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5. Pentapeptides containing two dehydrophenylalanine residues--synthesis, structural studies and evaluation of their activity towards cathepsin C

Author

Latajka, R., Jewginski, M., Makowski, M., Paweiczak, M., Huber, T., Sewald, Norbert, and Kafarski, P.

Subjects
conformation, Models, Molecular, dehydropeptide, Magnetic Resonance Spectroscopy, Phenylalanine, Protease Inhibitors, inhibitors of cathepsin C, Binding, Competitive, Oligopeptides, Cathepsin C, Protein Structure, Secondary, Substrate Specificity
Abstract

Synthesis, structural and biological studies of pentapeptides containing two Delta Phe residues (Z and E isomers) in position 2 and 4 in peptide chain were performed. All the investigated peptides adopted bent conformation and majority of them could exist as two different. conformers in solution. Only pentapeptides. containing free N-termini appeared to act as weak inhibitors of cathepsin C with the slow-binding, competitive mechanism of inhibition. free acids being bound slightly better than their methyl esters. Results of Molecular modeling suggested significant difference between peptides, depending of the type of amino acid residue in position 5 in peptide chain. Dehydropeptides containing GIN, residue in this position may act as competitive slow-reacting substrates and therefore exhibit inhibitory-like properties. Copyright (C) 2008 European Peptide Society and John Wiley & Sons, Ltd.

Published
2008

11. Al(iii)-binding properties of iminodiacetic acid, nitrilotriacetic acid and their mixed carboxylic–phosphonic derivatives

Author

Kilyén, M., Lakatos, A., Latajka, R., Labádi, I., Salifoglou, A., Raptopoulou, C. P., and Kozlowski, H.

Abstract

Potentiometric, 1H, 31P NMR spectroscopic and X-ray studies were carried out to investigate the complex formation of Al(iii) with iminodiacetic acid (IDA), nitrilotriacetic acid (NTA), their mixed carboxylic–phosphonic and purely phosphonic derivatives. The stability constants of the complexes formed were determined at 25 °C and at 0.2 mol dm−3 ionic strength (KCl). It was found that substitution of CO2 by PO32− increases the overall stability of the complexes, due to the higher basicity of the phosphonic groups. However, the higher spatial requirement of the phosphonic moiety and the greater electrostatic repulsion between the dinegatively charged PO32− moieties overcompensate this effect, resulting in a somewhat weaker metal binding capacity for the phosphonic derivatives. According to the 1H NMR spectra of Al(iii) complexes of IDA, complex formation renders the two protons of each CH2 group inequivalent, while the CH2 groups of NTA and its derivatives remain chemically and magnetically equivalent in their Al(iii) complexes. As no symmetrical arrangements of the donor atoms in their Al(iii) complexes can be expected with most of the ligands, the rate of intramolecular rearrangement motions of the binding functional groups seems to be different for the IDA and the NTA derivatives.

Published
2002

18. Design, synthesis, conformational analysis, and biological activity of Cα 1 -to-Cα 6 1,4- and 4,1-disubstituted 1 H -[1,2,3]triazol-1-yl-bridged oxytocin analogues.

Author

Nuti F, Larregola M, Staśkiewicz A, Retzl B, Tomašević N, Macchia L, Street ME, Jewgiński M, Lequin O, Latajka R, Rovero P, Gruber CW, Chorev M, and Papini AM

Subjects
Azides, Catalysis, Disulfides, Oxytocin pharmacology, Alkynes
Abstract

Oxytocin (OT) is a neurohypophyseal peptide hormone containing a disulphide-bridged pseudocyclic conformation. The biomedical use of OT peptides is limited amongst others by disadvantageous pharmacokinetic parameters. To increase the stability of OT by replacing the disulphide bridge with the stable and more rigid [1,2,3]triazol-1-yl moiety, we employed the Cu 2+ -catalysed side chain-to-side chain azide-alkyne 1,3-cycloaddition. Here we report the design, synthesis, conformational analysis, and in vitro pharmacological activity of a homologous series of Cα 1 -to-Cα 6 side chain-to-side chain [1,2,3]triazol-1-yl-containing OT analogues differing in the length of the bridge, location, and orientation of the linking moiety. Exploiting this macrocyclisation approach, it was possible to generate a systematic series of compounds providing interesting insight into the structure-conformation-function relationship of OT. Most analogues were able to adopt similar conformation to endogenous OT in water, namely, a type I β-turn. This approach may in the future generate stabilised pharmacological peptide tools to advance understanding of OT physiology.

Published
2023
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19. Tripeptides conjugated with thiosemicarbazones: new inhibitors of tyrosinase for cosmeceutical use.

Author

Ledwoń P, Goldeman W, Hałdys K, Jewgiński M, Calamai G, Rossowska J, Papini AM, Rovero P, and Latajka R

Subjects
Animals, Mice, Monophenol Monooxygenase, Enzyme Inhibitors pharmacology, Enzyme Inhibitors chemistry, Melanins, Cosmeceuticals, Thiosemicarbazones pharmacology, Thiosemicarbazones chemistry, Agaricales
Abstract

The development of skin-care products is recently growing. Cosmetic formulas containing active ingredients with proven efficacy, namely cosmeceuticals, are based on various compounds, including peptides. Different whitening agents featuring anti-tyrosinase activity have been applied in the cosmeceutical field. Despite their availability, their applicability is often limited due to several drawbacks including toxicity, lack of stability, and other factors. In this work, we present the inhibitory effect on diphenolase activity of thiosemicarbazone (TSC)-peptide conjugates. Tripeptides FFY, FWY, and FYY were conjugated with three TSCs bearing one or two aromatic rings via amide bond formation in a solid phase. Compounds were then examined as tyrosinase and melanogenesis inhibitors in murine melanoma B16F0 cell line, followed by the cytotoxicity assays of these cells. In silico investigations explained the differences in the activity, observed among tested compounds. Mushroom tyrosinase was inhibited by TSC 1 -conjugates at micromolar level, with IC 50 lower than this for kojic acid, a widely used reference compound. Up to now, this is the first report regarding thiosemicarbazones conjugated with tripeptides, synthesised for the purpose of tyrosinase inhibition.

Published
2023
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20. Role of Helical Structure in MBP Immunodominant Peptides for Efficient IgM Antibody Recognition in Multiple Sclerosis.

Author

Staśkiewicz A, Quagliata M, Real-Fernandez F, Nuti F, Lanzillo R, Brescia-Morra V, Rusche H, Jewginski M, Carotenuto A, Brancaccio D, Aharoni R, Arnon R, Rovero P, Latajka R, and Papini AM

Abstract

The involvement of Myelin Basic Protein (MBP) in Multiple Sclerosis (MS) has been widely discussed in the literature. This intrinsically disordered protein has an interesting α-helix motif, which can be considered as a conformational epitope. In this work we investigate the importance of the helical structure in antibody recognition by MBP peptides of different lengths. Firstly, we synthesized the peptide MBP (81-106) (1) and observed that its elongation at both N- and C-termini, to obtain the peptide MBP (76-116) (2) improves IgM antibody recognition in SP-ELISA, but destabilizes the helical structure. Conversely, in competitive ELISA, MBP (81-106) (1) is recognized more efficiently by IgM antibodies than MBP (76-116) (2), possibly thanks to its more stable helical structure observed in CD and NMR conformational experiments. These results are discussed in terms of different performances of peptide antigens in the two ELISA formats tested., Competing Interests: Author HR is employed by Fischer Analytics GmbH. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Staśkiewicz, Quagliata, Real-Fernandez, Nuti, Lanzillo, Brescia-Morra, Rusche, Jewginski, Carotenuto, Brancaccio, Aharoni, Arnon, Rovero, Latajka and Papini.)

Published
2022
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21. Synthesis of Hybrid Tripeptide Peptidomimetics Containing Dehydroamino Acid and Aminophosphonic Acid in the Chain and Evaluation of Their Activity toward Cathepsin C.

Author

Jewgiński MP, Makowski M, Pawełczak M, Goldeman W, Trojanowska-Laskowska A, Kafarski P, and Latajka R

Subjects
Cathepsin C metabolism, Molecular Conformation, Peptides chemistry, Peptidomimetics pharmacology
Abstract

Synthesis of a new group of hybrid phosphonodehydropeptides composed of glycyl-(Z)-dehydrophenylalanine and structurally variable aminophosphonates alongside with investigations of their activity towards cathepsin C are presented. Obtained results suggest that the introduction of (Z)-dehydrophenylalanine residue into the short phosphonopeptide chain does induce the ordered conformation. Investigated peptides appeared to act as weak or moderate inhibitors of cathepsin C., (© 2022 Wiley-VHCA AG, Zurich, Switzerland.)

Published
2022
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22. Peptide stapling by late-stage Suzuki-Miyaura cross-coupling.

Author

Gruß H, Feiner RC, Mseya R, Schröder DC, Jewgiński M, Müller KM, Latajka R, Marion A, and Sewald N

Abstract

The development of peptide stapling techniques to stabilise α-helical secondary structure motifs of peptides led to the design of modulators of protein-protein interactions, which had been considered undruggable for a long time. We disclose a novel approach towards peptide stapling utilising macrocyclisation by late-stage Suzuki-Miyaura cross-coupling of bromotryptophan-containing peptides of the catenin-binding domain of axin. Optimisation of the linker length in order to find a compromise between both sufficient linker rigidity and flexibility resulted in a peptide with an increased α-helicity and enhanced binding affinity to its native binding partner β-catenin. An increased proteolytic stability against proteinase K has been demonstrated., (Copyright © 2022, Gruß et al.)

Published
2022
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23. Peptides and Peptidomimetics as Inhibitors of Enzymes Involved in Fibrillar Collagen Degradation.

Author

Ledwoń P, Papini AM, Rovero P, and Latajka R

Abstract

Collagen fibres degradation is a complex process involving a variety of enzymes. Fibrillar collagens, namely type I, II, and III, are the most widely spread collagens in human body, e.g., they are responsible for tissue fibrillar structure and skin elasticity. Nevertheless, the hyperactivity of fibrotic process and collagen accumulation results with joints, bone, heart, lungs, kidneys or liver fibroses. Per contra, dysfunctional collagen turnover and its increased degradation leads to wound healing disruption, skin photoaging, and loss of firmness and elasticity. In this review we described the main enzymes participating in collagen degradation pathway, paying particular attention to enzymes degrading fibrillar collagen. Therefore, collagenases (MMP-1, -8, and -13), elastases, and cathepsins, together with their peptide and peptidomimetic inhibitors, are reviewed. This information, related to the design and synthesis of new inhibitors based on peptide structure, can be relevant for future research in the fields of chemistry, biology, medicine, and cosmeceuticals.

Published
2021
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24. Triazole-Modified Peptidomimetics: An Opportunity for Drug Discovery and Development.

Author

Staśkiewicz A, Ledwoń P, Rovero P, Papini AM, and Latajka R

Abstract

Peptidomimetics play a fundamental role in drug design due to their preferential properties regarding natural peptides. In particular, compounds possessing nitrogen-containing heterocycles have been intensively studied in recent years. The triazolyl moiety incorporation decreases the molecule susceptibility to enzymatic degradation, reduction, hydrolysis, and oxidation. In fact, peptides containing triazole rings are a typical example of peptidomimetics. They have all the advantages over classic peptides. Both efficient synthetic methods and biological activity make these systems an interesting and promising object of research. Peptide triazole derivatives display a diversity of biological properties and can be obtained via numerous synthetic strategies. In this review, we have highlighted the importance of the triazole-modified peptidomimetics in the field of drug design. We present an overview on new achievements in triazolyl-containing peptidomimetics synthesis and their biological activity as inhibitors of enzymes or against cancer, viruses, bacteria, or fungi. The relevance of above-mentioned compounds was confirmed by their comparison with unmodified peptides., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Staśkiewicz, Ledwoń, Rovero, Papini and Latajka.)

Published
2021
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25. Phosphinotripeptidic Inhibitors of Leucylaminopeptidases.

Author

Jewgiński M, Haremza K, de Los Santos JM, Es Sbai Z, Oszywa B, Pawełczak M, Palacios F, and Latajka R

Subjects
Animals, Enzyme Inhibitors chemistry, Models, Molecular, Peptide Fragments chemistry, Protein Conformation, Swine, Enzyme Inhibitors pharmacology, Leucyl Aminopeptidase antagonists & inhibitors, Peptide Fragments pharmacology, Phosphines chemistry
Abstract

Phosphinate pseudopeptide are analogs of peptides containing phosphinate moiety in a place of the amide bond. Due to this, the organophosphorus fragment resembles the tetrahedral transition state of the amide bond hydrolysis. Additionally, it is also capable of coordinating metal ions, for example, zinc or magnesium ions. These two properties of phosphinate pseudopeptides make them an ideal candidate for metal-related protease inhibitors. This research investigates the influence of additional residue in the P2 position on the inhibitory properties of phosphinopeptides. The synthetic strategy is proposed, based on retrosynthetic analysis. The N-C-P bond formation in the desired compounds is conveniently available from the three-component condensation of appropriate amino components, aldehydes, and hypophosphorous acid. One of the crucial synthetic steps is the careful selection of the protecting groups for all the functionals. Determination of the inhibitor activity of the obtained compounds has been done using UV-Vis spectroscopy and standard substrate L -Leu- p -nitroanilide toward the enzymes isolated from the porcine kidney (SsLAP, Sus scrofa Leucine aminopeptidase) and barley seeds (HvLAP, Hordeum vulgare Leucine aminopeptidase). An efficient procedure for the preparation of phosphinotripeptides has been performed. Activity test shown that introduction of additional residue into P2 position obtains the micromolar range inhibitors of SsLAP and HvLAP. Moreover, careful selection of the residue in the P2 position should improve its selectivity toward mammalian and plant leucyl aminopeptidases.

Published
2021
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26. Peptides as Active Ingredients: A Challenge for Cosmeceutical Industry.

Author

Ledwoń P, Errante F, Papini AM, Rovero P, and Latajka R

Subjects
Animals, Biological Availability, Cosmeceuticals administration & dosage, Cosmeceuticals pharmacology, Cosmetics pharmacokinetics, Cosmetics pharmacology, Humans, Peptides administration & dosage, Peptides pharmacology, Skin drug effects, Skin metabolism, Skin ultrastructure, Skin Absorption drug effects, Cosmeceuticals pharmacokinetics, Drug Delivery Systems methods, Peptides pharmacokinetics
Abstract

Cosmeceutical field, which merges cosmetics and pharmaceuticals, is nowadays a highly investigated research area, because a scientific demonstration of the claimed bioactivity of new cosmeceutical ingredients is increasingly requested. In fact, an aspect differentiating traditional cosmetics from cosmeceuticals is the identification and characterization of the active ingredients and demonstrating its efficacy in the claimed activity. An interesting group of bioactive cosmeceutical ingredients are peptides, which due to their particular properties, meets most of the requirements presented by the cosmeceutical industry when composing new formulas. In this context, beside bioactivity, two additional aspects have been recently considered, when dealing with peptides as cosmeceutical ingredients: bioavailability and stability. We describe herein novel methods applied in order to enhance peptides skin-penetration and stability, reviewing both scientific articles and patents, issued in the cosmeceutical arena., (© 2020 Wiley-VHCA AG, Zurich, Switzerland.)

Published
2021
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27. Monosubstituted Acetophenone Thiosemicarbazones as Potent Inhibitors of Tyrosinase: Synthesis, Inhibitory Studies, and Molecular Docking.

Author

Hałdys K, Goldeman W, Anger-Góra N, Rossowska J, and Latajka R

Abstract

A set of 12 monosubstituted acetophenone thiosemicarbazone derivatives (TSCs) were synthesized and their inhibitory properties toward tyrosinase activity were tested. Moreover, their ability to inhibit melanogenesis in the B16F10 murine melanoma cell line was studied. In order to investigate the nature of interactions between the enzyme and the inhibitors, molecular docking to the active site was performed. TSCs 5, 6, 8, and 9 revealed a half maximal inhibitory concentration (IC 50 ) below 1 µM. Compound 6 turned out to be the most potent tyrosinase inhibitor. All investigated compounds showed reversible inhibition of competitive or mixed type. The para -substituted TSCs had higher affinity for the enzyme as compared to their ortho - and meta -analogues. All investigated compounds inhibited melanin production in B16F10 cells at the micromolar level. Molecular docking showed that the sulfur atom of the thiourea moiety penetrates the active site and interacts with copper ions. The above outcomes might be helpful in the design of new tyrosinase inhibitors in the food and cosmetic industries.

Published
2021
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28. Cosmeceutical Peptides in the Framework of Sustainable Wellness Economy.

Author

Errante F, Ledwoń P, Latajka R, Rovero P, and Papini AM

Abstract

Among the many aspects that contribute to the wellness of each individual, healthy and younger-looking skin play a relevant role, as clearly shown by the important growth of the skin-care products market observed in recent years. In this scenario, the field of cosmeceuticals appears particularly promising, being based on cosmetic products containing active ingredients. Among these, several peptides were proposed for cosmeceutical applications, thanks to their specific interaction with biological targets. In this mini-review, we report some of the most investigated and used peptides for cosmetic formulations, taking into account that cosmeceutical peptides are basically divided into three main categories (i.e., neurotransmitter inhibitors, carriers, and signal peptides). Special attention was payed to the scientific studies supporting the claimed biological activity of these peptides, as a fundamental aspect that should underpin the growth of this field in the framework of a sustainable wellness economy., (Copyright © 2020 Errante, Ledwoń, Latajka, Rovero and Papini.)

Published
2020
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29. Halogenated aromatic thiosemicarbazones as potent inhibitors of tyrosinase and melanogenesis.

Author

Hałdys K, Goldeman W, Jewgiński M, Wolińska E, Anger-Góra N, Rossowska J, and Latajka R

Subjects
Enzyme Inhibitors pharmacology, Humans, Melanins biosynthesis, Molecular Structure, Structure-Activity Relationship, Thiosemicarbazones pharmacology, Enzyme Inhibitors therapeutic use, Melanins antagonists & inhibitors, Molecular Docking Simulation methods, Monophenol Monooxygenase drug effects, Thiosemicarbazones therapeutic use
Abstract

A set of 21 halogenated thiosemicarbazones (TSCs) have been synthesized and its inhibitory properties toward activity diphenolase of mushroom tyrosinase and their ability to inhibition of melanogenesis in B16F10 murine, melanoma cell line have been investigated. The molecular docking to the active site of the enzyme has been also performed to investigate the nature of enzyme-inhibitor interactions. The obtained outcomes allowed us to perform SAR analysis. TSC 6, 12 and 21 exhibited the most potent inhibitory properties showing IC 50 of 0.5, 0.9 and 0.8 µM, respectively. They revealed reversible and competitive manner of tyrosinase inhibition. According to SAR analysis, para-substituted acetophenone derivatives of thiosemicarbazones have the highest affinity to the enzyme among the investigated compounds. Melanin production in B16F10 cells was inhibited by all investigated compounds at the micromolar level. Suggested inhibition mechanism is based on the interaction between a sulfur atom of thiourea moiety of the thiosemicarbazones, and copper ions in the active site of the enzyme. These results might be useful in searching novel inhibitors of melanogenesis which could be used in the cosmetic and food industry., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2020
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30. Synthesis and conformational preferences of short analogues of antifreeze glycopeptides (AFGP).

Author

Urbańczyk M, Jewgiński M, Krzciuk-Gula J, Góra J, Latajka R, and Sewald N

Abstract

Antifreeze glycoproteins are a class of biological agents which enable living at temperatures below the freezing point of the body fluids. Antifreeze glycopeptides usually consist of repeating tripeptide unit (-Ala-Ala-Thr*-), glycosylated at the threonine side chain. However, on the microscopic level, the mechanism of action of these compounds remains unclear. As previous research has shown, antifreeze activity of antifreeze glycopeptides strongly relies on the overall conformation of the molecule as well an on the stereochemistry of amino acid residues. The desired monoglycosylated analogues with acetylated amino termini and the carboxy termini in form of N -methylamide have been synthesized. Conformational nuclear magnetic resonance (NMR) studies of the designed analogues have shown a strong influence of the stereochemistry of amino acid residues on the peptide chain stability, which could be connected to the antifreeze activity of these compounds. A better understanding of the mechanism of action of antifreeze glycopeptides would allow applying these materials, e.g., in food industry and biomedicine.

Published
2019
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31. Phosphonic and Phosphinic Acid Derivatives as Novel Tyrosinase Inhibitors: Kinetic Studies and Molecular Docking.

Author

Wolińska E, Hałdys K, Góra J, Olszewski TK, Boduszek B, and Latajka R

Subjects
Agaricus enzymology, Dose-Response Relationship, Drug, Enzyme Inhibitors chemistry, Enzyme Inhibitors isolation & purification, Kinetics, Molecular Structure, Monophenol Monooxygenase metabolism, Phosphinic Acids chemistry, Phosphinic Acids isolation & purification, Phosphorous Acids chemistry, Phosphorous Acids isolation & purification, Structure-Activity Relationship, Enzyme Inhibitors pharmacology, Molecular Docking Simulation, Monophenol Monooxygenase antagonists & inhibitors, Phosphinic Acids pharmacology, Phosphorous Acids pharmacology
Abstract

A dozen of phosphonic and phosphinic acid derivatives containing pyridine moiety were synthesized and its inhibitory activity toward mushroom tyrosinase was investigated. Moreover, molecular docking of these compounds to the active site of the enzyme was performed. All the compounds (1-10) demonstrated the inhibitory effect with the IC 50 and inhibition constants ranging millimolar concentrations. The obtained results indicate that the compounds show different types of inhibition (competitive, noncompetitive, mixed), but all of them are reversible inhibitors. The obtained outcomes allowed to make the structure-activity relationship (SAR) analysis. Compound 4 ([(benzylamino)(pyridin-2-yl)methyl]phenylphosphinic acid) revealed the lowest IC 50 value of 0.3 mm and inhibitory constant of K i 0.076 mm, with noncompetitive type and reversible mechanism of inhibition. According to SAR analysis, introducing bulky phenyl moieties to phosphonic and amino groups plays an important role in the inhibitory potency on activity of mushroom tyrosinase and could be useful in design and development of a new class of potent organophosphorus inhibitors of tyrosinase. Combined results of molecular docking and SAR analysis can be helpful in designing novel tyrosinase inhibitors of desired properties. They may have broad application in food industry and cosmetology., (© 2019 Wiley-VHCA AG, Zurich, Switzerland.)

Published
2019
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32. 1,4-Disubstituted 1 H -1,2,3-Triazole Containing Peptidotriazolamers: A New Class of Peptidomimetics With Interesting Foldamer Properties.

Author

Schröder DC, Kracker O, Fröhr T, Góra J, Jewginski M, Nieß A, Antes I, Latajka R, Marion A, and Sewald N

Abstract

Peptidotriazolamers are hybrid foldamers with features of peptides and triazolamers, containing alternation of amide bonds and 1,4-disubstituted 1 H -1,2,3-triazoles with conservation of the amino acid side chains. We report on the synthesis of a new class of peptidomimetics, containing 1,4-disubstituted 1 H -1,2,3-triazoles in alternation with amide bonds and the elucidation of their conformational properties in solution. Based on enantiomerically pure propargylamines bearing the stereogenic center in the propargylic position and α-azido esters, building blocks were obtained by copper-catalyzed azide-alkyne cycloaddition. With these building blocks the peptidotriazolamers were readily available by solution phase synthesis. A panel of homo- and heterochiral tetramers, hexamers, and heptamers was synthesized and the heptamer Boc-Ala-Val-Ψ[4Tz]Phe-LeuΨ[4Tz]Phe-LeuΨ[4Tz]Val-OAll as well as an heterochiral and a Gly-containing equivalent were structurally characterized by NMR-based molecular dynamics simulations using a specifically tailored force field to determine their conformational and solvation properties. All three variants adopt a compact folded conformation in DMSO as well as in water. In addition to the heptamers we predicted the conformational behavior of similar longer oligomers i.e., Boc-Ala-(AlaΨ[4Tz]Ala) 6 -OAll as well as Boc-Ala-(d-AlaΨ[4Tz]Ala) 6 -OAll and Boc-Ala-(GlyΨ[4Tz]Ala) 6 -OAll. Our calculations predict a clear secondary structure of the first two molecules in DMSO that collapses in water due to the hydrophobic character of the side chains. The homochiral compound folds into a regular helical structure and the heterochiral one shows a twisted "S"-shape, while the Gly variant exhibits no clear secondary structure.

Published
2019
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33. Thiosemicarbazones with tyrosinase inhibitory activity.

Author

Hałdys K and Latajka R

Abstract

Tyrosinase plays an essential role in melanogenesis. Excess production of melanin can be a reason for hyperpigmentation skin disorders in mammals and enzymatic browning in plant-derived foods. Catalyzing the rate-limiting step of melanin synthesis, tyrosinase has become the most studied target for melanogenesis inhibition. Over the past ten years, a number of synthetic thiosemicarbazone derivatives have been reported to possess strong tyrosinase inhibitory properties with IC 50 values below 1 μM, placing them among the most potent tyrosinase inhibitors. This review gives an overview of tyrosinase activity and describes tyrosinase-inhibiting thiosemicarbazones in terms of their structure-activity relationships, kinetics of enzyme inhibition and mechanism of action. Results of the studies of thiosemicarbazones as tyrosinase inhibitors from over 20 research articles have been analyzed, compared and summarized in the present paper. Using thiosemicarbazones as tyrosinase inhibitors is a promising approach in developing anti-melanogenetic agents for skin-whitening cosmetics and anti-browning agents for food.

Published
2019
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34. Amber-Compatible Parametrization Procedure for Peptide-like Compounds: Application to 1,4- and 1,5-Substituted Triazole-Based Peptidomimetics.

Author

Marion A, Góra J, Kracker O, Fröhr T, Latajka R, Sewald N, and Antes I

Subjects
Algorithms, Click Chemistry, Magnetic Resonance Spectroscopy, Molecular Dynamics Simulation, Polymers chemistry, Peptides chemistry, Peptidomimetics, Triazoles chemistry
Abstract

Peptidomimetics are molecules of particular interest in the context of drug design and development. They are proteolytically and metabolically more stable than their natural peptide counterparts but still offer high specificity toward their biological targets. In recent years, 1,4- and 1,5-disubstituted 1,2,3-triazole-based peptidomimetics have emerged as promising lead compounds for the design of various inhibitory and tumor-targeting molecules as well as for the synthesis of peptide analogues. The growing popularity of triazole-based peptidomimetics and a constantly broadening range of their application generated a demand for elaborate theoretical investigations by classical molecular dynamics simulations and molecular docking. Despite this rising interest, accurate and coherent force field parameters for triazole-based peptidomimetics are still lacking. Here, we report the first complete set of parameters dedicated to this group of compounds, named TZLff. This parametrization is compatible with the latest version of the AMBER force field (ff14SB) and can be readily applied for the modeling of pure triazole-based peptidomimetics as well as natural peptide sequences containing one or more triazole-based modifications in their backbone. The parameters were optimized to reproduce HF/6-31G* electrostatic potentials as well as MP2/cc-pVTZ equilibrium Hessian matrices and conformational potential energy surfaces through the use of a genetic algorithm-based search and least-squares fitting. Following the standards of AMBER, we introduce residue building units, thus allowing the user to define any given sequence of triazole-based peptidomimetics. Validation of the parameter set against ab initio- and NMR-based reference systems shows that we obtain fairly accurate results, which properly capture the conformational features of triazole-based peptidomimetics. The successful and efficient parametrization strategy developed in this work is general enough to be applied in a straightforward manner for parametrization of other peptidomimetics and, potentially, any polymeric assemblies.

Published
2018
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35. 1,5-Disubstituted 1,2,3-Triazole-Containing Peptidotriazolamers: Design Principles for a Class of Versatile Peptidomimetics.

Author

Kracker O, Góra J, Krzciuk-Gula J, Marion A, Neumann B, Stammler HG, Nieß A, Antes I, Latajka R, and Sewald N

Abstract

Peptidotriazolamers are hybrid foldamers combining features of peptides and triazolamers-repetitive peptidomimetic structures with triazoles replacing peptide bonds. We report on the synthesis of a new class of peptidomimetics, containing 1,5-disubstituted 1,2,3-triazoles in an alternating fashion with amide bonds and the analysis of their conformation in solid state and solution. Homo- or heterochiral peptidotriazolamers were obtained from enantiomerically pure propargylamines with stereogenic centers in the propargylic position and α-azido esters by ruthenium-catalyzed azide-alkyne cycloaddition (RuAAC) under microwave conditions in high yields. With such building blocks the peptidotriazolamers are readily available by solution phase synthesis. While the conformation of the homochiral peptidotriazolamer Boc-Ala[5Tz]Phe-Val[5Tz]Ala-Leu[5Tz]Val-OBzl resembles that of a β VIa1 turn, the heterochiral peptidotriazolamer Boc-d-Ala[5Tz]Phe-d-Val[5Tz]Ala-d-Leu[5Tz]Val-OBzl adopts a polyproline-like repetitive structure., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2018
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36. Addition of thiols to the double bond of dipeptide C-terminal dehydroalanine as a source of new inhibitors of cathepsin C.

Author

Lenartowicz P, Makowski M, Oszywa B, Haremza K, Latajka R, Pawełczak M, and Kafarski P

Subjects
Alanine chemistry, Animals, Binding Sites, Cattle, Cysteine Proteinase Inhibitors chemistry, Dipeptides chemistry, Kinetics, Models, Molecular, Structure-Activity Relationship, Substrate Specificity, Alanine analogs & derivatives, Cathepsin C antagonists & inhibitors, Cysteine Proteinase Inhibitors pharmacology, Dipeptides pharmacology, Sulfhydryl Compounds chemistry
Abstract

Addition of thiols to double bond of glycyl-dehydroalanine and phenyl-dehydroalanine esters provided micromolar inhibitors of cathepsin C. The structure-activity studies indicated that dipeptides containing N-terminal phenylalanine exhibit higher affinity towards the enzyme. A series of C-terminal S-substituted cysteines are responsible for varying interaction with S1 binding pocket of cathepsin C. Depending on diastereomer these compounds most likely act as slowly reacting substrates or competitive inhibitors. This was proved by TLC analysis of the medium in which interaction of methyl (S)-phenylalanyl-(R,S)-(S-adamantyl)cysteinate (7i) with the enzyme was studied. Molecular modeling enabled to establish their mode of binding showed that S2 pocket is long and narrow and accommodates phenyl group of phenylalanine while significantly spacious sites located at the surface of the enzyme (one of them being S1 pocket) bind the adamantyl moiety oriented in different direction for each stereoisomer. Finally replacement of carboxymethyl moiety of methyl (S)-phenylalanyl-(R,S)-(S-phenyl)cysteinate (7c) with nitrile group provided about 650-times more potent inhibitor of cathepsin C indicating that the studied C-terminal S-substituted cysteines are good activity probes for S1 binding pocket of this enzyme., (Copyright © 2017 Elsevier B.V. and Société Française de Biochimie et Biologie Moléculaire (SFBBM). All rights reserved.)

Published
2017
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38. Antifreeze glycopeptides: from structure and activity studies to current approaches in chemical synthesis.

Author

Urbańczyk M, Góra J, Latajka R, and Sewald N

Subjects
Animals, Antarctic Regions, Antifreeze Proteins chemical synthesis, Arctic Regions, Chemistry Techniques, Synthetic, Fishes, Glycosylation, Magnetic Resonance Spectroscopy, Protein Conformation, Structure-Activity Relationship, Antifreeze Proteins chemistry, Antifreeze Proteins metabolism
Abstract

Antifreeze glycopeptides (AFGPs) are a class of biological antifreeze agents found predominantly in Arctic and Antarctic species of fish. They possess the ability to regulate ice nucleation and ice crystal growth, thus creating viable life conditions at temperatures below the freezing point of body fluids. AFGPs usually consist of 4-55 repetitions of the tripeptide unit Ala-Ala-Thr that is O-glycosylated at the threonine side chains with β-D-galactosyl-(1 → 3)-α-N-acetyl-D-galactosamine. Due to their interesting properties and high antifreeze activity, they have many potential applications, e.g., in food industry and medicine. Current research is focused towards understanding the relationship between the structural preferences and the activity of the AFGPs, as well as developing time and cost efficient ways of synthesis of this class of molecules. Recent computational studies in conjunction with experimental results from NMR and THz spectroscopies were a possible breakthrough in understanding the mechanism of action of AFGPs. At the moment, as a result of these findings, the focus of research is shifted towards the analysis of behaviour of the hydration shell around AFGPs and the impact of water-dynamics retardation caused by AFGPs on ice crystal growth. In the field of organic synthesis of AFGP analogues, most of the novel protocols are centered around solid-phase peptide synthesis and multiple efforts are made to optimize this approach. In this review, we present the current state of knowledge regarding the structure and activity of AFGPs, as well as approaches to organic synthesis of these molecules with focus on the most recent developments., Competing Interests: The authors declare that they have no conflict of interest. Ethical approval The article does not contain or refer to any studies with human participants or animals performed by any of the authors.

Published
2017
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39. Location of Varying Hydrophobicity Zinc(II) Phthalocyanine-Type Photosensitizers in Methoxy Poly(ethylene oxide) and Poly(l-lactide) Block Copolymer Micelles Using 1 H NMR and XPS Techniques.

Author

Lamch Ł, Tylus W, Jewgiński M, Latajka R, and Wilk KA

Subjects
Cations, Divalent, Hydrophobic and Hydrophilic Interactions, Isoindoles, Magnetic Resonance Spectroscopy, Micelles, Photochemical Processes, Photoelectron Spectroscopy, Reactive Oxygen Species chemistry, Indoles chemistry, Photosensitizing Agents chemistry, Polyesters chemistry, Polyethylene Glycols chemistry, Zinc chemistry
Abstract

Hydrophobic zinc(II) phthalocyanine-type derivatives, solubilized in polymeric micelles (PMs), provide a befitting group of so-called nanophotosensitizers, suitable for a variety of photodynamic therapy (PDT) protocols. The factors that influence the success of such products in PDT are the location of the active cargo in the PMs and the nanocarrier-enhanced ability to safely interact with biological systems and fulfill their therapeutic functions. Therefore, the aim of this work was to determine the solubilization loci of three phthalocyanines of varying hydrophobicity, i.e., zinc(II) phthalocyanine (ZnPc), along with its tetrasulfonic acid (ZnPc-sulfo 4 ) and perfluorinated (ZnPcF 16 ) derivatives, loaded in polymeric micelles of methoxy poly(ethylene oxide)-b-poly(l-lactide) (mPEG-b-PLLA), by means of 1 H nuclear magnetic resonance (NMR) and X-ray photoelectron spectroscopy (XPS) combined with ion sputtering. Furthermore, the microenvironment influence upon the chemical and physical status of the solubilized cargo in PMs, expressed by photobleaching and reactive oxygen species (ROS) generation comparing to the same properties of native cargoes in solution, was also evaluated and discussed in regards to the probing location data. The studied phthalocyanine-loaded PMs exhibited good physical stability, high drug-loading efficiency, and a size of less than ca. 150 nm with low polydispersity indices. The formation of polymeric micelles and the solubilization locus were investigated by 1 H NMR and XPS. ZnPc localized within the PM core, whereas both ZnPcF 16 and ZnPc-sulfo 4 - in the corona of PMs. We proved that the cargo locus is crucial for the photochemical properties of the studied phthalocyanines; the increase in photostability and ability to generate ROS in micellar solution compared to free photosensitizer was most significant for the photosensitizer in the PM core. Our results indicate the role of the cargo location in the PM microenvironment and demonstrate that such attempts are fundamental for improving the properties of photosensitizers and their assumed efficiency as nanophotosensitizers in PDT.

Published
2016
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40. Involvement of cysteine proteases in cancer.

Author

Góra J and Latajka R

Subjects
Animals, Cathepsins chemistry, Cathepsins metabolism, Humans, Neoplasms drug therapy, Calpain chemistry, Calpain classification, Calpain metabolism, Caspases chemistry, Caspases classification, Caspases metabolism, Cathepsins classification, Neoplasms metabolism
Abstract

The cysteine protease family members play important roles in various pivotal cellular processes. The difficulty in the analysis of the effects of cysteine protease aberrations in cancer comes as a result of the fact that they take part in complex proteolytic pathways. Nevertheless, there is a vast amount of data regarding the involvement of distinct members of this family in divergent types of cancer. Cysteine proteases assist migration and development of the disease, as well as increase the invasiveness of particular kinds of tumors. They are designated as both drug targets, as well as cancer susceptibility biomarkers. This implies that the abnormalities in their activity and expression patterns may be associated with the hallmarks of cancer. This review demonstrates that the influence of cysteine proteases on different mechanisms underlying cancer is undisputable. Thus, they are potent targets for future study and should be recognized as key players in the fight against cancer.

Published
2015
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41. Metabonomic analysis of serum of workers occupationally exposed to arsenic, cadmium and lead for biomarker research: a preliminary study.

Author

Dudka I, Kossowska B, Senhadri H, Latajka R, Hajek J, Andrzejak R, Antonowicz-Juchniewicz J, and Gancarz R

Subjects
Amino Acids blood, Discriminant Analysis, Fatty Acids, Unsaturated blood, Humans, Lipoproteins, LDL blood, Lipoproteins, VLDL blood, Magnetic Resonance Spectroscopy, Male, Principal Component Analysis, Reproducibility of Results, Arsenic toxicity, Biomarkers blood, Cadmium toxicity, Energy Metabolism drug effects, Lead toxicity, Metabolome drug effects, Metabolomics, Occupational Exposure
Abstract

Environmental metabonomics is the application of metabonomics to characterize the interactions of organisms with their environment. Metabolic profiling is an exciting addition to the armory of the epidemiologist for the discovery of new disease risk biomarkers and diagnostics. This work is a continuation of research searching for preclinical serum markers in a group of 389 healthy smelter workers exposed to lead, cadmium and arsenic. Changes in the metabolic profiles were studied using Proton Nuclear Magnetic Resonance Spectroscopy on pooled serum samples from both the metal exposed and control groups. These multivariate metabonomic datasets were analyzed with Principal Component Analysis and Partial Least Squares Discriminant Analysis. Analysis of metabolic profiles of people exposed to heavy metals suggests energy metabolism disturbance induced by heavy metals. Changes in lipid fraction (very-low-density lipoprotein - VLDL, low-density lipoprotein - LDL), unsaturated lipids and in the level of amino acids suggest perturbation of the metabolism of lipids and amino acids. This study illustrated the high reliability of NMR-based metabonomic profiling on the study of the biochemical effects induced by the mixture of heavy metals. This approach is capable of identifying intermediate biomarkers of response to toxicants at environmental/occupational concentrations, paving the way to its use in a monitoring of smelter workers exposed to low doses of lead, cadmium and arsenic., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published
2014
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42. Unnatural amino acids increase activity and specificity of synthetic substrates for human and malarial cathepsin C.

Author

Poreba M, Mihelic M, Krai P, Rajkovic J, Krezel A, Pawelczak M, Klemba M, Turk D, Turk B, Latajka R, and Drag M

Subjects
Amino Acids metabolism, Animals, Cathepsin C metabolism, Cattle, Dipeptides chemical synthesis, Dipeptides metabolism, Humans, Kinetics, Molecular Structure, Plasmodium falciparum chemistry, Protozoan Proteins metabolism, Substrate Specificity, Amino Acids chemistry, Cathepsin C chemistry, Dipeptides chemistry, Plasmodium falciparum enzymology, Protozoan Proteins chemistry
Abstract

Mammalian cathepsin C is primarily responsible for the removal of N-terminal dipeptides and activation of several serine proteases in inflammatory or immune cells, while its malarial parasite ortholog dipeptidyl aminopeptidase 1 plays a crucial role in catabolizing the hemoglobin of its host erythrocyte. In this report, we describe the systematic substrate specificity analysis of three cathepsin C orthologs from Homo sapiens (human), Bos taurus (bovine) and Plasmodium falciparum (malaria parasite). Here, we present a new approach with a tailored fluorogenic substrate library designed and synthesized to probe the S1 and S2 pocket preferences of these enzymes with both natural and a broad range of unnatural amino acids. Our approach identified very efficiently hydrolyzed substrates containing unnatural amino acids, which resulted in the design of significantly better substrates than those previously known. Additionally, in this study significant differences in terms of the structures of optimal substrates for human and malarial orthologs are important from the therapeutic point of view. These data can be also used for the design of specific inhibitors or activity-based probes.

Published
2014
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43. Conformation of dehydropentapeptides containing four achiral amino acid residues - controlling the role of L-valine.

Author

Jewgiński M, Krzciuk-Gula J, Makowski M, Latajka R, and Kafarski P

Abstract

Structural studies of pentapeptides containing an achiral block, built from two dehydroamino acid residues (Δ(Z)Phe and ΔAla) and two glycines, as well as one chiral L-Val residue were performed using NMR spectroscopy. The key role of the L-Val residue in the generation of the secondary structure of peptides is discussed. The obtained results suggest that the strongest influence on the conformation of peptides arises from a valine residue inserted at the C-terminal position. The most ordered conformation was found for peptide Boc-Gly-ΔAla-Gly-Δ(Z)Phe-Val-OMe (3), which adopts a right-handed helical conformation.

Published
2014
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44. Toward engineering efficient peptidomimetics. Screening conformational landscape of two modified dehydroaminoacids.

Author

Buczek A, Makowski M, Jewgiński M, Latajka R, Kupka T, and Broda MA

Subjects
Magnetic Resonance Spectroscopy, Models, Molecular, Peptides chemistry, Solutions, Peptidomimetics, Protein Conformation
Abstract

Effective peptidomimetics should posses structural rigidity and appropriate interaction pattern leading to potential spatial and electronic matching to the target receptor site. Rational design of such small bioactive molecules could push chemical synthesis and molecular modeling toward faster progress in medicinal chemistry. Conformational properties of N-t-butoxycarbonyl-glycine-(E/Z)-dehydrophenylalanine N',N'-dimethylamides (Boc-Gly-(E/Z)-ΔPhe-NMe2 ) in chloroform were studied by NMR and IR spectroscopy. The experimental findings were supported by extensive calculations at DFT(B3LYP, M06-2X) and MP2 levels of theory and the β-turn tendency for both isomers of the studied dipeptide were determined in vacuum and in solution. The theoretical data and experimental IR results were used as an additional information for the NMR-based determination of the detailed solution conformations of the peptides. The obtained results reveal that N-methylation of C-terminal amide group changes dramatically the conformational properties of studied dehydropeptides. Theoretical conformational analysis reveals that the tendency to adopt β-turn conformations is much weaker for the N-methylated Z isomer (Boc-Gly-(Z)-ΔPhe-NMe2 ), both in vacuum and in polar environment. On the contrary, N-methylated E isomer (Boc-Gly-(E)-ΔPhe-NMe2 ) can easily adopt β-turn conformation, but the backbone torsion angles (φ1, ψ1, φ2, ψ2) are off the limits for common β-turn types., (Copyright © 2013 Wiley Periodicals, Inc.)

Published
2014
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45. Effect of the ΔPhe residue configuration on a didehydropeptides conformation: A combined CD and NMR study.

Author

Lisowski M, Jaremko L, Jaremko M, Mazur A, Latajka R, and Makowski M

Subjects
Amino Acid Sequence, Circular Dichroism, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Structure, Solutions, Spectrophotometry, Stereoisomerism, Temperature, Oligopeptides chemistry, Phenylalanine chemistry, Protein Conformation
Abstract

Conformations of two pairs of dehydropeptides with the opposite configuration of the ΔPhe residue, Boc-Gly-Δ(Z)Phe-Gly-Phe-OMe (Z-OMe), Boc-Gly-Δ(E)Phe-Gly-Phe-OMe (E-OMe), Boc-Gly-Δ(Z)Phe-Gly-Phe-p-NA (Z-p-NA), and Boc-Gly-Δ(E)Phe-Gly-Phe-p-NA (E-p-NA) were compared on the basis of CD and NMR studies in MeOH, trifluoroethanol (TFE), MeCN, chloroform, and dimethylsulfoxide (DMSO). The CD results were used as the additional input data for the NMR-based determination of the detailed solution conformations of the peptides. It was found that E-OMe is unordered and Z-OMe, Z-p-NA, and E-p-NA adopt the β-turn conformation. There are two overlapping β-turns in each of those peptides: type II and type III' in Z-OMe and Z-p-NA, and two type III in E-p-NA. The ordered structure-inducing properties of Δ(Z)Phe and Δ(E)Phe in the peptides studied depend on the C-terminal blocking group. In methyl esters, the Δ(Z)Phe residue is a strong inducer of ordered conformations whereas the Δ(E)Phe one has no such properties. In p-nitroanilides, both isomers of ΔPhe cause the peptides to adopt ordered structures to a similar extent., (© 2010 Wiley Periodicals, Inc.)

Published
2010
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46. Identification of adducts formed in the reactions of malonaldehyde-glyoxal and malonaldehyde-methylglyoxal with adenosine and calf thymus DNA.

Author

Pluskota-Karwatka D, Pawłowicz AJ, Bruszyńska M, Greszkiewicz A, Latajka R, and Kronberg L

Subjects
Animals, Cattle, Chromatography, High Pressure Liquid, DNA Adducts isolation & purification, Magnetic Resonance Spectroscopy, Spectrophotometry, Ultraviolet, Adenosine chemistry, DNA chemistry, DNA Adducts chemistry, Glyoxal chemistry, Malondialdehyde chemistry, Pyruvaldehyde chemistry
Abstract

The reactions of adenosine with malonaldehyde and glyoxal, and with malonaldehyde and methylglyoxal resulted in the formation of one malonaldehyde-glyoxal and one malonaldehyde-methylglyoxal conjugate adduct, respectively. These adducts were isolated and purified by reversed-phase liquid chromatography, and structurally characterized by UV, (1)H- and (13)C-NMR spectroscopy, and mass spectrometry. The malonaldehyde-glyoxal adduct was identified as 8-(diformylmethyl)-3-(beta-D-ribofuranosyl)imidazo[2,1-i]purine (M(1)Gx-A), while the malonaldehyde-methylglyoxal one as 8-(diformylmethyl)-7-methyl-3-(beta-D-ribofuranosyl)imidazo[2,1-i]purine (M(1)MGx-A). Both adducts were also observed in calf thymus DNA when incubated in the respective aldehydes under physiological pH and temperature. Moreover, in the reaction of methylglyoxal and malonaldehyde with adenosine, an additional adduct was formed. This adduct was found to consist of one unit derived from methylglyoxal and one unit from formaldehyde. The adduct was identified as N(6)-(2,3-dihydroxy-2-methylpropanoyl)-9-(beta-D-ribofuranosyl)purine (MGxFA-A). Formaldehyde was found to originate from the commercial methylglyoxal in which it was present as an impurity.

Published
2010
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47. Conformational studies of hexapeptides containing two dehydroamino acid residues in positions 2 and 5 in peptide chain.

Author

Latajka R, Jewginski M, Makowski M, Krezel A, and Paluch S

Subjects
Amides chemistry, Amino Acid Sequence, Circular Dichroism, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Peptides chemical synthesis, Protein Conformation, Protein Structure, Secondary, Protons, Temperature, Amino Acids chemistry, Peptides chemistry
Abstract

Conformational preferences of a group of hexapeptides containing two dehydroamino acid residues in Positions 2 and 5 in peptide chain were investigated by means of spectroscopic methods (NMR and CD) and theoretical calculations. In the case of dimethylsulfoxide (DMSO) solution, only peptide with free N-termini adopted rigid 3(10)-helical conformation, for the rest of examined peptides extended and "zig-zag" conformers were predominant. CD measurements showed that only in chloroform solution the conformational freedom of investigated peptides was restricted., (2008 Wiley Periodicals, Inc)

Published
2008
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48. Combined effect of the DeltaPhe or DeltaAla residue and the p-nitroanilide group on a didehydropeptides conformation.

Author

Lisowski M, Latajka R, Picur B, Lis T, Bryndal I, Rospenk M, Makowski M, and Kafarski P

Subjects
Alanine chemistry, Circular Dichroism, Crystallography, Magnetic Resonance Spectroscopy, Models, Molecular, Phenylalanine chemistry, Protein Conformation, Spectroscopy, Fourier Transform Infrared, Alanine analogs & derivatives, Amides chemistry, Dipeptides chemistry, Models, Chemical, Phenylalanine analogs & derivatives
Abstract

Two series of dehydropeptides of the general formulae Boc-Gly-X-Phe-p-NA, Boc-Gly-Gly-X-Phe-p-NA, Gly-X-Gly-Phe-p-NA.TFA, and Boc-Gly-X-Gly-Phe-p-NA, with X = Delta(Z)Phe and DeltaAla, were studied with NMR in DMSO and CDCl(3)-DMSO, and with CD in MeOH, MeCN, and TFE. The NMR spectra measured in DMSO suggest that peptides with the DeltaPhe residue next to Phe are folded whereas peptides with Gly between DeltaPhe and Phe are less ordered. NMR spectra of DeltaAla-containing peptides indicate that these peptides are flexible and their conformational equilibria are populated by many different conformations. The CD spectra show that conformational properties of the peptides studied are distinctly influenced by a mutual position of the dehydroamino acid residue and the p-NA group. They indicate that all dehydropeptides with the DeltaPhe residue, Boc-Gly-DeltaAla-Phe-p-NA, and Boc-Gly-Gly-DeltaAla-Phe-p-NA adopt ordered conformations in all solvents studied, presumably of the beta-turn type. The last two peptides exhibit surprising chiroptical properties. Their spectra show exciton coupling-like couplets in the region of the p-NA group absorption. This shape of CD spectra suggests a rigid, chiral conformation with a fixed disposition of the p-NA group. The CD spectra indicate that Boc-Gly-DeltaAla-Gly-Phe-p-NA and Gly-DeltaAla-Gly-Phe-p-NA.TFA are unordered, independently of the solvent., (2007 Wiley Periodicals, Inc)

Published
2008
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49. Coordination properties of tris(2-carboxyethyl)phosphine, a newly introduced thiol reductant, and its oxide.

Author

Krezel A, Latajka R, Bujacz GD, and Bal W

Abstract

Acid-base properties and metal-binding abilities of tris(2-carboxyethyl)phosphine (TCEP), a newly introduced thiol group protectant, were studied in solution, using potentiometry, (1)H and (31)P NMR, and UV-vis spectroscopy, and also in the solid state by X-ray diffraction. Stability constants of complexes of the P-oxide of TCEP (TCEPO) were established by potentiometry. The list of metal ions studied included Ni(II), Cu(II), Zn(II), Cd(II), and Pb(II). Cu(II) catalyzed oxidation of TCEP to TCEPO. For all other systems ML complexes were found as major species at neutral pH with TCEP and TCEPO. Monoprotonated MHL species were also detected in weakly acidic conditions for all TCEP complexes and for the Pb(II) complex of TCEPO, while hydrolytic MH(-1)L complexes were found for TCEP at the weakly alkaline pH range. The NiL(4) complex was found to form at excess of TCEP. Overall, the complexes were found to be rather weak, with log beta(ML) values around 3-5 for TCEP and 1.5-2.5 for TCEPO. The phosphorus pK(a) value for TCEP, 7.68, suggests that it can be a good buffer for studies at physiological pH.

Published
2003
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50. Synthesis of tetrapeptide p-nitrophenylanilides containing dehydroalanine and dehydrophenylalanine and their influence on cathepsin C activity.

Author

Makowski M, Pawelczak M, Latajka R, Nowak K, and Kafarski P

Subjects
Amino Acids chemistry, Anilides chemistry, Animals, Cathepsin C chemistry, Cattle, Magnetic Resonance Spectroscopy, Models, Chemical, Oligopeptides chemistry, Spleen metabolism, Alanine analogs & derivatives, Alanine chemistry, Anilides chemical synthesis, Cathepsin C metabolism, Oligopeptides chemical synthesis, Phenylalanine analogs & derivatives, Phenylalanine chemistry
Abstract

Three dehydrotetrapeptides of rationally varying structure were prepared and tested as affectors of cathepsin C. These compounds appeared to be substrates of the enzyme, being equipotent with their classical counterparts. Thus, replacement of amino acid in a short peptide by corresponding dehydroamino acid does not prevent cathepsin C in recognizing dehydropeptide as its substrate.

Published
2001
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