Dietary flavonoids as potential neuroprotectants

There is an increasing awareness of the role of certain nutritional components, including dietary flavonoids found in fruit, vegetables and beverages, in the maintenance of health and prevention of chronic diseases. In this regard, recent studies highlight an exciting role with respect to their potential neuroprotective actions, in particular towards deficits commonly observed with aging, such as reduced performance of cognitive, memory and learning tasks. These neurological functions, and possible mechanisms involved in controlling them, can be influenced by supplementation of single dietary flavonoids, or as part of a flavonoid-rich preparation. With this, a renewed emphasis is aimed at further understanding their modes and sites of action. Moreover a common theme among many in vitro studies examining mechanisms of neuroprotection is the failure to include biologically relevant metabolites of the flavonoids known to enter the circulation, and thus most likely to be bioavailable to cells and tissues. This oversight will ultimately influence the mechanisms of action proposed to explain the neuroprotection observed in animals and human studies. As such, emerging findings suggest a variety of potential mechanisms of action of flavonoids and their bioavailable metabolites in cytoprotection against oxidative stress, which may be independent of conventional antioxidant reducing activities. Such mechanisms might involve their interaction with cell signalling cascades, their influence on gene expression and the down regulation of pathways leading to cell death.     

Indole derivatives in Azotobacter cultures

В культурах азотобактера и его почвениых препатах содержатся ?изиологически активные вещества, частькоторых термостабильна. Количество ?изиологически активных веществ зависит от штамма азотобактера и от возраста культур. Особое внимание посRящалось гетероауксину. С помощью разделительной хроматогра?ии на бумаге и биологического теста было доказано присутствие β-индолуксусной кислоты и еще однго, пока не иденти?ицированног о, ?акгора роста. β-индолуксусная кислота в старых культурах превращается в индол-З-карбоновую кислоту. Полученные результаты обсуждаются с точки зрения влияния культур азотобактера на рост растений.     

Indole derivatives in vegetables of the family Cruciferae

The chemical background of the biological activities of vegetables of the Cruciferae family is considered. These vegetables contain alkaloids of the glucobrassicin group that are decomposed by the enzyme myrosinase (thioglucosidase, EC 3.2.3.1) released upon damage to the plant cells. This results in several indole derivatives, with ascorbigen and indole-3-carbinol predominating. In the gastrointestinal tract, these compounds form 5H,11H-indolo[3,2-b]carbazole, natural ligand of the aromatic hydrocarbon receptor (Ah receptor) and a functional analogue of 2,3,7,8-tetrachlorodibenzo-p-dioxin, a dangerous xenobiotic. The indolocarbazole-Ah receptor complex activates the gene of CYP1A1, an isoenzyme of cytochrome P450-dependent monoamine oxidase, which enhances the 2-hydroxylation (inactivation) of estrogens. In its turn, the resulting lowered level of estrogens inhibits the growth of hormone-dependent tumors or prevents their appearance. The mechanism of xenobiotic inactivation, underlying the anticarcinogenic action of food products including vegetables of Cruciferae family and some homogeneous indole compounds, is similar. Some other effects of nutrient indole compounds, e.g., the inhibition of expression of the cyclin-dependent kinase 6 (CDK6) by indole-3-carbinol that leads to the cell cycle arrest in G1 phase, are also considered. Analysis of the biological effects of the Cruciferae diet has helped start clinical studies of indole-3-carbinol as an antitumor and anticarcinogenic remedy for patients with a high risk of tumor diseases.     

Indole derivatives sustain embryonic stem cell self-renewal in long-term culture

Embryonic stem cells (ESCs), which have characteristics such as self-renewal, indefinite proliferation, and pluripotency, are thought to hold great promise for regenerative medicine. ESCs are generally cultured on mouse embryonic fibroblast (MEF) or MEF conditioned medium (MEF-CM). However, for therapeutic applications, it is preferable for ESCs to be cultured under chemically defined conditions. Here, we report synthetic compounds that allow expansion of undifferentiated mouse ESCs in the absence of MEF, Leukemia Inhibitory Factor (LIF), and Fetal Bovine Serum (FBS). ESCs cultured for more than 30 d in a serum-free medium supplemented with indole derivertives retained their characteristic morphology and expressed markers such as SSEA-1, OCT3/4, Rex-1, Sox2, and Nanog. They consistently differentiated into many types of cells, including neurons, muscle cells, and hepatocytes. These results indicate that our compounds provide a more efficient and safer large-scale culture system for pluripotent ESCs, and hence might contribute to the use of ESCs in therapeutic applications.     

Indole derivatives as potent inhibitors of 5-lipoxygenase: design, synthesis, biological evaluation, and molecular modeling

A series of novel indole derivatives was designed, synthesized and evaluated by cell-based assays for their inhibitory activities against 5-LOX in rat peritoneal leukocytes. Most of them (30 out of 35) showed an inhibitory potency higher than the initial screening hit 1a (IC(50)=74 microM). Selected compounds for concentration-response studies showed prominent inhibitory activities with IC(50) values ranging from 0.74 microM to 3.17 microM. Four compounds (1m, 1s, 4a, and 6a) exhibited the most potent inhibitory activity compared to that of the reference drug (Zileuton), with IC(50) values less than 1 microM. Molecular modeling studies for compounds 1a, 3a, 4a, and 6a were also presented. The excellent in vitro activities of this class of compounds may possess potential for the treatment of LT-related diseases.     

Indole alkaloids as systematic markers of the Apocynaceae

Indole alkaloids can be characterized by skeletal specialization (S), determined upon consideration of their relative position on a biogenetic map and the number of their naturally occurring substitutional derivatives, as well as by oxidation level (O). The mean (S) and (O) for contained alkaloids of a given plant taxon are taken to represent evolutionary advancement parameters, respectively EA_s and EA_o.A correlation of these EA_s/EA_o values for tribes of the Apocynaceae-Plumerioideae reveals a chemical gradient, given by gradually increasing EA_s and EA_o values, to link Carisseae-Alstonieae-Rauvolfieae-Tabernaemontaneae.     

Indole derivatives as dual-effective agents for the treatment of neurodegenerative diseases: Synthesis,biological evaluation,and molecular modeling studies

Several indole derivatives, that were highly potent ligands of GluN2B-subunit-containing N-methyl-d-aspartate (NMDA) receptor, also demonstrated antioxidant properties in ABTS method. In particular, the 2-(4-benzylpiperidin-1-yl)-1-(5-hydroxy-1H-indol-3-yl)ethanone (1) proved to be a dual-effective neuroprotective agent. With the aim to increase the antioxidant properties we added a catechol moiety onto piperidine moiety. The designed hybrid derivative 3,4-dihydroxy-N-[1-[2-(5-hydroxy-1H-indol-3-yl)-2-oxoethyl]piperidin-4-yl]benzamide (10) was the most effective antioxidant agent (>94.1 ± 0.1% of inhibition at 17 μM) and showed GluN2B/NMDA receptor affinity at low micromolar concentration (IC₅₀ 0.66 μM). By means of computational studies we explored the effect of the presence of this antioxidant fragment during the recognition process to binding pocket.     

Indole Can Act as an Extracellular Signal in Escherichia coli

Previous work has shown that lacZ fusions to the cysK, astD, tnaB, and gabT genes in Escherichia coli are activated by self-produced extracellular signals. Using a combination of ethyl acetate extraction, reversed-phase C(18) chromatography, and thin-layer chromatography, we have purified an extracellular activating signal from E. coli supernatants. Mass spectrometry revealed a molecule with an m/z peak of 117, consistent with indole. Nuclear magnetic resonance analysis of the purified E. coli factor and synthetic indole revealed identical profiles. Using synthetic indole, a dose-dependent activation was observed with lacZ fusions to the gabT, astD, and tnaB genes. However, cysK::lacZ and several control fusions were not significantly activated by indole. Conditioned medium prepared from a tnaA (tryptophanase) mutant, deficient in indole production, supported 26 to 41% lower activation of the gabT and astD fusions. The residual level of activation may be due to a second activating signal. Activation of the tnaB::lacZ fusion was reduced by greater than 70% in conditioned medium from a tnaA mutant.     

Protein ligand interactions. Indole alkaloids as inhibitors for lactate dehydrogenase

Kinetic analysis showed that the indole alkaloids strychnine and brucine interact competitively with the enzyme lactate dehydrogenase with respect to the substrate pyruvate and non competitively with respect to NADH. Since the alkaloids possess a potential enolate and a quaternary nitrogen they bridge the binding sites for the substrates - pyruvate and NAD+. Conformational alterations induced by the binding of ligands to the enzyme subunits are discussed in terms of the proposed chemical model.     

Oxidation of Indole and Indole Derivatives Catalyzed by Nonheme Chloroperoxidases

Indole, indolylacetic acid, and tryptophan were oxidized by chloroperoxidases isolated from strains of Streptomyces lividansand Pseudomonas pyrrocinia. Indigo (indoxyl), isatin, and anthranilic acid (intermediate products of oxidative degradation of indole and indole derivatives) were isolated from the reaction medium.     

Indole and aminoimidazole moieties appear as key structural units in antiplasmodial molecules

From a library of compounds of natural sources, a big series of molecules was chosen by random sampling to evaluate their in vitro antimalarial activity against Plasmodium falciparum and their antifungal activity against Candida sp. From 184 molecules tested, no molecules were active against Candida sp. (MIC > 10 μg/ml) whereas 13 clearly showed high antiplasmodial activity in vitro, with an IC₅₀ less than 1 μg/ml against the chloroquine-resistant strain of P. falciparum FcM29-Cameroon. The molecules with the best antiplasmodial efficacy were 10-hydroxy-ellipticin (IC₅₀: 0.08 μg/ml), tchibangensin (IC₅₀: 0.13 μg/ml), ellipticin hydrochloride (IC₅₀: 0.17 μg/ml), usambarensin (IC₅₀: 0.23 μg/ml), 7S,3S-ochropposinine oxindole (IC₅₀: 0.25 μg/ml), 3,14-dihydro-ellipticin (IC₅₀: 0.25 μg/ml), tetrahydro-4′,5′,6′17-usambarensin 17S (IC₅₀: 0.26 μg/ml), ellipticine (IC₅₀: 0.28 μg/ml), aricin (IC₅₀: 0.3 μg/ml), 10-methoxy-ellipticin (IC₅₀: 0.32 μg/ml), aplysinopsin (IC₅₀: 0.43 μg/ml), descarbomethoxydihydrogambirtannin (IC₅₀: 0.46 μg/ml) and ochrolifuanin A (IC₅₀: 0.47 μg/ml). Among these 13 promising molecules, all except descarbomethoxydihydrogambirtannin, ochrolifuanine A and usambarensine presented here novel biological activities since they had never been described in the literature for their antiplasmodial activity. In spite of the large diversity of the molecules which have been tested, it is interesting to note that the ones active against Plasmodium are all indole derivatives (and one is both indolic and aminoimidazolic). To find new antiplasmodial compounds, ethnopharmacological approaches studying traditional medicine treatments for malaria is largely used but random research produced here an interesting yield (7%) of new antiplasmodial hits and appears therefore complementary to the traditional medicine way.     

Styrene Derivatives of Indole and Pyranone as Fluorogenic Substrates for FAST Protein

Russian Journal of Bioorganic Chemistry - We report novel styrene derivatives of indole and pyranone. The possibility of their use as fluorogens for FAST protein were investigated. Derivatives of...     

Peptide derivatives as prodrugs

The results quoted here suggest strongly that peptides as prodrugs are a real possibility for future forms of therapy. Pharmacokinetics and bioavailability are certainly altered by such modifications, usually in a positive sense. The possibilities in utilizing active transport permeases to direct drugs to the desired receptor are an obvious reality, and will undoubtedly lead to new methods for treating bacterial, fungal or even viral infections, and for improved ways of presenting anti-tumour agents. The number of patents appearing in this field is indicative of the interest shown in the pharmaceutical industry.     

Naringenin derivatives as anti-atherogenic agents

Two classes of naringenin derivatives were evaluated for anti-atherogenic activity. Naringenin 7-O-oleic ester (2) and naringenin 7-O-cetyl ether (3) inhibited the formation of aortic atherosclerotic lesions in high cholesterol-fed rabbits.     

Indole alkaloids from Hunteria zeylanica

Fourteen indole alkaloids were isolated and identified from the leaves and bark of Hunteria zeylanica: isocorymine, vobasine, (+)-eburnamenine, eburnamine, isoeburnamine, O-ethyleburnamine, O-methyleburnamine, O-methylisoeburnamine, pleiocarpamine, dihydrocorynantheol, yohimbol, epiyohimbol, tuboxenine and hydroxy-17-decarbomethoxy-16-dihydroepiajmalicine. O-Ethyleburnamine, O-methylisoeburnamine, epiyobimbol and hydroxy-17-decarbomethoxy-16-dihydroepiajmalicine, although known products, were isolated for the first time from a natural source.     

Microbial Hydroxylation of Indole Alkaloids

The hydroxylation of the indole-type alkaloids, yohimbine, α-yohimbine, β-yohimbine, and corynanthine, was achieved with several genera of higher fungi and species of Streptomyces. Microorganisms were found which monohydroxylated these compounds in three different positions. The site of hydroxylation was strain-specific for two strains of Cunninghamella echinulata and C. bainieri.     

Indole Derivatives as Potent Inhibitors of Larval Settlement by the Barnacle,Balanus amphitrite

A potent inhibitor of larval settlement by the barnacle, Balanus amphitrite, was isolated as 2,5,6-tribromo-1-methylgraimne from a marine invertebrate. In comparative tests on the activity of related compounds, such compounds as 2-methylgramine and 2-methyl-3-(morpholinomethyl)-indole exhibited potent inhibitory activity. The inhibitory activity toward larval settlement was found not to be due to toxicity but to a repellent effect.