Synthesis,characterization and biological studies of Schiff bases derived from heterocyclic moiety

Some new Schiff bases (H₁-H₇) have been synthesized by the condensation of 2-aminophenol, 2-amino-4-nitrophenol, 2-amino-4-methylphenol, 2-amino benzimidazole with thiophene-2-carboxaldehyde and pyrrole-2-carboxaldehyde. The structures of newly synthesized compounds were characterized by elemental analysis, FT-IR, ¹ H NMR, UV–VIS, and single crystal X-ray crystallography. The in vitro antibacterial activity of the synthesized compounds has been tested against Salmonella typhi, Bacillus coagulans, Bacillus pumills, Escherichia coli, Bacillus circulans, Pseudomonas, Clostridium and Klebsilla pneumonia by disk diffusion method. The quantitative antimicrobial activity of the test compounds was evaluated using Resazurin based Microtiter Dilution Assay. Ampicillin was used as standard antibiotics. Schiff bases individually exhibited varying degrees of inhibitory effects on the growth of the tested bacterial species. The antioxidant activity of the synthesized compounds was determined by the 1,1-diphenyl-2-picrylhydrazyl(DPPH) method. IC₅₀ value of synthesized Schiff bases were calculated and compared with standard BHA.     

Isolation and characterization of dioscin-α-l-rhamnosidase from bovine liver

A novel dioscin-α-l-rhamnosidase was isolated and purified from fresh bovine liver. The activity of the enzyme was tested using diosgenyl-2,4-di-O-α-l-rhamnopyranosyl-β-d-glucopyranoside as a substrate. It was cleaved by the enzyme to two compounds, rhamnoses and diosgenyl-O-β-d-glucopyranoside. The optimal conditions for enzyme activity were that temperature was at 42 °C, pH was at 7, reaction time was at 4 h, and the substrate concentration was at 2%. Furthermore, metal ions such as Fe³⁺, Cu²⁺, Zn²⁺, Ca²⁺ and Mg²⁺ showed different effects on the enzyme activity. Mg²⁺ acted as an activator whereas Cu²⁺, Fe³⁺, and Zn²⁺ acted as strong inhibitors in a wide range of concentrations from 0 to 200 mM. It was interesting that Ca²⁺ played a role as an inhibitor when its concentration was at 10 mM and acted as an activator at the other concentrations for the enzyme. Moreover, the molecular weight of enzyme was determined as 75 kDa.     

Der chemotropische Effekt einiger Kationen bei den Wurzeln vonSinapis alba L. mit Berücksichtigung mancher Faktoren

Chemotropic effects exerted by metal cations have been investigated simultaneously with their influence on the increments ofSinapis alba roots cultivated in dark and light. The effects of Na-EDTA and Na-humate and its fractions, as well as the interaction of these substances with cations have also been studied. Chemotropics have been administered in agar-agar to the ends of roots growing on glass plates. Chemotropic and growth effects were exerted by Cu²⁺, Fe²⁺, Fe³⁺ and Ca²⁺ cations. The light strongly changed the effects of all but Cu²⁺ cations. Both Na-EDTA and humante appeared to be active chemotropically and generally abolished the effects of cations, although in some cases Na-EDTA made this influence more intense. Of the humate fractions, only those characterized by the ability to form complex compounds appeared to be active. No correlation has been found between chemotropic effects and the influence on the growth of roots, except for the Cu²⁺ cations, which always caused positive chemotropism and inhibited the growth of roots.     

Comparison Study of Synthesized Red (or Blood) Orange Peels and Juice Extract-Nanoflowers and Their Antimicrobial Properties on Fish Pathogen (Yersinia ruckeri)

AbstractIn this work, we synthesized blood orange peel extract-copper (II) (Cu²⁺) ions nanoflower (NFs) and blood orange juice extract-copper (II) (Cu²⁺) ions nanoflower examine their antimicrobial properties on the fish pathogen (Yersinia ruckeri). The main compounds of the blood orange peel extract and the blood orange juice extract were organic components, and the copper (II) (Cu^{2 +}) ions were inorganic components. BOPE-Cu^{2 +} nanoflowers are quite compact, porous, and uniform as compared to BOJE-Cu²⁺ nanoflowers. Scanning Electron Microscopy, Fourier Transform Infrared spectrometry, and Energy-Dispersive X-ray spectroscopy were used to observe the structures of the NFs. The findings of FT-IR show Cu–O and Cu–N bonds in NF, which may be an indicator of the development of NFs. Although the antimicrobial actions of BOPE-hNFs and BOJE-hNFs against Yersinia ruckeri (NCTC 12,268) have been confirmed.Graphic Abstract      

From Ca2+ in muscle contraction to IP3 receptor/Ca2+ signaling In memory of Setsuro Ebashi

The red fluorescent protein, DsRed, and a few of its mutants have been shown to bind copper ions resulting in quenching of its fluorescence. The response to Cu²⁺ is rapid, selective, and reversible upon addition of a copper chelator. DsRed has been employed as an in vitro probe for Cu²⁺ determination by us and other groups. It is also envisioned that DsRed can serve as an intracellular genetically encoded indicator of Cu²⁺ concentration, and can be targeted to desired subcellular locations for Cu²⁺ determination. However, no information has been reported yet regarding the mechanism of the fluorescence quenching of DsRed in the presence of Cu²⁺. In this work, we have performed spectroscopic investigations to determine the mechanism of quenching of DsRed fluorescence in the presence of Cu²⁺. We have studied the effect of Cu²⁺ addition on two representative mutants of DsRed, specifically, DsRed-Monomer and DsRed-Express. Both proteins bind Cu²⁺ with micromolar affinities. Stern-Volmer plots generated at different temperatures indicate a static quenching process in the case of both proteins in the presence of Cu²⁺. This mechanism was further studied using absorption spectroscopy. Stern-Volmer constants and quenching rate constants support the observation of static quenching in DsRed in the presence of Cu²⁺. Circular dichroism (CD)-spectroscopic studies revealed no effect of Cu²⁺-binding on the secondary structure or conformation of the protein. The effect of pH changes on the quenching of DsRed fluorescence in the presence of copper resulted in pK_a values indicative of histidine and cysteine residue involvement in Cu²⁺-binding.     

Benzothiazole appended lower rim 1,3-di-amido-derivative of calix[4]arene: Synthesis, structure, receptor properties towards Cu, iodide recognition and computational modeling

A new molecular fluorescent sensor (L) for Cu²⁺ has been synthesized by derivatizing the lower rim of calix[4]arene with benzothiazole moiety, through amide linkage to result in 1,3-di-derivative. The receptor molecule, L exhibited fluorescence quenching towards Cu²⁺ among eleven divalent ions, viz., Mn²⁺, Fe²⁺, Co²⁺, Ni²⁺, Cu²⁺, Zn²⁺, Cd²⁺, Hg²⁺, Ca²⁺, Mg²⁺ and Pb²⁺, studied. The 1:1 stoichiometry of the complex formed between L and Cu²⁺ has been demonstrated by electronic absorption and ESI-MS. The role of calix[4]arene for the selective sensing of Cu²⁺ has been established by comparing the data with that obtained for an appropriate control molecule. The minimum concentration at which L can detect Cu²⁺ has been found to be 403 ppb. The computations carried out at DFT level have provided the coordination and structural features of the Cu²⁺ complex of L as species of recognition. The Cu²⁺ complex thus formed recognizes iodide by bringing change in the color, among the 14 anions studied.     

重金属Cd2+和Cu2+胁迫下泥蚶消化酶活性的变化

为了探讨重金属Cd²⁺和Cu²⁺胁迫对泥蚶消化酶活性的影响,运用酶学分析的方法,按《渔业水质标准》（GB 11607）规定的Cd²⁺、Cu²⁺最高限量值的1、2、5、10倍设置重金属离子Cd²⁺、Cu²⁺浓度及其组合,研究了在重金属Cd²⁺、Cu²⁺胁迫下,30d内泥蚶3种消化酶活性的变化规律。结果表明：与空白对照组相比,在重金属Cd²⁺、Cu²⁺或其组合的胁迫下,较低浓度组泥蚶的淀粉酶活性实验前期增强（即被诱导）,实验后期减弱（即被抑制）,较高浓度组泥蚶的淀粉酶活性从实验一开始就减弱,并保持在较低水平,毒性比较,同一重金属高浓度 > 低浓度,不同重金属及其组合Cu²⁺ > （Cd²⁺+Cu²⁺）组合 > Cd²⁺;泥蚶脂肪酶的活性实验前期增强,实验后期转为微减弱或减弱,毒性比较,同一重金属高浓度 > 低浓度,不同重金属及其组合（Cd²⁺+Cu²⁺）组合 > Cu²⁺ > Cd²⁺;泥蚶胃蛋白酶的活性实验前期增强,且活性呈现升高-降低-再升高-再降低的变化,实验后期分别表现微增强、微减弱和减弱,毒性比较,同一重金属高浓度 > 低浓度,不同重金属及其组合（Cd²⁺+Cu²⁺）组合 > Cu²⁺ > Cd²⁺。可见：环境中的Cd²⁺和Cu²⁺对泥蚶的消化酶活性起着明显的影响作用。     

Purification and properties of indole 2,3-dioxygenase from maize leaves

An indole 2,3-dioxygenase was purified ca 38-fold from maize leaves. The enzyme had an MW of about 98000, an optimum pH of 5.0 and the energy of activation was 9.1 kcal/mol. The K_max for indole was 1.4 × 10^?4 M. The enzyme was inhibited by diethyldithiocarbamate, salicylaldoxime and sodium dithionite. The inhibition by diethyldithiocarbamate was specifically reversed by Cu²⁺. The dialysed enzyme was stimulated by Cu²⁺. Four atoms of oxygen were utilized in the disappearance of 1 mole of indole. Inhibition of the enzyme by -SH compounds and -SH group inhibitors, and their partial removal by Cu²⁺ only, suggested the involvement of -SH groups in binding of Cu²⁺ at the catalytic site.     

5-Thioxoimidazolidine-2-one derivatives: Synthesis,anti-inflammatory activity,analgesic activity,COX inhibition assay and molecular modelling study

A series of 5-imino-4-thioxo-2-imidazolidinone derivatives with different substituents at N¹ and N³ was synthesized with high yield and excellent purity by the reaction of different N-arylcyanothioformamide derivatives with isocyanate derivatives. Treatment 5-imino-4-thioxo-2-imidazolidinone derivatives with acidic medium afforded 4-thioxoimidazolidin-2,5-dione derivatives. The structures of the obtained products were established based on spectroscopic IR, ¹H NMR, ¹³C NMR, ¹H, ¹H-COSY, HSQC and elemental analyses. The anti-inflammatory activity of the synthesized compounds through the carrageenan-paw edema model as well as in vitro COX-1 and COX-2 inhibition assay were evaluated where most of the synthesized compounds showed significant anti-inflammatory activity. Mostly, all of our synthesized compounds have greater activity more than celecoxib toward both cyclooxygenase enzymes. All of the tested compounds (except one compound) exhibited IC₅₀ valves for COX-2 ranged from 0.001 × 10⁻³ to 0.827 × 10⁻³ µM while the reference drug has IC₅₀ 40.0 × 10⁻³ µM. Furthermore, the analgesic activity of such compounds was also determined. Molecular modeling study was also conducted to rationalize the potential as anti-inflammatory agents of our synthesized compounds by predicting their binding modes, binding affinities and optimal orientation at the active site of the COX enzymes.     

Cu-ions mediated changes in growth,chlorophyll and other ion contents in a Cu-tolerantKoeleria splendens

The effects of Cu²⁺ on growth, chlorophyll and other ion contents ofKoeleria splendens originated from Cu-contaminated soil have been investigated in nutrient solution. The most evident Cu²⁺ effects concern the root growth, especially the root length. Since in plants grown under lower Cu²⁺ concentrations (4 and 8 μM) root elongation, biomass, chlorophyll, Mg²⁺, Fe²⁺, Ca²⁺ and K⁺ content were increased compared with the control, the development of an adaptive mechanism ofK. splendens to Cu²⁺ is suggested. High Cu²⁺ concentration (160 μM) caused a significant reduction in root length and biomass as well as a decreased rate of chlorophyll biosynthesis. The reduction of growth can be correlated with the toxic effect of Cu²⁺ on photosynthesis, root respiration and protein synthesis in roots. 160 μM Cu²⁺-treatment had a negative influence on the concentrations of Ca²⁺, Fe²⁺, Mg²⁺ and K⁺ and a positive influence on the Cu²⁺ concentration in the plant tissues. Loss of nutrients similar to the senescence response suggests that excess of Cu²⁺ leads to the progressive senescence of the plants. Our results demonstrate the existence of an adaptive mechanism ofK. splendens under low Cu²⁺ concentrations, while high Cu²⁺ quantities cause disturbances in plant function.     

Novel multi-target compounds in the quest for new chemotherapies against Alzheimer’s disease: An experimental and theoretical study

The lack of any effective therapy along with the aging world population anticipates a growth of the worldwide incidence of Alzheimer’s disease (AD) to more than 100 million cases by 2050. Accumulation of extracellular amyloid-β (Aβ) plaques, intracellular tangles in the brain, and formation of reactive oxygen species (ROS) are the major hallmarks of the disease. In the amyloidogenic process, a β-secretase, known as BACE 1, plays a fundamental role in the production of Aβ fragments, and therefore, inhibition of such enzymes represents a major strategy for the rational design of anti-AD drugs. In this work, a series of four multi-target compounds (1–4), inspired by previously described ionophoric polyphenols, have been synthesized and studied. These compounds have been designed to target important aspects of AD, including BACE 1 enzymatic activity, Aβ aggregation, toxic concentrations of Cu²⁺ metal ions and/or ROS production. Two other compounds (5 and 6), previously reported by some of us as antimalarial agents, have also been studied because of their potential as multi-target species against AD. Interestingly, compounds 3 and 5 showed moderate to good ability to inhibit BACE 1 enzymatic activity in a FRET assay, with IC₅₀′s in the low micromolar range (4.4?±?0.3 and 1.7?±?0.3?μM, respectively), comparable to other multi-target species, and showing that the observed activity was in part due to a competitive binding of the compounds at the active site of the enzyme. Theoretical docking calculations overall agreed with FRET assay results, displaying the strongest binding affinities for 3 and 5 at the active site of the enzyme. In addition, all compounds selectively interacted with Cu²⁺ metal ions forming 2:1 complexes, inhibited the production of Aβ-Cu²⁺ catalyzed hydroxyl radicals up to a ～100% extent, and scavenged AAPH-induced peroxyl radical species comparably to resveratrol, a compound used as reference in this work. Our results also show good anti-amyloidogenic ability: compounds 1–6 inhibited both the Cu²⁺-induced and self-induced Aβ(1–40) fibril aggregation to an extent that ranged from 31% to 77%, while they disaggregated pre-formed Aβ(1–40) mature fibrils up to a 37% and a 69% extent in absence and presence of Cu²⁺, respectively. Cytotoxicity was additionally studied in Tetrahymena thermophila and HEK293 cells, and compared to that of resveratrol, showing that compounds 1–6 display lower toxicity than that of resveratrol, a well-known non-toxic polyphenol.     

Pulsed electron spin resonance resolves the coordination site of Cu²(+) ions in α1-glycine receptor

Herein, we identify the coordination environment of Cu²⁺ in the human α1-glycine receptor (GlyR). GlyRs are members of the pentameric ligand-gated ion channel superfamily (pLGIC) that mediate fast signaling at synapses. Metal ions like Zn²⁺ and Cu²⁺ significantly modulate the activity of pLGICs, and metal ion coordination is essential for proper physiological postsynaptic inhibition by GlyR in vivo. Zn²⁺ can either potentiate or inhibit GlyR activity depending on its concentration, while Cu²⁺ is inhibitory. To better understand the molecular basis of the inhibitory effect we have used electron spin resonance to directly examine Cu²⁺ coordination and stoichiometry. We show that Cu²⁺ has one binding site per α1 subunit, and that five Cu²⁺ can be coordinated per GlyR. Cu²⁺ binds to E192 and H215 in each subunit of GlyR with a 40 μM apparent dissociation constant, consistent with earlier functional measurements. However, the coordination site does not include several residues of the agonist/antagonist binding site that were previously suggested to have roles in Cu²⁺ coordination by functional measurements. Intriguingly, the E192/H215 site has been proposed as the potentiating Zn²⁺ site. The opposing modulatory actions of these cations at a shared binding site highlight the sensitive allosteric nature of GlyR.     

Cd(II) and Cu(II) complexes of polydentate Schiff base ligands: synthesis, characterization, properties and biological activity

We report the synthesis of the Schiff base ligands, 4-[(4-bromo-phenylimino)-methyl]-benzene-1,2,3-triol (A₁), 4-[(3,5-di-tert-butyl-4-hydroxy-phenylimino)-methyl]-benzene-1,2,3-triol (A₂), 3-(p-tolylimino-methyl)-benzene-1,2-diol (A₃), 3-[(4-bromo-phenylimino)-methyl]-benzene-1,2-diol (A₄), and 4-[(3,5-di-tert-butyl-4-hydroxy-phenylimino)-methyl]-benzene-1,3-diol (A₅), and their Cd(II) and Cu(II) metal complexes, stability constants and potentiometric studies. The structure of the ligands and their complexes was investigated using elemental analysis, FT-IR, UV-Vis, ¹H and ¹³C NMR, mass spectra, magnetic susceptibility and conductance measurements. In the complexes, all the ligands behave as bidentate ligands, the oxygen in the ortho position and azomethine nitrogen atoms of the ligands coordinate to the metal ions. The keto-enol tautomeric forms of the Schiff base ligands A₁-A₅ have been investigated in polar and non-polar organic solvents. Antimicrobial activity of the ligands and metal complexes were tested using the disc diffusion method and the strains Bacillus megaterium and Candida tropicalis.Protonation constants of the triol and diol Schiff bases and stability constants of their Cu²⁺ and Cd²⁺ complexes were determined by potentiometric titration method in 50% DMSO-water media at 25.00 ± 0.02 °C under nitrogen atmosphere and ionic strength of 0.1 M sodium perchlorate. It has been observed that all the Schiff base ligands titrated here have two protonation constants. The variation of protonation constant of these compounds was interpreted on the basis of structural effects associated with the substituents. The divalent metal ions of Cu²⁺ and Cd²⁺ form stable 1:2 complexes with Schiff bases.The Schiff base complexes of cadmium inhibit the intense chemiluminescence reaction in dimethylsulfoxide (DMSO) solution between luminol and dioxygen in the presence of a strong base. This effect is significantly correlated with the stability constants K_CdL of the complexes and the protonation constants K_OH of the ligands; it also has a nonsignificant association with antibacterial activity.     

紫花苜蓿对铜胁迫生理响应的傅里叶变换红外光谱法研究

为阐明紫花苜蓿(Medicago sativa L.)对铜胁迫的耐性机理,采用准确度好、分辨率高和简便快捷的傅里叶变换红外光谱法(FTIR)研究在不同铜浓度(0、1、5、20、100 mol/L)处理时紫花苜蓿根、茎、叶化学组分的变化。结果表明:随着铜处理浓度的增加,紫花苜蓿根、茎、叶生物量变化不大。其根组织在2924 cm~(-1)处峰高处呈现出先下降后上升的趋势,反映了在低铜(5 mol/L)处理条件下紫花苜蓿分泌的有机酸不断螯合Cu,造成羧酸0-H的减少,但随着Cu含量的升高,其羧酸螯合力变弱,有机酸含量渐渐升高;根组织在1381 cm~(-1)处峰高先下降后上升,反映了含油脂化合物含量先下降后升高。可能与植物在细胞壁结构上增强抗逆性有一定关系,即低Cu处理下细胞壁可能通过提高阳离子交换能力(CEC),增强了耐Cu性;茎组织在2924,1643,1381,1064 cm~(-1)等处峰高无明显变化;叶组织所有峰值在低浓度(5 mol/L)Cu处理下变化不明显,高浓度(5 moL/L)Cu处理下所有峰值先升后降,随着这可能与可溶性糖及可溶性蛋白质等物质含量都呈现先升后降的趋势有关。这表明紫花苜蓿通过根部有机酸含量的变化和提高细胞壁阳离子交换能力,将吸收的Cu大部分积累在根部,阻止Cu向地上部分运输,有效地保护了植物地上部分组织。     

Ionophoric polyphenols selectively bind Cu2+, display potent antioxidant and anti-amyloidogenic properties,and are non-toxic toward Tetrahymena thermophila

Alzheimer’s disease (AD) is the most common form of dementia affecting more than 28 million people in the world. Only symptomatic treatments are currently available. Anticipated tri-fold increase of AD incidence in the next 50 years has established the need to explore new possible treatments. Accumulation of extracellular amyloid-β (Aβ) plaques, intracellular tangles in the brain, and formation of reactive oxygen species (ROS) are the major hallmarks of the disease. The active role of some metal ions, especially Cu²⁺, in promoting both Aβ aggregation and reactive oxygen species formation has rendered ionophoric drugs as a promising treatment strategy. In this work, a series of 5 disease-modifying and multi-target ionophoric polyphenols (1–5), inspired on the structure of natural resveratrol, have been synthesized and characterized. All compounds bind Cu²⁺ selectively over other biologically relevant metal ions. They form 2:1 (compound/Cu²⁺) complexes with association constants log K_a 12–14 depending on the molecular design. Our results indicate that compounds 1–5 possess excellent antioxidant properties: they inhibit the Cu²⁺-catalyzed reactive oxygen species production between 47% and 100%, and they scavenge DPPH (1,1-diphenyl-2-picryl-hydrazyl) and AAPH (2,2′-azobis(2-amindino-propane)dihydrochloride) free radicals in general better than clioquinol, resveratrol and ascorbic acid. In addition, compounds 1–5 interact with Aβ peptides and inhibit both the Cu²⁺-catalyzed aggregation and the self-assembly of Aβ(1–40) up to a ∼92% extent. Interestingly, 1–5 are also able to disaggregate up to ∼91% of pre-formed Aβ(1–40) aggregates. Furthermore, cytotoxic studies show remarkably low toxicity of 1–5 toward Tetrahymena thermophila with LD₅₀ values higher than 150 μM, comparable to non-toxic natural resveratrol.     

Quantum dot-based assay for Cu quantification in bacterial cell culture

A simple and sensitive method for quantification of nanomolar copper with a detection limit of 1.2 × 10⁻¹⁰ M and a linear range from 10⁻⁹ to 10⁻⁸ M is reported. For the most useful analytical concentration of quantum dots, 1160 μg/ml, a 1/K_sv value of 11 μM Cu²⁺ was determined. The method is based on the interaction of Cu²⁺ with glutathione-capped CdTe quantum dots (CdTe–GSH QDs) synthesized by a simple and economic biomimetic method. Green CdTe–GSH QDs displayed the best performance in copper quantification when QDs of different sizes/colors were tested. Cu²⁺ quantification is highly selective given that no significant interference of QDs with 19 ions was observed. No significant effects on Cu²⁺ quantification were determined when different reaction matrices such as distilled water, tap water, and different bacterial growth media were tested. The method was used to determine copper uptake kinetics on Escherichia coli cultures. QD-based quantification of copper on bacterial supernatants was compared with atomic absorption spectroscopy as a means of confirming the accuracy of the reported method. The mechanism of Cu²⁺-mediated QD fluorescence quenching was associated with nanoparticle decomposition.     

Cu2+ Inhibits Photosystem II Activities but Enhances Photosystem I Quantum Yield of Microcystis aeruginosa

Responses of photosystem I and II activities of Microcystis aeruginosa to various concentrations of Cu²⁺ were simultaneously examined using a Dual-PAM-100 fluorometer. Cell growth and contents of chlorophyll a were significantly inhibited by Cu²⁺. Photosystem II activity [Y(II)] and electron transport [rETR_max(II)] were significantly altered by Cu²⁺. The quantum yield of photosystem II [Y(II)] decreased by 29 % at 100 μg L^?1 Cu²⁺ compared to control. On the contrary, photosystem I was stable under Cu²⁺ stress and showed an obvious increase of quantum yield [Y(I)] and electron transport [rETR_max(I)] due to activation of cyclic electron flow (CEF). Yield of cyclic electron flow [Y(CEF)] was enhanced by 17 % at 100 μg L^?1 Cu²⁺ compared to control. The contribution of linear electron flow to photosystem I [Y(II)/Y(I)] decreased with increasing Cu²⁺ concentration. Yield of cyclic electron flow [Y(CEF)] was negatively correlated with the maximal photosystem II photochemical efficiency (F _v/F _m). In summary, photosystem II was the major target sites of toxicity of Cu²⁺, while photosystem I activity was enhanced under Cu²⁺ stress.     

Studies on copper toxicity in nickel-resistant strains ofNeurospora crassa

Copper toxicity has been studied in three nickel-resistant strains ofNeurospora crassa (Ni^R1, Ni^R2, and Ni^R3). Ni^R1 and Ni^R2, but not Ni^R3, were two-to threefold more sensitive than the parent wild strain (N. crassa EM 5297a) to Cu²⁺ on a normal N medium. On a nitrate N medium, Cu²⁺ was 16-fold more toxic to Ni^R3 because of reduced synthesis of nitrite reductase; Ni^R1 and Ni^R2 were only fivefold more sensitive to Cu²⁺, and nitrite reductase synthesis was unaffected. Mn²⁺ reversed Cu²⁺ toxicity on normal N medium only, in all strains. Fe³⁺ counteracted Cu²⁺ toxicity on nitrate N medium also. It was shown that Cu²⁺ affected Fe³⁺ utilization for nitrite reductase synthesis in Ni^R3 only and that in these Ni²⁺-resistant strains, Fe³⁺ antagonized effects of Cu²⁺, but not of other toxic metal ions.     

Synthesis and Biological Activity of Some Benzochromenoquinolinones: Tacrine Analogs as Potent Anti‐Alzheimer's Agents

Alzheimer's disease (AD) is a well‐known neurodegenerative disorder affecting millions of old people worldwide and the corresponding epidemiological data emphasize the importance of the disease. As AD is a multifactorial illness, various single target directed drugs that have reached clinical trials have failed. Therefore, various factors associated with outset of AD have been considered in targeted drug discovery. In this work, various benzochromenoquinolinones were synthesized and evaluated for their cholinesterase and BACE1 inhibitory activities as well as neuroprotective and metal‐chelating properties. Among the synthesized compounds, 14‐amino‐13‐(3‐nitrophenyl)‐2,3,4,13‐tetrahydro‐1H‐benzo[6,7]chromeno[2,3‐b]quinoline‐7,12‐dione ( 6m ) depicted the best inhibitory activity toward acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) with IC₅₀s of 0.86 and 6.03 μm , respectively. Also, the compound could inhibit β‐secretase 1 (BACE1) with IC₅₀=19.60 μm and showed metal chelating ability toward Cu²⁺, Fe²⁺, and Zn²⁺. In addition, docking study demonstrated desirable interactions of compound 6m with amino acid residues characterizing AChE, BChE, and BACE1.     

Induction of phenolic compounds in two dark-grown lentil cultivars with different tolerance to copper ions

The influence of a high copper sulphate concentration on growth, Cu accumulation, lipid peroxidation as well as on the contents of total phenolic compounds (PhC) and UV-absorbing compounds (UVAC) in roots of lentil (Lens culinars Medic.) cvs. Krak and Tina was investigated. The plants were subjected to 0.5 mM Cu²⁺ for 3 and 5 days in darkness. Growth inhibition and increased lipid peroxidation in the roots of both cultivars, especially in cv. Tina which accumulated more Cu, were observed. Cu²⁺ treatment caused greater PhC and UVAC accumulation in cv. Krak; however, constitutive levels of these compounds were higher in cv. Tina. The maximum absorption peak of UVAC was determined at 270 nm. HPLC analyses of these compounds revealed the presence of two main derivatives of the soluble (aglycone and ester-bound) fraction of the hydroxycinnamic acids, ferulic (FA) and p-coumaric (p-CA) acids and the flavonol, kaempferol (Kam). Greater changes in the content of phenolic acids than of Kam may suggest that the former play a more important role in protecting lentil roots against high Cu²⁺ concentration. Thus, while the lower PhC levels at a higher Cu content in the roots of cv. Tina were probably due to stress, their higher levels in cv. Krak could have been a response to ROS signaling. However, though the high concentration of Cu²⁺ stimulated PhC in cv. Krak, it was not sufficient to counteract the amount of ROS generated by metal presence. These observations may suggest that ROS can serve as a common signal for acclimation to Cu²⁺ stress and cause PhC accumulation in dark-grown roots. The role of PhC in lentil tolerance to Cu²⁺ stress is discussed.