Your search keyword '"Gruzman, Arie"' showing total 5 results

1. Rational Alteration of Pharmacokinetics of Chiral Fluorinated and Deuterated Derivatives of Emixustat for Retinal Therapy.

Author

Blum, Eliav, Zhang, Jianye, Zaluski, Jordan, Einstein, David, Korshin, Edward, Kubas, Adam, Gruzman, Arie, Tochtrop, Gregory, Kiser, Philip, and Palczewski, Krzysztof

Subjects

Amine Oxidase (Copper-Containing), Animals, Cattle, Cell Adhesion Molecules, Crystallography, X-Ray, Deuterium, Drug Design, Eye, Fluorine, Halogenation, Mice, Molecular Structure, Phenyl Ethers, Propanolamines, Protein Binding, Structure-Activity Relationship, cis-trans-Isomerases

Abstract

Recycling of all-trans-retinal to 11-cis-retinal through the visual cycle is a fundamental metabolic pathway in the eye. A potent retinoid isomerase (RPE65) inhibitor, (R)-emixustat, has been developed and tested in several clinical trials; however, it has not received regulatory approval for use in any specific retinopathy. Rapid clearance of this drug presents challenges to maintaining concentrations in eyes within a therapeutic window. To address this pharmacokinetic inadequacy, we rationally designed and synthesized a series of emixustat derivatives with strategically placed fluorine and deuterium atoms to slow down the key metabolic transformations known for emixustat. Crystal structures and quantum chemical analysis of RPE65 in complex with the most potent emixustat derivatives revealed the structural and electronic bases for how fluoro substituents can be favorably accommodated within the active site pocket of RPE65. We found a close (∼3.0 Å) F-π interaction that is predicted to contribute ∼2.4 kcal/mol to the overall binding energy.

Published

2021

2. Development of chiral fluorinated alkyl derivatives of emixustat as drug candidates for the treatment of retinal degenerative diseases.

Author

Blum, Eliav, Zhang, Jianye, Korshin, Edward, Palczewski, Krzysztof, and Gruzman, Arie

Subjects

(R)-MB001, (R)-emixustat, Fluorinated alkyles, RPE65 (Retinal pigment epithelium-specific 65 kDa protein, Retinal, Retinal degeneration, Alkanes, Enzyme Inhibitors, Halogenation, Humans, Isomerism, Models, Molecular, Molecular Conformation, Pharmaceutical Preparations, Phenyl Ethers, Propanolamines, Retina, Retinal Degeneration, Retinaldehyde, Structure-Activity Relationship, cis-trans-Isomerases

Abstract

The discovery of how a photon is converted into a chemical signal is one of the most important achievements in the field of vision. A key molecule in this process is the visual chromophore retinal. Several eye diseases are attributed to the abnormal metabolism of retinal in the retina and the retinal pigment epithelium. Also, the accumulation of two toxic retinal derivatives, N-retinylidene-N-retinylethanolamine and the retinal dimer, can damage the retina leading to blindness. RPE65 (Retinal pigment epithelium-specific 65 kDa protein) is one of the central enzymes that regulates the metabolism of retinal and the formation of its toxic metabolites. Its inhibition might decrease the rate of the retinas degeneration by limiting the amount of retinal and its toxic byproducts. Two RPE65 inhibitors, (R)-emixustat and (R)-MB001, were recently developed for this purpose.

Published

2020

3. Neuroligin-2-derived peptide-covered polyamidoamine-based (PAMAM) dendrimers enhance pancreatic β-cells' proliferation and functions

Author

Munder, Anna, Moskovitz, Yoni, Meir, Aviv, Kahremany, Shirin, Levy, Laura, Kolitz-Domb, Michal, Cohen, Guy, Shtriker, Efrat, Viskind, Olga, Lellouche, Jean-Paul, Senderowitz, Hanoch, Chessler, Steven D, Korshin, Edward E, Ruthstein, Sharon, and Gruzman, Arie

Subjects

Diabetes, Medicinal and Biomolecular Chemistry, Organic Chemistry, Pharmacology and Pharmaceutical Sciences

Abstract

Pancreatic β-cell membranes and presynaptic areas of neurons contain analogous protein complexes that control the secretion of bioactive molecules. These complexes include the neuroligins (NLs) and their binding partners, the neurexins (NXs). It has been recently reported that both insulin secretion and the proliferation rates of β-cells increase when cells are co-cultured with full-length NL-2 clusters. The pharmacological use of full-length protein is always problematic due to its unfavorable pharmacokinetic properties. Thus, NL-2-derived short peptide was conjugated to the surface of polyamidoamine-based (PAMAM) dendrimers. This nanoscale composite improved β-cell functions in terms of the rate of proliferation, glucose-stimulated insulin secretion (GSIS), and functional maturation. This functionalized dendrimer also protected β-cells under cellular stress conditions. In addition, various novel peptidomimetic scaffolds of NL-2-derived peptide were designed, synthesized, and conjugated to the surface of PAMAM in order to increase the biostability of the conjugates. However, after being covered by peptidomimetics, PAMAM dendrimers were inactive. Thus, the original peptide-based PAMAM dendrimer is a leading compound for continued research that might provide a unique starting point for designing an innovative class of antidiabetic therapeutics that possess a unique mode of action.

Published

2019

4. Neuroligin-2-derived peptide-covered polyamidoamine-based (PAMAM) dendrimers enhance pancreatic β-cells' proliferation and functions.

Author

Munder, Anna, Moskovitz, Yoni, Meir, Aviv, Kahremany, Shirin, Levy, Laura, Kolitz-Domb, Michal, Cohen, Guy, Shtriker, Efrat, Viskind, Olga, Lellouche, Jean-Paul, Senderowitz, Hanoch, Chessler, Steven D, Korshin, Edward E, Ruthstein, Sharon, and Gruzman, Arie

Subjects

Medicinal And Biomolecular Chemistry, Organic Chemistry, Pharmacology And Pharmaceutical Sciences, Medicinal and Biomolecular Chemistry, Pharmacology and Pharmaceutical Sciences

Abstract

Pancreatic β-cell membranes and presynaptic areas of neurons contain analogous protein complexes that control the secretion of bioactive molecules. These complexes include the neuroligins (NLs) and their binding partners, the neurexins (NXs). It has been recently reported that both insulin secretion and the proliferation rates of β-cells increase when cells are co-cultured with full-length NL-2 clusters. The pharmacological use of full-length protein is always problematic due to its unfavorable pharmacokinetic properties. Thus, NL-2-derived short peptide was conjugated to the surface of polyamidoamine-based (PAMAM) dendrimers. This nanoscale composite improved β-cell functions in terms of the rate of proliferation, glucose-stimulated insulin secretion (GSIS), and functional maturation. This functionalized dendrimer also protected β-cells under cellular stress conditions. In addition, various novel peptidomimetic scaffolds of NL-2-derived peptide were designed, synthesized, and conjugated to the surface of PAMAM in order to increase the biostability of the conjugates. However, after being covered by peptidomimetics, PAMAM dendrimers were inactive. Thus, the original peptide-based PAMAM dendrimer is a leading compound for continued research that might provide a unique starting point for designing an innovative class of antidiabetic therapeutics that possess a unique mode of action.

Published

2019

5. An Expedient Synthesis of CMF-019: (S)-5-Methyl-3-{1-(pentan-3-yl)-2- (thiophen-2-ylmethyl)-1H-benzo[d]imidazole-5-carboxamido}hexanoic Acid, a Potent Apelin Receptor (APJ) Agonist.

Author

Trifonov, Lena, Afri, Michal, Palczewski, Krzysztof, Korshin, Edward, and Gruzman, Arie

Subjects

CMF-019, apelin, apelin receptor, benzimidazole scaffold, expedient synthesis, peptidomimetics., Amino Acids, Branched-Chain, Apelin Receptors, Benzimidazoles, Molecular Structure

Abstract

BACKGROUND: Apelin receptor (APJ) is a G protein-coupled receptor (GPCR) activated by the endogenous peptide apelin. The apelin-APJ system has emerged as an important regulator of cardiovascular homeostasis. Recently, a potent benzimidazole-derived apelin peptidomimetic, CMF-019, was patented but without a comprehensive description of its synthesis and a complete spectroscopic characterization of the intermediates. OBJECTIVE: Here, a detailed preparation of CMF-019 through a modified and improved synthetic pathway is described. METHOD: In particular, the benzimidazole ring in 7 was tailored by the condensation of methyl 3- amino-4-(pentan-3-ylamino)benzoate (4) with (thiophene-2-yl)acetimidate salt 6. Saponification of 7 and the subsequent condensation of the free acid 8 with the corresponding enantiopure β-amino acid methyl ester generated methyl (S)-5-methyl-3-{1-(pentan-3-yl)-2-(thiophen-2-ylmethyl)-1Hbenzo[ d]imidazole-5-carboxamido}hexanoate (9). Hydrolysis of the latter with KOH in THF/water, followed by HPLC-purification, afforded the desired product, CMF-019 (potassium salt) 10. RESULTS & CONCLUSION: The approach reported herein enables preparation of 10 at a total yield of 12% over seven linear steps. Additionally, it does not require applying expensive designated microwave reactors and high-pressure hydrogenators. Thus, the elaborate synthesis provides a latent availability of potent agonist 10 for further exploring the physiologically essential apelin-APJ system.

Published

2018