Your search keyword '"Gobec Stanislav"' showing total 25 results

1. N-hydroxy-N-propargylamide derivatives of ferulic acid

Author

BautistaAguilera, Oscar M, Alonso, José M, Catto, Marco, Iriepa, Isabel, Knez, Damijan, farmacevt, Gobec, Stanislav, and MarcoContelles, José

Subjects

antioxidant, Alzheimerjeva bolezen, holinesteraze, udc:616.894, cholinesterases, ferulna kislina, holinesteraze, ferulna kislina, molekularno modeliranje, monoaminooksidaza, lovilec radikalov, antioksidant, molecular modelling, molekularno modeliranje, antioksidant, monoamine oxidase, radical-scavenger, udc:616.89, cholinesterases, ferulic acid, molecular modelling, monoamine oxidase, radical-scavenger, antioxidant, lovilec radikalov, monoaminooksidaza, ferulic acid

Abstract

Alzheimer’s disease (AD) is a complex disorder characterized by impaired neurotransmission in cholinergic and monoaminergic neurons, which, in combination with the accumulation of misfolded proteins and increased oxidative stress, leads to the typical features of the disease at the biomolecular level. Given the limited therapeutic success of approved drugs, it is imperative to explore rationally supported therapeutic approaches to combat this disease. The search for novel scaffolds that bind to different receptors and inhibit AD disease-related enzymes could lead to new therapeutic solutions. Here, we describe N-hydroxy-N-propargylamide hybrids 1–6, which were designed by combining the structures of Contilisant—a multifunctional anti-AD ligand—and ferulic acid, a natural antioxidant with various other biological activities. Among the synthesized compounds, we identified compound 4 as a micromolar inhibitor of hAChE with a potent radical-scavenging capacity comparable to resveratrol and Trolox. In addition, compound 4 chelated copper(II) ions associated with amyloid β pathology, mitochondrial dysfunction, and oxidative stress. The promising in vitro activity combined with favorable drug-like properties and predicted blood‒brain barrier permeability make compound 4 a multifunctional ligand that merits further studies at the biochemical and cellular levels. Nasl. z nasl. zaslona. Opis vira z dne 2. 11. 2022. Bibliografija: str. 17-18. Abstract. ARRS

Published

2022

2. Analytical techniques for structural characterization of proteins in solid pharmaceutical forms

Author

Bolje, Aljoša and Gobec, Stanislav

Subjects

protein characterization, safe drug, sušenje z zamrzovanjem, formulation development, farmacevtske oblike, excipients, solid pharmaceuticals, stabilnost zdravil, lyophilization, antibody, pomožne snovi, stable drug product, analytical tools, protein structure, zgradba proteinov, udc:66.047.3:615.45, protitelesa, terapevtske beljakovine

Abstract

Therapeutic proteins as biopharmaceuticals have emerged as a very important class of drugs for the treatment of many diseases. However, they are less stable compared to conventional pharmaceuticals. Their long-term stability in solid forms, which is critical for product performance, depends heavily on the retention of the native protein structure during the lyophilization (freeze-drying) process and, thereafter, in the solid state. Indeed, the biological function of proteins is directly related to the tertiary and secondary structure. Besides physical stability and biological activity, conformational stability (three-dimensional structure) is another important aspect when dealing with protein pharmaceuticals. Moreover, denaturation as loss of higher order structure is often a precursor to aggregation or chemical instability. Careful study of the physical and chemical properties of proteins in the dried state is therefore critical during biopharmaceutical drug development to deliver a final drug product with built-in quality that is safe, high-quality, efficient, and affordable for patients. This review provides an overview of common analytical techniques suitable for characterizing pharmaceutical protein powders, providing structural, and conformational information, as well as insights into dynamics. Such information can be very useful in formulation development, where selecting the best formulation for the drug can be quite a challenge.

Published

2022

3. Biological Evaluation of Valeriana Extracts from Argentina with Potent Cholinesterase Inhibition for the Treatment of Neurodegenerative Disorders and Their Comorbidities—The Case of Valeriana carnosa Sm. (Caprifoliaceae) Studied in Mice.

Author

Marcucci, Carolina, Rademacher, Marina, Kamecki, Fabiola, Pastore, Valentina, Bach, Hernán Gerónimo, Ricco, Rafael Alejandro, Wagner, Marcelo Luis, Knez, Damijan, Gobec, Stanislav, Colettis, Natalia, and Marder, Mariel

Subjects

NEURODEGENERATION, ACETYLCHOLINESTERASE, MONOAMINE oxidase, ALZHEIMER'S disease, PEPTIDES, VALERIANA

Abstract

Alzheimer's disease (AD) is a neurodegenerative disorder whose pathophysiology includes the abnormal accumulation of proteins (e.g., β-amyloid), oxidative stress, and alterations in neurotransmitter levels, mainly acetylcholine. Here we present a comparative study of the effect of extracts obtained from endemic Argentinian species of valerians, namely V. carnosa Sm., V. clarionifolia Phil. and V. macrorhiza Poepp. ex DC from Patagonia and V. ferax (Griseb.) Höck and V. effusa Griseb., on different AD-related biological targets. Of these anxiolytic, sedative and sleep-inducing valerians, V. carnosa proved the most promising and was assayed in vivo. All valerians inhibited acetylcholinesterase (IC50 between 1.08–12.69 mg/mL) and butyrylcholinesterase (IC50 between 0.0019–1.46 mg/mL). They also inhibited the aggregation of β-amyloid peptide, were able to chelate Fe2+ ions, and exhibited a direct relationship between antioxidant capacity and phenolic content. Moreover, V. carnosa was able to inhibit human monoamine oxidase A (IC50: 0.286 mg/mL (0.213–0.384)). A daily intake of aqueous V. carnosa extract by male Swiss mice (50 and 150 mg/kg/day) resulted in anxiolytic and antidepressant-like behavior and improved spatial memory. In addition, decreased AChE activity and oxidative stress markers were observed in treated mouse brains. Our studies contribute to the development of indigenous herbal medicines as therapeutic agents for AD. [ABSTRACT FROM AUTHOR]

Published

2023

4. Next-Generation Heterocyclic Electrophiles as Small-Molecule Covalent MurA Inhibitors.

Author

Ábrányi-Balogh, Péter, Keeley, Aaron, Ferenczy, György G., Petri, László, Imre, Tímea, Grabrijan, Katarina, Hrast, Martina, Knez, Damijan, Ilaš, Janez, Gobec, Stanislav, and Keserű, György M.

Subjects

CHEMICAL reactions, ANTIBACTERIAL agents

Abstract

Heterocyclic electrophiles as small covalent fragments showed promising inhibitory activity on the antibacterial target MurA (UDP-N-acetylglucosamine 1-carboxyvinyltransferase, EC:2.5.1.7). Here, we report the second generation of heterocyclic electrophiles: the quaternized analogue of the heterocyclic covalent fragment library with improved reactivity and MurA inhibitory potency. Quantum chemical reaction barrier calculations, GSH (L-glutathione) reactivity assay, and thrombin counter screen were also used to demonstrate and explain the improved reactivity and selectivity of the N-methylated heterocycles and to compare the two generations of heterocyclic electrophiles. [ABSTRACT FROM AUTHOR]

Published

2022

5. N -Hydroxy- N -Propargylamide Derivatives of Ferulic Acid: Inhibitors of Cholinesterases and Monoamine Oxidases.

Author

Bautista-Aguilera, Óscar M., Alonso, José M., Catto, Marco, Iriepa, Isabel, Knez, Damijan, Gobec, Stanislav, and Marco-Contelles, José

Subjects

FERULIC acid, ACID derivatives, OXIDASES, ALZHEIMER'S disease, CHEMICAL synthesis, CHOLINESTERASES

Abstract

Alzheimer's disease (AD) is a complex disorder characterized by impaired neurotransmission in cholinergic and monoaminergic neurons, which, in combination with the accumulation of misfolded proteins and increased oxidative stress, leads to the typical features of the disease at the biomolecular level. Given the limited therapeutic success of approved drugs, it is imperative to explore rationally supported therapeutic approaches to combat this disease. The search for novel scaffolds that bind to different receptors and inhibit AD disease-related enzymes could lead to new therapeutic solutions. Here, we describe N-hydroxy-N-propargylamide hybrids 1–6, which were designed by combining the structures of Contilisant—a multifunctional anti-AD ligand—and ferulic acid, a natural antioxidant with various other biological activities. Among the synthesized compounds, we identified compound 4 as a micromolar inhibitor of hAChE with a potent radical-scavenging capacity comparable to resveratrol and Trolox. In addition, compound 4 chelated copper(II) ions associated with amyloid β pathology, mitochondrial dysfunction, and oxidative stress. The promising in vitro activity combined with favorable drug-like properties and predicted blood-brain barrier permeability make compound 4 a multifunctional ligand that merits further studies at the biochemical and cellular levels. [ABSTRACT FROM AUTHOR]

Published

2022

6. Polyfunctionalized α-Phenyl-tert-butyl(benzyl)nitrones: Multifunctional Antioxidants for Stroke Treatment.

Author

Diez-Iriepa, Daniel, Knez, Damijan, Gobec, Stanislav, Iriepa, Isabel, de los Ríos, Cristóbal, Bravo, Isaac, López-Muñoz, Francisco, Marco-Contelles, José, and Hadjipavlou-Litina, Dimitra

Subjects

NITRONES, TISSUE plasminogen activator, SECRETASE inhibitors, REACTIVE oxygen species, DAMAGE models, SMALL molecules, ACETYLCHOLINESTERASE

Abstract

Nowadays, most stroke patients are treated exclusively with recombinant tissue plasminogen activator, a drug with serious side effects and limited therapeutic window. For this reason, and because of the known effects of oxidative stress on stroke, a more tolerable and efficient therapy for stroke is being sought that focuses on the control and scavenging of highly toxic reactive oxygen species by appropriate small molecules, such as nitrones with antioxidant properties. In this context, herein we report here the synthesis, antioxidant, and neuroprotective properties of twelve novel polyfunctionalized α-phenyl-tert-butyl(benzyl)nitrones. The antioxidant capacity of these nitrones was investigated by various assays, including the inhibition of lipid peroxidation induced by AAPH, hydroxyl radical scavenging assay, ABTS+-decoloration assay, DPPH scavenging assay, and inhibition of soybean lipoxygenase. The inhibitory effect on monoamine oxidases and cholinesterases and inhibition of β-amyloid aggregation were also investigated. As a result, (Z)-N-benzyl-1-(2-(3-(piperidin-1-yl)propoxy)phenyl)methanimine oxide (5) was found to be one of the most potent antioxidants, with high ABTS+ scavenging activity (19%), and potent lipoxygenase inhibitory capacity (IC50 = 10 µM), selectively inhibiting butyrylcholinesterase (IC50 = 3.46 ± 0.27 µM), and exhibited neuroprotective profile against the neurotoxicant okadaic acid in a neuronal damage model. Overall, these results pave the way for the further in-depth analysis of the neuroprotection of nitrone 5 in in vitro and in vivo models of stroke and possibly other neurodegenerative diseases in which oxidative stress is identified as a critical player. [ABSTRACT FROM AUTHOR]

Published

2022

7. Screening of Big Pharma's Library against Various in-house Biological Targets.

Author

Knez, Damijan, Gobec, Stanislav, and Hrast, Martina

Subjects

*DRUG target, *CHEMICAL inhibitors, *PHARMACEUTICAL industry, *ION channels, *SPACE exploration, *ACETYLCHOLINESTERASE, *RESEARCH & development projects, *WORK experience (Employment)

Abstract

Open innovation initiatives provide opportunities for collaboration and sharing of knowledge and experience between industry, academia, and government institutions. Through open innovation, Merck is offering a Mini Library of 80 carefully selected compounds from previous research and development projects to a broader scientific community for testing in academic drug discovery projects. These compounds are predominantly drug-like and cover a broad range of molecular targets. They could potentially interact with other enzymes, receptors, transporters, and ion channels of interest. The Mini Library was tested on seven in-house enzymes (bacterial MurA, MurC ligase, and DdlB enzyme, human MAO-A/B, human BChE, and murine AChE), and several hits were identified. A follow-up series of structural analogues provided by Merck gave a more detailed insight into the accessibility and the quality of the hit compounds. For example, sartan derivatives were moderate inhibitors of MurC, whereas bisarylureas were potent, selective, nanomolar inhibitors of hMAO-B. Importantly, 3-n-butyl-substituted indoles were identified as low nanomolar selective inhibitors of hBChE. All in all, the hit derivatives provide new starting points for the further exploration of the chemical space of high-quality enzyme inhibitors. [ABSTRACT FROM AUTHOR]

Published

2022

8. Discovery of novel selective TLR7 agonists based on chromeno[3,4-<em>d</em>]imidazol-4(1<em>H</em>)-one and 2-(trifluoromethyl)quinoline/ quinazoline-4-amine scaffold

Author

Sova, Matej, primary, Dolšak, Ana, additional, Švajger, Urban, additional, Lešnik, Samo, additional, Konc, Janez, additional, and Gobec, Stanislav, additional

Published

2020

9. Synthesis and Biological Evaluation of Benzochromenopyrimidinones as Cholinesterase Inhibitors and Potent Antioxidant, Non-Hepatotoxic Agents for Alzheimer’s Disease.

Author

Dgachi, Youssef, Bautista-Aguilera, Oscar M., Benchekroun, Mohamed, Martin, Hélène, Bonet, Alexandre, Knez, Damijan, Godyń, Justyna, Malawska, Barbara, Gobec, Stanislav, Chioua, Mourad, Janockova, Jana, Soukup, Ondrej, Chabchoub, Fakher, Marco-Contelles, José, and Ismaili, Lhassane

Abstract

We report herein the straightforward two-step synthesis and biological assessment of novel racemic benzochromenopyrimidinones as non-hepatotoxic, acetylcholinesterase inhibitors with antioxidative properties. Among them, compound 3Bb displayed a mixed-type inhibition of human acetylcholinesterase (IC50 = 1.28 ± 0.03 μM), good antioxidant activity, and also proved to be non-hepatotoxic on human HepG2 cell line. [ABSTRACT FROM AUTHOR]

Published

2016

10. Synthesis, Molecular Modelling and Biological Evaluation of Novel Heterodimeric, Multiple Ligands Targeting Cholinesterases and Amyloid Beta.

Author

Hebda, Michalina, Bajda, Marek, Więckowska, Anna, Szałaj, Natalia, Pasieka, Anna, Panek, Dawid, Godyń, Justyna, Wichur, Tomasz, Knez, Damijan, Gobec, Stanislav, and Malawska, Barbara

Subjects

CHOLINESTERASES, AMYLOID beta-protein, CHEMICAL synthesis, SACCHARIN, ACETYLCHOLINESTERASE inhibitors, BLOOD-brain barrier

Abstract

Cholinesterases and amyloid beta are one of the major biological targets in the search for a new and efficacious treatment of Alzheimer's disease. The study describes synthesis and pharmacological evaluation of new compounds designed as dual binding site acetylcholinesterase inhibitors. Among the synthesized compounds, two deserve special attention-compounds 42 and 13. The former is a saccharin derivative and the most potent and selective acetylcholinesterase inhibitor (EeAChE IC50 = 70 nM). Isoindoline-1,3-dione derivative 13 displays balanced inhibitory potency against acetyl- and butyrylcholinesterase (BuChE) (EeAChE IC50 = 0.76 μM, EqBuChE IC50 = 0.618 μM), and it inhibits amyloid beta aggregation (35.8% at 10 μM). Kinetic studies show that the developed compounds act as mixed or non-competitive acetylcholinesterase inhibitors. According to molecular modelling studies, they are able to interact with both catalytic and peripheral active sites of the acetylcholinesterase. Their ability to cross the blood-brain barrier (BBB) was confirmed in vitro in the parallel artificial membrane permeability BBB assay. These compounds can be used as a solid starting point for further development of novel multifunctional ligands as potential anti-Alzheimer's agents. [ABSTRACT FROM AUTHOR]

Published

2016

11. Discovery of Novel Small-Molecule Compounds with Selective Cytotoxicity for Burkitt's Lymphoma Cells Using 3D Ligand-Based Virtual Screening.

Author

Gobec, Martina, Sosič, Izidor, Brus, Boris, Obreza, Aleš, Gobec, Stanislav, and Mlinarič-Raščan, Irena

Subjects

SMALL molecules, CELL-mediated cytotoxicity, BURKITT'S lymphoma, CANCER cells, BIOCHEMICAL mechanism of action, THERAPEUTICS

Abstract

We describe a ligand-based approach towards compounds with more specific targeting for Burkitt's lymphoma. Using three-dimensional ligand-based similarity searches and a previously described hit compound, we have identified six compounds that are chemically different but with similar spatial conformations. Biological evaluation revealed that one compound has better growth inhibition and improved selectivity towards Burkitt's lymphoma cells than the query compound. However, initial mechanism-of-action studies show a different target profile in comparison with the previous hit compound, which does not involve the inhibition of the proteasome or the NFκB pathway. The data from this study provide a solid basis for further efforts in the search for selective agents against Burkitt's lymphoma. [ABSTRACT FROM AUTHOR]

Published

2014

12. Upregulation of Cathepsin X in Glioblastoma: Interplay with γ-Enolase and the Effects of Selective Cathepsin X Inhibitors.

Author

Majc, Bernarda, Habič, Anamarija, Novak, Metka, Rotter, Ana, Porčnik, Andrej, Mlakar, Jernej, Župunski, Vera, Fonović, Urša Pečar, Knez, Damijan, Zidar, Nace, Gobec, Stanislav, Kos, Janko, Turnšek, Tamara Lah, Pišlar, Anja, and Breznik, Barbara

Subjects

GLIOBLASTOMA multiforme, BRAIN tumors, THERAPEUTICS, GLIOMAS, NEURODEGENERATION

Abstract

Glioblastoma (GBM) is the most common and deadly primary brain tumor in adults. Understanding GBM pathobiology and discovering novel therapeutic targets are critical to finding efficient treatments. Upregulation of the lysosomal cysteine carboxypeptidase cathepsin X has been linked to immune dysfunction and neurodegenerative diseases, but its role in cancer and particularly in GBM progression in patients is unknown. In this study, cathepsin X expression and activity were found to be upregulated in human GBM tissues compared to low-grade gliomas and nontumor brain tissues. Cathepsin X was localized in GBM cells as well as in tumor-associated macrophages and microglia. Subsequently, potent irreversible (AMS36) and reversible (Z7) selective cathepsin X inhibitors were tested in vitro. Selective cathepsin X inhibitors decreased the viability of patient-derived GBM cells as well as macrophages and microglia that were cultured in conditioned media of GBM cells. We next examined the expression pattern of neuron-specific enzyme γ-enolase, which is the target of cathepsin X. We found that there was a correlation between high proteolytic activity of cathepsin X and C-terminal cleavage of γ-enolase and that cathepsin X and γ-enolase were colocalized in GBM tissues, preferentially in GBM-associated macrophages and microglia. Taken together, our results on patient-derived material suggest that cathepsin X is involved in GBM progression and is a potential target for therapeutic approaches against GBM. [ABSTRACT FROM AUTHOR]

Published

2022

13. Synthesis of 3-Amino-4-substituted Monocyclic ß-Lactams—Important Structural Motifs in Medicinal Chemistry.

Author

Grabrijan, Katarina, Strašek, Nika, and Gobec, Stanislav

Subjects

PHARMACEUTICAL chemistry, BIRCH reduction, AMMONIUM nitrate, HYDRAZINE, CERIUM

Abstract

Monocyclic ß-lactams (azetidin-2-ones) exhibit a wide range of biological activities, the most important of which are antibacterial, anticancer, and cholesterol absorption inhibitory activities. The synthesis of decorated monocyclic ß-lactams is challenging because their ring is highly constrained and consequently reactive, which is also an important determinant of their biological activity. We present the optimized synthesis of orthogonally protected 3-amino-4-substituted monocyclic ß-lactams. Among several possible synthetic approaches, Staudinger cycloaddition proved to be the most promising method for initial ring formation, yielding monocyclic ß-lactams with different substituents at the C-4 position, a phthalimido-protected 3-amino group, and a (dimethoxy)benzyl protected ring nitrogen. Challenging deprotection methods were then investigated. Oxidative cleavage with cerium ammonium nitrate and ammonia-free Birch reduction was found to be most effective for selective removal of ring nitrogen protection. Hydrazine hydrate was used for deprotection of the phthalimido group, and the procedure had to be modified by the addition of HCl in the case of aromatic substituents at the C-4 position. The presented methods and the synthesized 3-amino-4-substituted monocyclic ß-lactam derivatives are an important step toward new ß-lactams with potential pharmacological activities. [ABSTRACT FROM AUTHOR]

Published

2022

14. Fragment-Sized and Bidentate (Immuno)Proteasome Inhibitors Derived from Cysteine and Threonine Targeting Warheads.

Author

Kollár, Levente, Gobec, Martina, Proj, Matic, Smrdel, Lara, Knez, Damijan, Imre, Tímea, Gömöry, Ágnes, Petri, László, Ábrányi-Balogh, Péter, Csányi, Dorottya, Ferenczy, György G., Gobec, Stanislav, Sosič, Izidor, and Keserű, György M.

Subjects

PROTEASOME inhibitors, WARHEADS, PROTEASOMES, THREONINE, CYSTEINE, HEMATOLOGIC malignancies

Abstract

Constitutive- and immunoproteasomes are part of the ubiquitin–proteasome system (UPS), which is responsible for the protein homeostasis. Selective inhibition of the immunoproteasome offers opportunities for the treatment of numerous diseases, including inflammation, autoimmune diseases, and hematologic malignancies. Although several inhibitors have been reported, selective nonpeptidic inhibitors are sparse. Here, we describe two series of compounds that target both proteasomes. First, benzoxazole-2-carbonitriles as fragment-sized covalent immunoproteasome inhibitors are reported. Systematic substituent scans around the fragment core of benzoxazole-2-carbonitrile led to compounds with single digit micromolar inhibition of the β5i subunit. Experimental and computational reactivity studies revealed that the substituents do not affect the covalent reactivity of the carbonitrile warhead, but mainly influence the non-covalent recognition. Considering the small size of the inhibitors, this finding emphasizes the importance of the non-covalent recognition step in the covalent mechanism of action. As a follow-up series, bidentate inhibitors are disclosed, in which electrophilic heterocyclic fragments, i.e., 2-vinylthiazole, benzoxazole-2-carbonitrile, and benzimidazole-2-carbonitrile were linked to threonine-targeting (R)-boroleucine moieties. These compounds were designed to bind both the Thr1 and β5i-subunit-specific residue Cys48. However, inhibitory activities against (immuno)proteasome subunits showed that bidentate compounds inhibit the β5, β5i, β1, and β1i subunits with submicromolar to low-micromolar IC50 values. Inhibitory assays against unrelated enzymes showed that compounds from both series are selective for proteasomes. The presented nonpeptidic and covalent derivatives are suitable hit compounds for the development of either β5i-selective immunoproteasome inhibitors or compounds targeting multiple subunits of both proteasomes. [ABSTRACT FROM AUTHOR]

Published

2021

15. 4-Phenethyl-1-Propargylpiperidine-Derived Dual Inhibitors of Butyrylcholinesterase and Monoamine Oxidase B.

Author

Mazej, Tjaša, Knez, Damijan, Meden, Anže, Gobec, Stanislav, and Sova, Matej

Subjects

MONOAMINE oxidase inhibitors, MONOAMINE oxidase, ALZHEIMER'S disease, ACETYLCHOLINESTERASE

Abstract

The multi-target-directed ligands (MTDLs) strategy is encouraged for the development of novel modulators targeting multiple pathways in the neurodegenerative cascade typical for Alzheimer's disease (AD). Based on the structure of an in-house irreversible monoamine oxidase B (MAO-B) inhibitor, we aimed to introduce a carbamate moiety on the aromatic ring to impart cholinesterase (ChE) inhibition, and to furnish multifunctional ligands targeting two enzymes that are intricately involved in AD pathobiology. In this study, we synthesized three dual hMAO-B/hBChE inhibitors 13–15, with compound 15 exhibiting balanced, low micromolar inhibition of hMAO-B (IC50 of 4.3 µM) and hBChE (IC50 of 8.5 µM). The docking studies and time-dependent inhibition of hBChE confirmed the initial expectation that the introduced carbamate moiety is responsible for covalent inhibition. Therefore, dual-acting compound 15 represents an excellent starting point for further optimization of balanced MTDLs [ABSTRACT FROM AUTHOR]

Published

2021

16. Analytical Techniques for Structural Characterization of Proteins in Solid Pharmaceutical Forms: An Overview.

Author

Bolje, Aljoša, Gobec, Stanislav, and Barlow, Dave

Subjects

*CYTOSKELETAL proteins, *PROTEIN drugs, *SOLID dosage forms, *PROTEIN structure, *CHEMICAL properties, *PROTEIN conformation, *CHEMICAL precursors, *BIOPHARMACEUTICS, *PHARMACEUTICAL powders

Abstract

Therapeutic proteins as biopharmaceuticals have emerged as a very important class of drugs for the treatment of many diseases. However, they are less stable compared to conventional pharmaceuticals. Their long-term stability in solid forms, which is critical for product performance, depends heavily on the retention of the native protein structure during the lyophilization (freeze-drying) process and, thereafter, in the solid state. Indeed, the biological function of proteins is directly related to the tertiary and secondary structure. Besides physical stability and biological activity, conformational stability (three-dimensional structure) is another important aspect when dealing with protein pharmaceuticals. Moreover, denaturation as loss of higher order structure is often a precursor to aggregation or chemical instability. Careful study of the physical and chemical properties of proteins in the dried state is therefore critical during biopharmaceutical drug development to deliver a final drug product with built-in quality that is safe, high-quality, efficient, and affordable for patients. This review provides an overview of common analytical techniques suitable for characterizing pharmaceutical protein powders, providing structural, and conformational information, as well as insights into dynamics. Such information can be very useful in formulation development, where selecting the best formulation for the drug can be quite a challenge. [ABSTRACT FROM AUTHOR]

Published

2021

17. Novel Selective IDO1 Inhibitors with Isoxazolo[5,4- d ]pyrimidin-4(5 H)-one Scaffold.

Author

Dolšak, Ana, Bratkovič, Tomaž, Mlinarič, Larisa, Ogorevc, Eva, Švajger, Urban, Gobec, Stanislav, Sova, Matej, and Besson, Thierry

Subjects

INDOLEAMINE 2,3-dioxygenase, STRUCTURE-activity relationships, IMMUNOMODULATORS, TRYPTOPHAN, MOIETIES (Chemistry), IMMUNOREGULATION

Abstract

Indoleamine 2,3-dioxygenase 1 (IDO1) is a promising target in immunomodulation of several pathological conditions, especially cancers. Here we present the synthesis of a series of IDO1 inhibitors with the novel isoxazolo[5,4-d]pyrimidin-4(5H)-one scaffold. A focused library was prepared using a 6- or 7-step synthetic procedure to allow a systematic investigation of the structure-activity relationships of the described scaffold. Chemistry-driven modifications lead us to the discovery of our best-in-class inhibitors possessing p-trifluoromethyl (23), p-cyclohexyl (32), or p-methoxycarbonyl (20, 39) substituted aniline moieties with IC50 values in the low micromolar range. In addition to hIDO1, compounds were tested for their inhibition of indoleamine 2,3-dioxygenase 2 and tryptophan dioxygenase, and found to be selective for hIDO1. Our results thus demonstrate a successful study on IDO1-selective isoxazolo[5,4-d]pyrimidin-4(5H)-one inhibitors, defining promising chemical probes with a novel scaffold for further development of potent small-molecule immunomodulators. [ABSTRACT FROM AUTHOR]

Published

2021

18. Synthesis and Biochemical Evaluation of Warhead-Decorated Psoralens as (Immuno)Proteasome Inhibitors.

Author

Schiffrer, Eva Shannon, Proj, Matic, Gobec, Martina, Rejc, Luka, Šterman, Andrej, Mravljak, Janez, Gobec, Stanislav, Sosič, Izidor, and Matos, Maria João

Subjects

PROTEASOME inhibitors, PSORALENS, STRUCTURE-activity relationships, AUTOIMMUNE diseases, WARHEADS, PROTEASOMES

Abstract

The immunoproteasome is a multicatalytic protease that is predominantly expressed in cells of hematopoietic origin. Its elevated expression has been associated with autoimmune diseases, various types of cancer, and inflammatory diseases. Selective inhibition of its catalytic activities is therefore a viable approach for the treatment of these diseases. However, the development of immunoproteasome-selective inhibitors with non-peptidic scaffolds remains a challenging task. We previously reported 7H-furo[3,2-g]chromen-7-one (psoralen)-based compounds with an oxathiazolone warhead as selective inhibitors of the chymotrypsin-like (β5i) subunit of immunoproteasome. Here, we describe the influence of the electrophilic warhead variations at position 3 of the psoralen core on the inhibitory potencies. Despite mapping the chemical space with different warheads, all compounds showed decreased inhibition of the β5i subunit of immunoproteasome in comparison to the parent oxathiazolone-based compound. Although suboptimal, these results provide crucial information about structure–activity relationships that will serve as guidance for the further design of (immuno)proteasome inhibitors. [ABSTRACT FROM AUTHOR]

Published

2021

19. Bromo-Cyclobutenaminones as New Covalent UDP- N -Acetylglucosamine Enolpyruvyl Transferase (MurA) Inhibitors.

Author

Hamilton, David J., Ábrányi-Balogh, Péter, Keeley, Aaron, Petri, László, Hrast, Martina, Imre, Tímea, Wijtmans, Maikel, Gobec, Stanislav, Esch, Iwan J. P. de, and Keserű, György Miklós

Subjects

NUCLEOPHILIC substitution reactions, STRUCTURE-activity relationships, BROMINE, GLUTATHIONE transferase, OLIGOPEPTIDES

Abstract

Drug discovery programs against the antibacterial target UDP-N-acetylglucosamine enolpyruvyl transferase (MurA) have already resulted in covalent inhibitors having small three- and five-membered heterocyclic rings. In the current study, the reactivity of four-membered rings was carefully modulated to obtain a novel family of covalent MurA inhibitors. Screening a small library of cyclobutenone derivatives led to the identification of bromo-cyclobutenaminones as new electrophilic warheads. The electrophilic reactivity and cysteine specificity have been determined in a glutathione (GSH) and an oligopeptide assay, respectively. Investigating the structure-activity relationship for MurA suggests a crucial role for the bromine atom in the ligand. In addition, MS/MS experiments have proven the covalent labelling of MurA at Cys115 and the observed loss of the bromine atom suggests a net nucleophilic substitution as the covalent reaction. This new set of compounds might be considered as a viable chemical starting point for the discovery of new MurA inhibitors. [ABSTRACT FROM AUTHOR]

Published

2020

20. Psoralen Derivatives as Inhibitors of Mycobacterium tuberculosis Proteasome.

Author

Rožman, Kaja, Alexander, Evan M., Ogorevc, Eva, Bozovičar, Krištof, Sosič, Izidor, Aldrich, Courtney C., Gobec, Stanislav, and Piantanida, Ivo

Subjects

MYCOBACTERIUM tuberculosis, PSORALENS, PROTEASOMES, PROTEOLYSIS, ENZYME inhibitors, ACETAMIDE derivatives, PROTEASOME inhibitors, PYRAZINAMIDE

Abstract

Protein degradation is a fundamental process in all living organisms. An important part of this system is a multisubunit, barrel-shaped protease complex called the proteasome. This enzyme is directly responsible for the proteolysis of ubiquitin- or pup-tagged proteins to smaller peptides. In this study, we present a series of 92 psoralen derivatives, of which 15 displayed inhibitory potency against the Mycobacterium tuberculosis proteasome in low micromolar concentrations. The best inhibitors, i.e., 8, 11, 13 and 15, exhibited a mixed type of inhibition and overall good inhibitory potency in biochemical assays. N-(cyanomethyl)acetamide 8 (Ki = 5.6 µM) and carboxaldehyde-based derivative 15 (Ki = 14.9 µM) were shown to be reversible inhibitors of the enzyme. On the other hand, pyrrolidine-2,5-dione esters 11 and 13 irreversibly inhibited the enzyme with Ki values of 4.2 µM and 1.1 µM, respectively. In addition, we showed that an established immunoproteasome inhibitor, PR-957, is a noncompetitive irreversible inhibitor of the mycobacterial proteasome (Ki = 5.2 ± 1.9 µM, kinact/Ki = 96 ± 41 M−1·s−1). These compounds represent interesting hit compounds for further optimization in the development of new drugs for the treatment of tuberculosis. [ABSTRACT FROM AUTHOR]

Published

2020

21. Discovery of Immunoproteasome Inhibitors Using Large-Scale Covalent Virtual Screening.

Author

Scarpino, Andrea, Bajusz, Dávid, Proj, Matic, Gobec, Martina, Sosič, Izidor, Gobec, Stanislav, Ferenczy, György G., Keserű, György M., and Gemma, Sandra

Subjects

BORONIC acid derivatives, BORONIC acids, DIGITAL libraries

Abstract

Large-scale virtual screening of boronic acid derivatives was performed to identify nonpeptidic covalent inhibitors of the β5i subunit of the immunoproteasome. A hierarchical virtual screening cascade including noncovalent and covalent docking steps was applied to a virtual library of over 104,000 compounds. Then, 32 virtual hits were selected, out of which five were experimentally confirmed. Biophysical and biochemical tests showed micromolar binding affinity and time-dependent inhibitory potency for two compounds. These results validate the computational protocol that allows the screening of large compound collections. One of the lead-like boronic acid derivatives identified as a covalent immunoproteasome inhibitor is a suitable starting point for chemical optimization. [ABSTRACT FROM AUTHOR]

Published

2019

22. Application of the N-Dibenzyl Protective Group in the Preparation of β-Lactam Pseudopeptides.

Author

Frlan, Rok, Hrast, Martina, Gobec, Stanislav, and Rutledge, Peter J.

Subjects

CRYSTAL structure, RING formation (Chemistry), HETEROCYCLIC compounds, CHEMICAL reactions, NUCLEAR magnetic resonance

Abstract

Despite the great importance of β-lactam antibiotics, there is still a limited number of synthetic approaches for the formation of β-lactam–containing dipeptides. In this study, we report upon the stereoselective preparation of β-lactam–containing pseudopeptides, where different reaction conditions and NH2 protective groups were tested to obtain compounds that contain 3-amino-azetidin-2-one. We demonstrate that the protective group is essential for the outcome of the reaction. Successful implementation of dibenzyl-protected serine-containing dipeptides through the Mitsunobu reaction can provide the desired products at high yields and stereoselectivity. [ABSTRACT FROM AUTHOR]

Published

2019

23. Synthesis of 3-Amino-4-substituted Monocyclic ß-Lactams-Important Structural Motifs in Medicinal Chemistry.

Author

Grabrijan K, Strašek N, and Gobec S

Subjects

Anti-Bacterial Agents pharmacology, Cyclization, Nitrogen chemistry, beta-Lactams pharmacology, Chemistry, Pharmaceutical, beta-Lactams chemical synthesis, beta-Lactams chemistry

Abstract

Monocyclic ß-lactams (azetidin-2-ones) exhibit a wide range of biological activities, the most important of which are antibacterial, anticancer, and cholesterol absorption inhibitory activities. The synthesis of decorated monocyclic ß-lactams is challenging because their ring is highly constrained and consequently reactive, which is also an important determinant of their biological activity. We present the optimized synthesis of orthogonally protected 3-amino-4-substituted monocyclic ß-lactams. Among several possible synthetic approaches, Staudinger cycloaddition proved to be the most promising method for initial ring formation, yielding monocyclic ß-lactams with different substituents at the C-4 position, a phthalimido-protected 3-amino group, and a (dimethoxy)benzyl protected ring nitrogen. Challenging deprotection methods were then investigated. Oxidative cleavage with cerium ammonium nitrate and ammonia-free Birch reduction was found to be most effective for selective removal of ring nitrogen protection. Hydrazine hydrate was used for deprotection of the phthalimido group, and the procedure had to be modified by the addition of HCl in the case of aromatic substituents at the C-4 position. The presented methods and the synthesized 3-amino-4-substituted monocyclic ß-lactam derivatives are an important step toward new ß-lactams with potential pharmacological activities.

Published

2021

24. Design, Synthesis, and Biological Evaluation of 2-(Benzylamino-2-Hydroxyalkyl)Isoindoline-1,3-Diones Derivatives as Potential Disease-Modifying Multifunctional Anti-Alzheimer Agents.

Author

Panek D, Więckowska A, Pasieka A, Godyń J, Jończyk J, Bajda M, Knez D, Gobec S, and Malawska B

Subjects

Amyloid Precursor Protein Secretases antagonists & inhibitors, Amyloid Precursor Protein Secretases chemistry, Butyrylcholinesterase chemistry, Chemistry Techniques, Synthetic, Cholinesterase Inhibitors chemistry, Cholinesterase Inhibitors pharmacology, Dose-Response Relationship, Drug, Hydrogen Bonding, Inhibitory Concentration 50, Isoindoles chemical synthesis, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Docking Simulation, Molecular Dynamics Simulation, Molecular Structure, Structure-Activity Relationship, Drug Design, Isoindoles chemistry, Isoindoles pharmacology

Abstract

The complex nature of Alzheimer's disease calls for multidirectional treatment. Consequently, the search for multi-target-directed ligands may lead to potential drug candidates. The aim of the present study is to seek multifunctional compounds with expected activity against disease-modifying and symptomatic targets. A series of 15 drug-like various substituted derivatives of 2-(benzylamino-2-hydroxyalkyl)isoindoline-1,3-diones was designed by modification of cholinesterase inhibitors toward β-secretase inhibition. All target compounds have been synthesized and tested against eel acetylcholinesterase ( ee AChE), equine serum butyrylcholinesterase ( eq BuChE), human β-secretase ( h BACE-1), and β-amyloid (Aβ-aggregation). The most promising compound, 12 (2-(5-(benzylamino)-4-hydroxypentyl)isoindoline-1,3-dione), displayed inhibitory potency against ee AChE (IC 50 = 3.33 μM), h BACE-1 (43.7% at 50 μM), and Aβ-aggregation (24.9% at 10 μM). Molecular modeling studies have revealed possible interaction of compound 12 with the active sites of both enzymes-acetylcholinesterase and β-secretase., In Conclusion: modifications of acetylcholinesterase inhibitors led to the discovery of a multipotent anti-Alzheimer's agent, with moderate and balanced potency, capable of inhibiting acetylcholinesterase, a symptomatic target, and disease-modifying targets: β-secretase and Aβ-aggregation., Competing Interests: The authors declare no conflict of interest.

Published

2018

25. Design and synthesis of novel N-benzylidenesulfonohydrazide inhibitors of MurC and MurD as potential antibacterial agents.

Author

Frlan R, Kovac A, Blanot D, Gobec S, Pecar S, and Obreza A

Subjects

Catalysis drug effects, Enzyme Inhibitors chemistry, Escherichia coli drug effects, Oxidation-Reduction drug effects, Polymers, Pyridazines chemistry, Rhodanine chemistry, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors pharmacology, Escherichia coli enzymology, Escherichia coli Proteins antagonists & inhibitors, Peptide Synthases antagonists & inhibitors, Pyridazines chemical synthesis, Pyridazines pharmacology

Abstract

A series of novel N-benzylidenesulfonohydrazide compounds were designed and synthesized as inhibitors of UDP-N-acetylmuramic acid: L-alanine ligase (MurC) and UDP-N-acetylmuramoyl-L-alanine: D-glutamate ligase (MurD) from E. coli, involved in the biosynthesis of bacterial cell-walls. Some compounds possessed inhibitory activity against both enzymes with IC(50) values as low as 30 microM. In addition, a new, one-pot synthesis of amidobenzaldehydes is reported.

Published

2008