Your search keyword '"Tvrdý V"' showing total 17 results

1. P09-01: The effects of bisphenols on the cardiovascular system ex vivo and in vitro

Author

Carazo, A., Tvrdy, V., Dias, P., Pourová, J., Jirkovský, E., Moravcová, M., Peterlin Mašič, L., Sollner Dolenc, M., and Mladěnka, P.

Published

2023

2. Selected bisphenols and phthalates screened for estrogen and androgen disruption by in silico and in vitro methods

Author

Kandarova, H., Letasiova, S., Bachelor, M., Milasova, T., Markus, J., Ayehunie, S., Dvořáková, M., Kejlová, K., Rucki, M., Jírová, D., Indra, R., Wilhelm, M., Černá, T., Heger, Z., Dostálová, S., Adam, V., Eckschlager, T., Stiborová, M., Hraběta, J., Arlt, V.M., Schmeiser, H.H., Zdurienčíková, M., Gronesová, P., Sedlák, J., Nekvindova, J., Hyrslova Vaculova, A., Soucek, P., Anzenbacher, P., Vondracek, J., Kiss, I., Slaby, O., Kala, Z., Palicka, V., Horváthová, E., Mastihuba, V., Karnišová Potocká, E., Kis, P., Gálová, E., Ševčovičová, A., Klapáková, M., Mastihubová, M., Vondráček, J., Hýžďalová, M., Pivnička, J., Zapletal, O., Neča, J., Machala, M., Figat, R., Wójtowicz, A., Sobczak, M., Śliwińska, A., Pietrosiuk, A., Nałęcz-Jawecki, G., Košťálová, E., Nagyová, V., Kilbergerová, H., Chomová, L., Kurejová, H., Pavlikova, N., Daniel, P., Sramek, J., Jelinek, M., Halada, P., Kovar, J., Jírová, G., Vlková, A., Wittlerová, M., Kašparová, L., Chrz, J., Wittlingerová, Z., Zimová, M., Mráz, J., Hanzlíková, I., Dušková, Š., Tvrdíková, M., Chrástecká, H., Vajtrová, R., Linhart, I., Brandeburová, P., Grenčíková, A., Žabka, D., Mackuľak, T., Ryba, J., Bondarev, D., Kassa, J., Hepnarova, V., Musilek, K., Misik, J., Hatlapatkova, J., Zdarova Karasova, J., Korabecny, J., Gorecki, L., Malinak, D., Hrabinova, M., Soukup, O., Jun, D., Kuca, K., Benkova, M., Marek, J., Sleha, R., Ryskova, L., Matula, M., Tumu, H., Cuffari, B., Billack, B., Koprdová, R., Májeková, M., Kiss, A., Osacká, J., Dremencov, E., Csatlósová, K., Kokras, N., Dalla, C., Švecová, B., Mach, M., Heger, V., Viskupicova, J., Zoofishan, Z., Hunyadi, A., Horakova, L., Bogi, E., Belovicova, K., Csatlosova, K., Moravcíkova, L., Lacinova, L., Dubovicky, M., Sasváriová, M., Kaprinay, B., Salvaras, L., Belovičová, K., Bögi, E., Knézl, V., Barteková, M., Stankovičová, T., Dubovický, M., Hayes, A.W., vom Berg, C., Iskandar, A., Hoeng, J., Peitsch, MC, Dourson, M., Ambrož, M., Lněničková, K., Matoušková, P., Skálová, L., Boušová, I., Andreji, J., Dvořák, P., Anzenbacherová, E., Prokop, J., Mrkvicová, E., Pavlata, L., Zapletalová, I., Šťastník, O., Martinek, P., Kosina, P., Bögi, E, Csatlosová, K., Bernatova, I., Balis, P., Kluknavsky, M., Zemancikova, A., Torok, J., Puzserova, A., Zárybnický, T., Trnčáková, V., Šubrt, Z., Dršata, J., Brucknerová, I., Brucknerova, J., Ujházy, E., Bujňáková Mlynarčíková, A., Scsuková, S., Caloudova, H., Hodkovicova, N., Berlinska, J., Marsalek, B., Panacek, A., Svobodova, Z., Pino, M.A., Capek, J., Brychtová, V., Handl, J., Majtnerová, P., Rousar, T., Dračínská, H., Jelínková, S., Dvořák, J., Dvořáková Líšková, Z., Graňáková, P., Raisová, Stuchlíková L., Podlipná, R., Szotáková, B., Majerová, M., Hamulakova, S., Janovec, L., Čapek, J., Roušar, T., Hanousková, B., Zemanová, K., Hlávková, D., Havelková, B., Beklová, M., Hodek, P., Hucková, P., Hušková, A., Šimůnek, J., Mrázek, J., Hudeček, J., Sehonova, P., Blahova, J., Vaclavik, J., Hrabinová, M., Schmidt, M., Misík, J., Jáklová, K., Pompach, P., Takácsová, P., Vavrová, K., Kopečková, K., Kolárik, M., Jambor, T., Greifova, H., Massanyi, P., Lukac, N., Járová, K., Osičková, P., Kauerová, T., Hamadová, D., Kollár, P., Goněc, T., Kos, J., Jampílek, J., Syrovets, T., Parák, T., Suchý, P., Kobrlova, T., Janockova, J., Kubíčková, B., Rychnová, J., Dostálová, K., Vyhnalová, K., Mrázková, J., Mandys, V., Wimmerová, M., Lazová, J., Bednáriková, M., Imreová, P., Múčková, M., Lipcseyová, D., Benešová, B., Šoltésová Prnová, M., Štefek, M., Viskupičová, J., Láníčková, T., Tománková, V., Cibiček, N., Snášelová, S., Ulrichová, J., Maňáková, E., Hubičková Heringová, L., Skála, M., Skarková, V., Brynychová, V., Souček, P., Heglasová, S., Dugasová, L., Morová, M., Šimončičová, E., Senko, T., Olexová, L., Dzirbíková, Z., Kršková, L., Muckova, L., Jost, P., Pejchal, J., Nowakowska, K., Giebultowicz, J., Kamaszewski, M., Drobniewska, A., Wroczyński, P., Paprskářová, A., Kuzminová, G., Klusáková, J., Hendrych, M., Pavelka, S., Piešová, M., Račková, L., Škandík, M., Straková, Z., Bezek, Š., Jančinová, V., Raisová, L., Martínková, L., Sabolová, D., Imrichová, N., Rendošová, M., Vargová, Z., Lakatoš, B., Gulač, P., Moserová, M., Martínková, E., Frei, E., Syslová, E., Landa, P., Vaněk, T., Harant, K., Šadibolová, M., Deingruberová, K., Špičáková, A., Kraus, P., Strnad, M., Šušaníková, I., Kukurová, Ľ., Forman, V., Mučaji, P., Tvrdý, V., Karlíčková, J., Hanuščinová, L., Mladěnka, P., Ujhazy, E., Koprdova, R., Brucknerova, I., Valachová, K., Topoľská, D., Šoltés, L., Vanduchova, A., Anzenbacherova, E., Vasicek, O., Rubanova, D., Babinkova, P., Fedr, R., Svenda, J., Kubala, L., Vrba, J., Roubalova, L., Vacek, J., Storch, J., Zaltauskaite, J., Jakubynaite, A., Dikšaitytė, A., Januškaitienė, I., Sujetovienė, G., Kacienė, K., Miškelytė, D., and Juknys, R.

Subjects

L-07, L-29, L-06, L-28, L-09, L-08, Article, Abstract Book, L-03, L-25, L-02, L-24, L-05, L-27, L-04, L-26, L-21, L-20, L-01, L-23, L-22, L-18, L-17, L-19, L-30, L-14, L-13, L-16, L-15, L-10, L-32, L-31, L-12, L-11

Published

2018

3. The effects of bisphenols on the cardiovascular system ex vivo and in vivo.

Author

Tvrdý V, Dias P, Nejmanová I, Carazo A, Jirkovský E, Pourová J, Fadraersada J, Moravcová M, Peterlin Mašič L, Sollner Dolenc M, and Mladěnka P

Subjects

Humans, Rats, Animals, Rats, Wistar, Benzhydryl Compounds toxicity, Benzhydryl Compounds metabolism, Cardiovascular System

Abstract

The human population is regularly exposed to bisphenols. The first compound of this class, bisphenol A, is burdened by numerous reports of its potential toxicity and has been hence replaced by its analogues, so-called next generation bisphenols. Their widespread use has made them pervasive throughout the environment. These endocrine disrupting chemicals can affect the cardiovascular system, and hence the aim of this study was to test 14 bisphenols (A, AF, AP, B, BP, C, E, F, G, M, P, PH, S and Z), and compare their effects in vitro (human and rat cell lines), ex vivo (isolated rat aorta) and in vivo (Wistar Han rats, acutely or chronically exposed to low environmental and high toxic doses). The majority of the tested bisphenols relaxed rat aorta, but their potency varied markedly. The most potent compound, bisphenol AF, had an EC 50 of 57 μM. The mechanism of action was likely based on the inhibition of calcium influx via L-type calcium channels. The cytotoxicity of bisphenols towards 4 human and rat cell lines (H9c2, A-10, MCF7/S0.5 and MCF7/182R-6) showed variable potencies ranging from units of micromolar to millimolar concentrations. Based on these data, an effect on arterial blood pressure and possible cardiotoxicity was expected. Contrarily, the in vivo acute effects of three doses (0.005, 0.05 and 2.5 mg/kg) of bisphenol AF and 3 other analogues (A, S and F) on the cardiovascular system were rather biologically negligible. The most potent bisphenol, AF, was also administered chronically at a dose of 2.5 mg/kg for 4 weeks to rats, but had no impact on arterial blood pressure. Our results showed that bisphenols can relax vascular smooth muscles, but the effective concentrations are too high to produce clear cardiovascular effects in relation to common biological exposure as was confirmed with the most potent bisphenol AF., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

4. Interaction of Flavonoids with Zinc and Zinc-Containing Enzymes.

Author

Hrubša M, Tvrdý V, Kutý M, Valentová K, Křen V, and Mladěnka P

Subjects

Alcohol Dehydrogenase metabolism, Animals, Cattle, Chelating Agents chemistry, Glutamate Dehydrogenase, Horses, Metals metabolism, Flavonoids, Zinc metabolism

Abstract

The current chelation therapy has several drawbacks, including lack of selectivity, which could lead to trace metal depletion. Consequently, the proper function of metalloenzymes can be disrupted. Flavonoids possess chelating properties and hence interfere with the homeostasis of essential metals. We focused on zinc, an important trace metal required for the function of many enzymes and transcription factors. After making an initial evaluation of the Zn 2+ -chelating properties of a series of flavonoids, the effect of these compounds on various zinc-containing enzymes was also investigated. We performed enzyme inhibition assays spectrophotometrically using yeast and equine alcohol dehydrogenases and bovine glutamate dehydrogenase. Nine of the 21 flavonoids tested were capable of chelating Zn 2+ . Baicalein and 3-hydroxyflavone were the most potent Zn 2+ chelators under slightly acidic and neutral pH conditions. This chelation was also confirmed by the ability to reverse Zn 2+ -induced enzymatic inhibition of bovine glutamate dehydrogenase. Although some flavonoids were also able to inhibit zinc-containing alcohol dehydrogenases, this inhibition was likely not caused by Zn 2+ chelation. Luteolin was a relatively potent inhibitor of these enzymes regardless of the presence of Zn 2+ . Docking studies confirmed the binding of active flavonoids to equine alcohol dehydrogenase without any significant interaction with the catalytic zinc.

Published

2022

5. The effects of bisphenols on the cardiovascular system.

Author

Dias P, Tvrdý V, Jirkovský E, Dolenc MS, Peterlin Mašič L, and Mladěnka P

Subjects

Animals, Benzhydryl Compounds toxicity, Cross-Sectional Studies, Female, Phenols, Pregnancy, Cardiovascular System, Endocrine Disruptors toxicity

Abstract

Bisphenols, endocrine disrupting chemicals, have frequently been used for producing food packaging materials. The best-known member, bisphenol A (BPA), has been linked to impaired foetal development in animals. Possible negative effects of BPA on human health have resulted in the production of novel, so-called next-generation (NextGen) bisphenols whose effects on humans are much less explored or even missing. This review aimed to summarise and critically assess the main findings and shortages in current bisphenol research in relation to their potential impact on the cardiovascular system in real biological exposure. Because of the common presence of bisphenols in daily use products, humans are clearly exposed to these compounds. Most data are available on BPA, where total serum levels (i.e. included conjugated metabolite) can reach up to ∼430 nM, while free bisphenol levels have been reported up to ∼80 nM. Limited data are available for other bisphenols, but maximal serum levels of bisphenol S have been reported (680 nM). Such levels seem to be negligible, although in vitro studies have showed effects on ion channels, and thyroid, oestrogenic and androgenic receptors in low micromolar concentrations. Ex vivo studies suggest vasodilatory effects of bisphenols. This stays in clear contrast to the elevation of arterial blood pressure documented in vivo and in observatory cross-sectional human studies. Bisphenols are also claimed to have a negative effect on lipidic spectrum and coronary artery disease. Regardless, the reported data are generally inconsistent and unsatisfactory. Hence novel well-designed studies, testing in particular NextGen bisphenols, are needed.

Published

2022

6. Silymarin Dehydroflavonolignans Chelate Zinc and Partially Inhibit Alcohol Dehydrogenase.

Author

Tvrdý V, Hrubša M, Jirkovský E, Biedermann D, Kutý M, Valentová K, Křen V, and Mladěnka P

Subjects

Animals, Glutamate Dehydrogenase antagonists & inhibitors, Horses, Silybin pharmacology, Yeasts drug effects, Zinc metabolism, Alcohol Dehydrogenase antagonists & inhibitors, Chelating Agents pharmacology, Flavonolignans pharmacology, Silymarin pharmacology, Zinc isolation & purification

Abstract

Silymarin is known for its hepatoprotective effects. Although there is solid evidence for its protective effects against Amanita phalloides intoxication, only inconclusive data are available for alcoholic liver damage. Since silymarin flavonolignans have metal-chelating activity, we hypothesized that silymarin may influence alcoholic liver damage by inhibiting zinc-containing alcohol dehydrogenase (ADH). Therefore, we tested the zinc-chelating activity of pure silymarin flavonolignans and their effect on yeast and equine ADH. The most active compounds were also tested on bovine glutamate dehydrogenase, an enzyme blocked by zinc ions. Of the six flavonolignans tested, only 2,3-dehydroderivatives (2,3-dehydrosilybin and 2,3-dehydrosilychristin) significantly chelated zinc ions. Their effect on yeast ADH was modest but stronger than that of the clinically used ADH inhibitor fomepizole. In contrast, fomepizole strongly blocked mammalian (equine) ADH. 2,3-Dehydrosilybin at low micromolar concentrations also partially inhibited this enzyme. These results were confirmed by in silico docking of active dehydroflavonolignans with equine ADH. Glutamate dehydrogenase activity was decreased by zinc ions in a concentration-dependent manner, and this inhibition was abolished by a standard zinc chelating agent. In contrast, 2,3-dehydroflavonolignans blocked the enzyme both in the absence and presence of zinc ions. Therefore, 2,3-dehydrosilybin might have a biologically relevant inhibitory effect on ADH and glutamate dehydrogenase.

Published

2021

7. Systematic review of pharmacokinetics and potential pharmacokinetic interactions of flavonolignans from silymarin.

Author

Tvrdý V, Pourová J, Jirkovský E, Křen V, Valentová K, and Mladěnka P

Subjects

Animals, Antioxidants, Flavonoids, Humans, Liver, Silybum marianum, Silymarin pharmacology

Abstract

Silymarin is an extract from the seeds (fruits) of Silybum marianum that contains flavonolignans and flavonoids. Although it is frequently used as a hepatoprotective agent, its application remains somewhat debatable, in particular, due to the low oral bioavailability of flavonolignans. Moreover, there are claims of its potential interactions with concomitantly used drugs. This review aims at a systematic summary and critical assessment of known information on the pharmacokinetics of particular silymarin flavonolignans. There are two known major reasons for poor systemic oral bioavailability of flavonolignans: (1) rapid conjugation in intestinal cells or the liver and (2) efflux of parent flavonolignans or formed conjugates back to the lumen of the gastrointestinal tract by intestinal cells and rapid excretion by the liver into the bile. The metabolism of phase I appears to play a minor role, in contrast to extensive conjugation and indeed the unconjugated flavonolignans reach low plasma levels after common doses. Only about 1%-5% of the administered dose is eliminated by the kidneys. Many in vitro studies tested the inhibitory potential of silymarin and its components toward different enzymes and transporters involved in the absorption, metabolism, and excretion of xenobiotics. In most cases, effective concentrations are too high to be relevant under real biological conditions. Most human studies showed no silymarin-drug interactions explainable by these suggested interferences. More interactions were found in animal studies, likely due to the much higher doses administered., (© 2021 Wiley Periodicals LLC.)

Published

2021

8. Dehydroflavonolignans from Silymarin Potentiate Transition Metal Toxicity In Vitro but Are Protective for Isolated Erythrocytes Ex Vivo.

Author

Lomozová Z, Tvrdý V, Hrubša M, Catapano MC, Macáková K, Biedermann D, Kučera R, Křen V, Mladěnka P, and Valentová K

Abstract

2,3-Dehydrosilybin (DHS) was previously shown to chelate and reduce both copper and iron ions. In this study, similar experiments with 2,3-dehydrosilychristin (DHSCH) showed that this congener of DHS also chelates and reduces both metals. Statistical analysis pointed to some differences between both compounds: in general, DHS appeared to be a more potent iron and copper chelator, and a copper reducing agent under acidic conditions, while DHSCH was a more potent copper reducing agent under neutral conditions. In the next step, both DHS and DHSCH were tested for metal-based Fenton chemistry in vitro using HPLC with coulometric detection. Neither of these compounds were able to block the iron-based Fenton reaction and, in addition, they mostly intensified hydroxyl radical production. In the copper-based Fenton reaction, the effect of DHSCH was again prooxidant or neutral, while the effect of DHS was profoundly condition-dependent. DHS was even able to attenuate the reaction under some conditions. Interestingly, both compounds were strongly protective against the copper-triggered lysis of red blood cells, with DHSCH being more potent. The results from this study indicated that, notwithstanding the prooxidative effects of both dehydroflavonolignans, their in vivo effect could be protective.

Published

2021

9. Applicability of the OECD 455 in-vitro assay for determination of hERa agonistic activity of isoflavonoids.

Author

Gramec Skledar D, Tvrdý V, Kenda M, Zega A, Pour M, Horký P, Mladěnka P, Sollner Dolenc M, and Peterlin Mašič L

Subjects

Estrogen Receptor alpha antagonists & inhibitors, Flavonoids pharmacology, HeLa Cells, Humans, Luminescence, Phytoestrogens pharmacology, Estrogen Receptor alpha agonists, Flavonoids toxicity, Phytoestrogens toxicity, Toxicity Tests methods, Toxicity Tests standards

Abstract

The Organisation for Economic Co-operation and Development (OECD)-validated transactivation assay using the human estrogen receptor alpha (hERα) Hela9903 cell line is used for activity evaluation of hERα agonists and antagonists. Due to many advantages, this assay is broadly used as an initial screening process. However, response significantly higher from that of 17-β estradiol (E2) was observed with phytoestrogens for concentrations commonly above 1 μM in previous studies. The main aim of this study was thus to ascertain the applicability of OECD protocol 455 for evaluation of estrogenic activity of natural flavonoids, including known phytoestrogens. The estrogenic activities of aglycones as well as of O-methylated and glycosylated flavonoids were evaluated. Supra-maximal luciferase activity was seen for most of the flavonoids tested at concentrations even below 1 μM. hERα-mediated luciferase expression was confirmed with the competition assay specified in OECD protocol 455. However, at concentrations above 1 μM, non-specific interactions were also observed. Instead of EC 50 values, which could not be determined for most of the isoflavonoids tested, the concentrations corresponding to 10% (PC 10 ) and 50% (PC 50 ) of the maximum activity of the positive control, E2, were used for quantitative determination of estrogenic activities. Appropriate evaluation of the data obtained with the current OECD protocol 455 validated assay represents a valuable tool for initial screening of natural flavonoids for estrogenic activity., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

10. The Effect of Silymarin Flavonolignans and Their Sulfated Conjugates on Platelet Aggregation and Blood Vessels Ex Vivo.

Author

Pourová J, Applová L, Macáková K, Vopršalová M, Migkos T, Bentanachs R, Biedermann D, Petrásková L, Tvrdý V, Hrubša M, Karlíčková J, Křen V, Valentová K, and Mladěnka P

Subjects

Animals, Humans, Male, Molecular Structure, Rats, Vasodilator Agents, Aorta drug effects, Flavonolignans chemistry, Flavonolignans pharmacology, Platelet Aggregation drug effects, Platelet Aggregation Inhibitors chemistry, Platelet Aggregation Inhibitors pharmacology

Abstract

Silymarin is a traditional drug and food supplement employed for numerous liver disorders. The available studies indicate that its activities may be broader, in particular due to claimed benefits in some cardiovascular diseases, but the contributions of individual silymarin components are unclear. Therefore, we tested silymarin flavonolignans as pure diastereomers as well as their sulfated metabolites for potential vasorelaxant and antiplatelet effects in isolated rat aorta and in human blood, respectively. Eleven compounds from a panel of 17 tested exhibited a vasorelaxant effect, with half maximal effective concentrations (EC 50 ) ranging from 20 to 100 µM, and some substances retained certain activity even in the range of hundreds of nM. Stereomers A were generally more potent as vasorelaxants than stereomers B. Interestingly, the most active compound was a metabolite-silychristin-19- O -sulfate. Although initial experiments showed that silybin, 2,3-dehydrosilybin, and 2,3-dehydrosilychristin were able to substantially block platelet aggregation, their effects were rapidly abolished with decreasing concentration, and were negligible at concentrations ≤100 µM. In conclusion, metabolites of silymarin flavonolignans seem to have biologically relevant vasodilatory properties, but the effect of silymarin components on platelets is low or negligible.

Published

2019

11. The influence of microbial isoflavonoid specific metabolites on platelets and transition metals iron and copper.

Author

Migkos T, Applová L, Horký P, Tvrdý V, Karlíčková J, Macáková K, Hrubša M, Catapano MC, Tomanek M, Pour M, and Mladěnka P

Subjects

Aspirin pharmacology, Biological Availability, Blood Platelets drug effects, Humans, Isoflavones metabolism, Male, Platelet Aggregation drug effects, Copper metabolism, Equol metabolism, Iron metabolism, Isoflavones pharmacology, Phenols metabolism

Abstract

Background: Isoflavonoids seem to possess positive cardiovascular and other beneficial effects in humans., Hypothesis: Their low bioavailability, however, indicates that small isoflavonoid metabolites formed by human microflora can significantly contribute to these activities., Study Design: Testing antiplatelet activity ex vivo in human blood and interaction with transition metals in vitro., Methods: The effect on platelet aggregation induced by different triggers (arachidonic acid, collagen, ADP, TRAP-6), and interactions with transition metals (iron and copper chelation/reduction) were evaluated against four isoflavonoid-specific metabolites: S-equol; O-desmethylangolensin; 2-(4-hydroxyphenyl) propionic acid (HPPA); and 4-ethylphenol., Results: S-equol, 4-ethylphenol and O-desmethylangolensin blocked platelet aggregation induced by arachidonic acid and collagen. S-equol even matched the potency of acetylsalicylic acid in the case of collagen, which is the most physiological inducer of aggregation. Moreover, their effects in general seemed to be biologically relevant and attainable at achievable plasma concentrations, with the exception of HPPA which was ineffective. While only O-desmethylangolensin mildly chelated iron and copper, all four compounds markedly reduced cupric ions. Their direct free radical scavenging effects seem to have little clinical relevance., Conclusion: This study has shown that S-equol, O-desmethylangolensin and 4-ethylphenol, arising from isoflavonoid intake, can have biologically relevant effects on platelet aggregation., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

12. 4-Methylcatechol, a Flavonoid Metabolite with Potent Antiplatelet Effects.

Author

Applová L, Karlíčková J, Warncke P, Macáková K, Hrubša M, Macháček M, Tvrdý V, Fischer D, and Mladěnka P

Subjects

Animals, Arachidonic Acid pharmacology, Chick Embryo, Cyclooxygenase Inhibitors pharmacology, Enzyme Inhibitors pharmacology, Humans, Platelet Aggregation drug effects, Pyrogallol pharmacology, Serotonin metabolism, Thrombosis drug therapy, Thromboxane-A Synthase antagonists & inhibitors, Catechols pharmacology, Drug Evaluation, Preclinical methods, Platelet Aggregation Inhibitors pharmacology

Abstract

Scope: Intake of flavonoids from the diet can be substantial, and epidemiological studies suggest that these compounds can decrease the incidence of cardiovascular diseases by involvement with increased platelet aggregation. Although parent flavonoids possess antiplatelet effects, the clinical importance is disputable due to their very low bioavailability. Most of them are metabolized by human colon bacteria to smaller phenolic compounds, which reach higher plasma concentrations than the parent flavonoids. In this study, a series of 29 known flavonoid metabolites is tested for antiplatelet potential., Methods and Results: Four compounds appear to have a biologically relevant antiplatelet effect using whole human blood. 4-Methylcatechol (4-MC) is clearly the most efficient being about 10× times more active than clinically used acetylsalicylic acid. This ex vivo effect is also confirmed using a potentially novel in-vivo-like ex ovo hen's egg model of thrombosis, where 4-MC significantly increases the survival of the eggs. The mechanism of action is studied and it seems that it is mainly based on the influence on intracellular calcium signaling., Conclusion: This study shows that some flavonoid metabolites formed by human microflora have a strong antiplatelet effect. This information can help to explain the antiplatelet potential of orally given flavonoids., (© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

13. Hematoxylin assay of cupric chelation can give false positive results.

Author

Macáková K, Catapano MC, Tvrdý V, Klimková K, Karlíčková J, and Mladěnka P

Subjects

Molecular Conformation, Chelating Agents chemistry, Copper chemistry, False Positive Reactions, Hematoxylin chemistry

Abstract

Some compounds without apparent chelation sites have been shown to chelate cupric ions using the hematoxylin assay. Since these compounds also have reduction potential (direct antioxidant effect), the aim of this study was to determine the possible interference of reducing agents with the hematoxylin assay. Four different known reducing agents (hydroxylamine, vitamin C, trolox - a water-soluble form of vitamin E and reduced glutathione /GSH/) were selected for the study together with oxidized glutathione (GSSG) for comparison. All tested compounds behaved as cupric chelators in the spectrophotometric mildly competitive hematoxylin assay. In-depth analysis however showed that only GSH and GSSG were able to form complexes with both cupric and cuprous ions and only GSSG partly retained copper in its complexes in the more competitive bathocuproine assay. Further experiments showed that with the exception of GSSG, all other compounds reduce Cu 2+ ions. Conclusion: Compounds reducing copper such as antioxidants can give false positive results in the hematoxylin-screening assay. GSSG is a stronger Cu chelator than GSH and does not reduce Cu, in contrast to the latter and thus may be a protective element after oxidation of GSH., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2019

14. Interaction of isolated silymarin flavonolignans with iron and copper.

Author

Tvrdý V, Catapano MC, Rawlik T, Karlíčková J, Biedermann D, Křen V, Mladěnka P, and Valentová K

Subjects

Hydrogen-Ion Concentration, Molecular Structure, Stereoisomerism, Copper chemistry, Flavonolignans chemistry, Iron chemistry, Silymarin chemistry

Abstract

Silymarin, the standardized extract from the milk thistle (Silybum marianum), is composed mostly of flavonolignans and is approved in the EU for the adjuvant therapy of alcoholic liver disease. It is also used for other purported effects in miscellaneous nutraceuticals. Due to polyhydroxylated structures and low systemic bioavailability, these flavonolignans are likely to interact with transition metals in the gastrointestinal tract. The aim of this study was to analyze the interactions of pure silymarin flavonolignans with copper and iron. Both competitive and non-competitive methods at various physiologically relevant pH levels ranging from 4.5 to 7.5 were tested. Only 2,3‑dehydrosilybin was found to be a potent or moderately active iron and copper chelator. Silybin A, silybin B and silychristin A were less potent or inactive chelators. Both 2,3‑dehydrosilybin enantiomers (A and B) were equally active iron and copper chelators, and the preferred stoichiometries were mainly 2:1 and 3:1 (2,3‑dehydrosilybin:metal). Additional experiments showed that silychristin was the most potent iron and copper reductant. Comparison with their structural precursors taxifolin and quercetin is included as well. Based on these results, silymarin administration most probably affects the kinetics of copper and iron in the gastrointestinal tract, however, due to the different interactions of individual components of silymarin with these transition metals, the biological effects need to be evaluated in the future in a much more complex study., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

15. A simple, cheap but reliable method for evaluation of zinc chelating properties.

Author

Catapano MC, Tvrdý V, Karlíčková J, Mercolini L, and Mladěnka P

Subjects

Dose-Response Relationship, Drug, Molecular Structure, Structure-Activity Relationship, Chelating Agents chemistry, Edetic Acid chemistry, Ethylenediamines chemistry, Zinc chemistry

Abstract

Background: Zinc is an essential trace element. Both its lack and excess are associated with pathological states. The former is more common and can ensue from the excessive treatment with clinically used iron/copper chelators., Aim and Method: The aim of this work was to prepare a reliable, rapid and cheap method for the screening of zinc chelation. Spectrophotometric assessment using a known zinc indicator dithizone was selected., Results: Initial screening performed by comparison of spectra of dithizone and its complex with zinc suggested 530 and 570 nm as suitable wavelengths for determination of zinc at pH 4.5 while 540 and 590 nm for pH 5.5-7.5. Additional research showed the lower wavelengths to be more suitable. The sensitivity of the method was always bellow 1 μM with good linearity relationship between absorbance and zinc concentration. The method suitability was confirmed by use of two known zinc chelators, ethylenediaminetetraacetic acid (EDTA) and N,N,N',N'-tetrakis(2-pyridylmethyl)-1,2-ethylenediamine (TPEN)., Conclusion: This method represents a sufficiently precise method for zinc chelation screening usable at pathophysiologically relevant pH conditions. Such method can be employed for both screening of novel zinc chelators and for testing affinity of other metal chelators for zinc., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

16. Mono and dihydroxy coumarin derivatives: Copper chelation and reduction ability.

Author

Catapano MC, Karlíčková J, Tvrdý V, Sharma S, Prasad AK, Saso L, Chhillar AK, Kuneš J, Pour M, Parmar VS, and Mladěnka P

Subjects

Hydrogen-Ion Concentration, Oxidation-Reduction, Spectrometry, Fluorescence methods, Stereoisomerism, Structure-Activity Relationship, Chelating Agents chemistry, Copper analysis, Coumarins chemistry, Fluorescent Dyes chemistry

Abstract

Due to the limited array of the currently available copper chelators, research of such compounds continues to be of clinical interest. Notably, o-dihydroxycoumarins have been previously shown to be potent iron chelators under neutral conditions. Within this study, the interaction of a series of natural coumarins and their synthetic analogs with copper has been evaluated in order to obtain structure-activity relationships under different pathophysiological pH conditions. Both competitive and non-competitive methods have been employed. Analysis of cupric ion reduction has also been performed. Under mildly competitive conditions, cupric chelation was observed for o-dihydroxycoumarins, and partially for o-diacetoxycoumarin. Non-competitive studies showed that cuprous ions are not chelated at all and that the stoichiometries of the most active 6,7- and 7,8-dihydroxycoumarins to cupric ions ranged from 1:1 to 2:1 depending on pH and concentration. Interestingly, under highly competitive conditions, coumarins were not capable of chelating cupric ions, either. Reduction experiments have shown that 13 out of the 15 coumarins included in this study reduced cupric ions. However, significant differences depending on their structures were apparent in their potencies. O-dihydroxycoumarins were the most potent ones again., Conclusion: O-dihydroxycoumarins are moderately active cupric ion chelators with potent copper reducing properties., (Copyright © 2017 Elsevier GmbH. All rights reserved.)

Published

2018

17. The Stoichiometry of Isoquercitrin Complex with Iron or Copper Is Highly Dependent on Experimental Conditions.

Author

Catapano MC, Tvrdý V, Karlíčková J, Migkos T, Valentová K, Křen V, and Mladěnka P

Subjects

Chelating Agents chemistry, Flavonoids chemistry, Hydrogen-Ion Concentration, Quercetin chemistry, Copper chemistry, Iron chemistry, Quercetin analogs & derivatives

Abstract

Interaction of flavonoids with transition metals can be partially responsible for their impact on humans. Stoichiometry of the iron/copper complex with a flavonoid glycoside isoquercitrin, a frequent component of food supplements, was assessed using competitive and non-competitive methods in four (patho)physiologically-relevant pH values (4.5. 5.5, 6.8, and 7.5). Isoquercitrin chelated all tested ions (Fe 2+ , Fe 3+ , Cu 2+ , and Cu⁺) but its affinity for Cu⁺ ions proved to be very low. In general, the chelation potency dropped with pH lowering. Metal complexes of 1:1 stoichiometry were mostly formed, however, they were not stable and the stoichiometry changed depending on conditions. Isoquercitrin was able to reduce both Cu 2+ and Fe 3+ ions at low ratios, but its reducing potential was diminished at higher ratios (isoquercitrin to metal) due to the metal chelation. In conclusion, this study emphasizes the need of using multiple different methods for the assessment of chelation potential in moderately-active metal chelators, like flavonoids., Competing Interests: The authors declare no conflict of interest.

Published

2017