all four carboxyls were modified was inactive whereas a derivative in which only the beta carboxylates of aspartic acid residues 5, 16, and 17 were masked retained full inhibitory activity. In addition to these three aspartic acid residues, lysine residues 10 and 13, histidine residues 3 and 15, and arginine-32 were modified and residues 1-5 removed with little effect on inhibitory activity. Tryptophan residues 22 and 28 did not react with 2-hydroxy-5-nitrobenzyl bromide or o-nitrophenylsulfenyl chloride, and thus are presumed to be buried in the interior of the inhibitor molecule. Although tyrosine-37 was acetylated without affecting binding characteristics, both carboxypeptidases A and B protected against deacetylation by hydroxylamine. These studies indicate that the carboxyl terminal region of the inhibitor is in contact with enzyme in the complex. The parallel effects of modifications on inhibitory activity toward carboxypeptidases A and B support previous evidence that both enzymes utilize the same binding site on the inhibitor [C. A. Ryan (1971), Biochem. Biophys. Res. Commun. 44, 1265].     

Inhibitory Activity of (+)-Usnic Acid against Non-Small Cell Lung Cancer Cell Motility

Lichens are symbiotic organisms that produce various unique chemicals that can be used for pharmaceutical purposes. With the aim of screening new anti-cancer agents that inhibit cancer cell motility, we tested the inhibitory activity of seven lichen species collected from the Romanian Carpathian Mountains against migration and invasion of human lung cancer cells and further investigated the molecular mechanisms underlying their anti-metastatic activity. Among them, Alectoria samentosa, Flavocetraria nivalis, Alectoria ochroleuca, and Usnea florida showed significant inhibitory activity against motility of human lung cancer cells. HPLC results showed that usnic acid is the main compound in these lichens, and (+)-usnic acid showed similar inhibitory activity that crude extract have. Mechanistically, β-catenin-mediated TOPFLASH activity and KITENIN-mediated AP-1 activity were decreased by (+)-usnic acid treatment in a dose-dependent manner. The quantitative real-time PCR data showed that (+)-usnic acid decreased the mRNA level of CD44, Cyclin D1 and c-myc, which are the downstream target genes of both β-catenin/LEF and c-jun/AP-1. Also, Rac1 and RhoA activities were decreased by treatment with (+)-usnic acid. Interestingly, higher inhibitory activity for cell invasion was observed when cells were treated with (+)-usnic acid and cetuximab. These results implied that (+)-usnic acid might have potential activity in inhibition of cancer cell metastasis, and (+)-usnic acid could be used for anti-cancer therapy with a distinct mechanisms of action.     

Dual effects of caffeoyl-amino acidyl-hydroxamic acid as an antioxidant and depigmenting agent

Anti-aging and depigmentation have both been an important subject of study for skin disease and the cosmetic industry. Caffeic acid (CA) has shown synergistically enhanced antioxidant activity when conjugated with amino acids. Hydroxamic acid (NHOH) is a well-known metal chelator, potentially having both tyrosinase inhibitory activity and free radical scavenging activity. We prepared caffeoyl-amino acidyl-hydroxamic acid (CA-Xaa-NHOH) and found that caffeoyl-prolyl-hydroxamic acid (CA-Pro-NHOH) contained excellent antioxidant activity and tyrosinase inhibitory activity by various bioassay systems. Also, CA-Pro-NHOH showed mild melanogenesis inhibitory activity in Mel-Ab cells.     

Inhibition of hepatic stearoyl-CoA desaturase activity by trans-10, cis-12 conjugated linoleic acid and its derivatives

Conjugated linoleic acid (CLA) has been reported to decrease stearoyl-CoA desaturase (SCD) activity by decreasing mRNA expression. This investigation was designed to determine whether structurally related compounds of CLA have a direct inhibitory effect on SCD activity. Trans-10,cis-12 CLA had strong inhibitory activity on SCD while cis-9,trans-11, and trans-9,trans-11 isomers had no effect. Trans-10 octadecenoate was not inhibitory, whereas cis-12 octadecenate was inhibitory, but not as effective as trans-10,cis-12 CLA. Of the oxygenated derivatives, 9-peroxy-cis/trans-10, trans-12 octadecadienoate was a more effective inhibitor than trans-10,cis-12 CLA, whereas 9-hydroxy-trans-10, cis-12 octadecadienoate was less effective. Interestingly, cis-11 octadecadienoate and cis-12 octadecen-10-ynoate were slightly inhibitory. However, trans-9 and trans-11 octadecenoates, and trans-9,cis-12 octadecadienoate were all inactive under test condition, as were linoleate, oleate, and arachidonate. Derivatives of CLA acid modified to alcohol, amide or chloride were all inactive. A cis-12 double bond appears to be a key structural feature for inhibiting SCD activity, especially when coupled with a trans-10 double, whereas a cis-11 double bond is less effective.     

The effect of steroids and nucleotides on solubilized bilirubin uridine diphosphate glucuronyltransferase

1. It was confirmed that bilirubin glucuronyltransferase can be obtained in solubilized form from rat liver microsomes. 2. Michaelis-Menten kinetics were not followed by the enzyme with bilirubin as substrate when the bilirubin/albumin ratio was varied. High concentrations of bilirubin were inhibitory. 3. The K(m) for UDP-glucuronic acid at the optimum bilirubin concentration was 0.46mm. 4. Low concentrations of Ca(2+) were inhibitory in the absence of Mg(2+) but stimulatory in its presence; the converse applied for EDTA. 5. UDP-N-acetylglucosamine and UDP-glucose enhanced conjugation by untreated, but not by solubilized microsomes. 6. The apparent 9.5-fold increase in activity after solubilization was probably due to the absence of UDP-glucuronic acid pyrophosphatase activity in the solubilized preparation. 7. The activation of solubilized enzyme activity by ATP was considered to be a result of chelation of inhibitory metal ions. 8. The solubilized enzyme activity was inhibited by UMP and UDP. The effect of UMP was not competitive with respect to UDP-glucuronic acid. 9. A number of steroids inhibited the solubilized enzyme activity. The competitive effects of stilboestrol, oestrone sulphate and 3beta-hydroxyandrost-5-en-17-one, with respect to UDP-glucuronic acid, may be explained on an allosteric basis.