Investigating the Mechanism of Antimycobacterial and Antiproliferative Activity of (E)-N'-Benzylidenepyrazine-2-Carbohydrazides and their Derivatives.

A series of 33 (E)-N'-benzylidenepyrazine-2-carbohydrazides and their derivatives were synthesized and tested for biological activity. Benzylidene derivatives with 2-OH substitution on the phenyl ring (18: R = 2-OH, 21: R = 2,3-diOH, and 22: R = 2,4-diOH) exhibit various biological activities. Compounds 18 and 21 demonstrate antimycobacterial activity against Mycobacterium tuberculosis H37Ra, M.

Repurposing of FDA-Approved Drugs to Disrupt Iron Uptake in Mycobacterium abscessus: Targeting Salicylate Synthase as a Novel Approach.

Non-tuberculous mycobacteria (NTM) are opportunistic pathogens that lead to severe, persistent infections, particularly in immunocompromised or vulnerable individuals. Infection rates are rising worldwide, highlighting NTM as an increasing threat to public health. There are currently no specific drugs, and the recommended regimens are usually ineffective.

Nature-Inspired Compounds Targeting Escherichia coli WrbA as Biofilm-Modulating Agents: Computational Design, Synthesis, and Biological Evaluation.

Biofilms pose significant challenges in multiple settings due to their resistance to conventional treatments. In this study, we designed and synthesized a novel class of nature-inspired 5,7-dihydroxy-2,2-dimethylchroman-4-one derivatives as binders of WrbA, a potential target for biofilm modulation. Using a structure-based computational approach, a small library of analogs with varied amide moieties was developed and synthesized.

Targeting Ubiquitin-Specific Protease 7 with Novel 5-Amino-Pyrazole Inhibitors: Design, Synthesis, and Biological Evaluation.

To further extend the structure-activity relationships (SARs) of the previously published ubiquitin-specific protease 7 (USP-7) inhibitor STIRUR-41, a small library of 5-aminopyrazoles 1a-d and 2a-d is designed and synthesized. The chemical identity of the desired structure is confirmed by nuclear magnetic resonance and single crystal X-ray diffraction analyses. All novel derivatives are tested as potential USP-7 inhibitors and compounds 1a-d block enzyme activity in a dose-dependent manner and with lower IC values compared to the lead compound STIRUR-41.

Enhancing the activity of γ-hydroxy lactone derivatives as innovative peroxisome proliferator-activated receptor γ non-agonists inhibiting cyclin-dependent kinase 5-mediated phosphorylation.

Insulin resistance (IR) is a pathological condition in which tissues exhibit a reduced response to normal or elevated levels of insulin. Type 2 diabetes mellitus (T2DM) and Metabolic Syndrome are the most prevalent disorders associated with IR. Most of the glitazones, traditional anti-diabetic drugs acting as Peroxisome Proliferator-Activated Receptor γ (PPARγ) agonists, have been withdrawn from the market.

Novel Quinazolinones Active against Multidrug-Resistant Mycobacterium Tuberculosis: Synthesis, Antimicrobial Evaluation, and in Silico Exploration of Penicillin-Binding Protein 1A as a Potential Target.

Quinazolinone derivatives have emerged as promising scaffolds in antimicrobial drug discovery. This work focuses on the design, synthesis, and evaluation of novel quinazolinone-based compounds and predicts their potential to interact with mycobacterial penicillin-binding proteins (PBPs). Relying on established structure-activity relationships of antibacterial quinazolinones, a total of 53 compounds belonging to three different structural types are synthesized and biologically evaluated for antimycobacterial, antibacterial, and antifungal activities.

Nanoenabling MbtI Inhibitors for Next-Generation Tuberculosis Therapy.

The urgent need for safer and innovative antitubercular agents remains a priority for the scientific community. In pursuit of this goal, we designed and evaluated novel 5-phenylfuran-2-carboxylic acid derivatives targeting () salicylate synthase (MbtI), a key enzyme, absent in humans, that plays a crucial role in virulence. Several potent MbtI inhibitors demonstrating significant antitubercular activity and a favorable safety profile were identified.

Novel non-peptide uracil-derived human gonadotropin-releasing hormone receptor antagonists.

Gonadotropin-releasing hormone (GnRH) is the main regulator of the reproductive system, acting on gonadotropic cells by binding to the GnRH1 receptor (GnRH1R). Traditionally, therapies targeting this receptor have relied on peptide modulators, which required subcutaneous or intramuscular injections. Due to the limitations of the parenteral administrations, there is a growing interest in developing oral small molecule modulators of GnRH1R as more convenient therapeutic alternatives.

A hit expansion of 3-benzamidopyrazine-2-carboxamide: Toward inhibitors of prolyl-tRNA synthetase with antimycobacterial activity.

This study presents an exploration of the chemical space around derivatives of 3-benzamidopyrazine-2-carboxamides, previously identified as potent antimycobacterial compounds with predicted binding to mycobacterial prolyl-transfer RNA synthetase. New urea derivatives (Series-1) were generally inactive, probably due to their preference for cis-trans conformation (confirmed by density functional theory calculations and experimentally by nuclear overhauser effect spectroscopy NMR). Series-2 (3-benzamidopyrazine-2-carboxamides with disubstituted benzene ring) demonstrated that substituents larger than fluorine are not tolerated in the ortho position of the benzene ring.

Novel Antibacterial Agents 2022.

This Special Issue contains 16 original articles, 3 reviews, and 1 communication [...

Eco-Friendly Bio-Based Solvents for the Acetylation of the Amino Group of Amino Acids.

Nature-derived products, like juices and peel extracts of fruits and vegetables, have emerged in recent years as interesting and sustainable alternatives to traditional solvents in several synthetic applications. Herein, we present a green and fast method for the N-acetylation of amino acids, using several bio-based solvents (vinegar, tomato/kiwi/apple peel extracts, lemon juice, etc.).

Structural basis for specific inhibition of salicylate synthase from Mycobacterium abscessus.

Blocking iron uptake and metabolism has been emerging as a promising therapeutic strategy for the development of novel antimicrobial compounds. Like all mycobacteria, M. abscessus (Mab) has evolved several countermeasures to scavenge iron from host carrier proteins, including the production of siderophores, which play a crucial role in these processes.

Synthesis and Characterization of New Triazole-Bispidinone Scaffolds and Their Metal Complexes for Catalytic Applications.

Bispidines are a family of ligands that plays a pivotal role in various areas of coordination chemistry, with applications in medicinal chemistry, molecular catalysis, coordination polymers synthesis, and molecular magnetism. In the present work, triazole moieties were introduced using the CuAAC click-reaction, with the aim of expanding the number of coordination sites on the bispidine core. The 1,2,3-triazole rings were thus synthesized on propargyl-derived bispidines after reaction with different alkyl azides.

Biological Screening and Crystallographic Studies of Hydroxy γ-Lactone Derivatives to Investigate PPARγ Phosphorylation Inhibition.

PPARγ represents a key target for the treatment of type 2 diabetes and metabolic syndrome. To avoid serious adverse effects related to the PPARγ agonism profile of traditional antidiabetic drugs, a new opportunity is represented by the development of molecules acting as inhibitors of PPARγ phosphorylation by the cyclin-dependent kinase 5 (CDK5). Their mechanism of action is mediated by the stabilization of the PPARγ β-sheet containing Ser273 (Ser245 in PPARγ isoform 1 nomenclature).

Elagolix Sodium Salt and Its Synthetic Intermediates: A Spectroscopic, Crystallographic, and Conformational Study.

Elagolix sodium salt is the first marketed orally active non-peptide gonadotropin-releasing hormone receptor antagonist (GnRHR-ant) for the management of hormone dependent diseases, such as endometriosis and uterine fibroids. Despite its presence on the market since 2018, a thorough NMR analysis of this drug, together with its synthetic intermediates, is still lacking. Hence, with the aim of filling this literature gap, we here performed a detailed NMR investigation, which allowed the complete assignment of the H, C, and N NMR signals.

Iron Acquisition and Metabolism as a Promising Target for Antimicrobials (Bottlenecks and Opportunities): Where Do We Stand?

The emergence of multidrug-resistant (MDR) and extensively drug-resistant (XDR) infections is one of the most crucial challenges currently faced by the scientific community. Developments in the fundamental understanding of their underlying mechanisms may open new perspectives in drug discovery. In this review, we conducted a systematic literature search in PubMed, Web of Science, and Scopus, to collect information on innovative strategies to hinder iron acquisition in bacteria.

Targeting Siderophore-Mediated Iron Uptake in : A New Strategy to Limit the Virulence of Non-Tuberculous Mycobacteria.

Targeting pathogenic mechanisms, rather than essential processes, represents a very attractive approach for the development of new antimycobacterial drugs. In this context, iron acquisition routes have recently emerged as potentially druggable pathways. However, the importance of siderophore biosynthesis in the virulence and pathogenicity of () is still poorly understood.

Synthesis and Conformational Analysis of Hydantoin-Based Universal Peptidomimetics.

The synthesis of a collection of enantiomerically pure, systematically substituted hydantoins as structural privileged universal mimetic scaffolds is presented. It relies on a chemoselective condensation/cyclization domino process between isocyanates of quaternary or unsubstituted α-amino esters and -alkyl aspartic acid diesters followed by standard hydrolysis/coupling reactions with amines, using liquid-liquid acid/base extraction protocols for the purification of the intermediates. Besides the nature of the α carbon on the isocyanate moiety, either a quaternary carbon or a more flexible methylene group, conformational studies (molecular modeling), in solution (NMR, circular dichroism (CD), Fourier transform infrared (FTIR)), and in solid state (X-ray) showed that the presented hydantoin-based peptidomimetics are able to project their substituents in positions superimposable to the side chains of common protein secondary structures such as α-helix and β-turn, being the open α-helix conformation slightly favorable according to molecular modeling, while the closed β-turn conformation preferred in solution and in solid state.

Synthesis and Assessment of the In Vitro and Ex Vivo Activity of Salicylate Synthase (Mbti) Inhibitors as New Candidates for the Treatment of Mycobacterial Infections.

Tuberculosis (TB) causes millions of deaths every year, ranking as one of the most dangerous infectious diseases worldwide. Because several pathogenic strains of () have developed resistance against most of the established anti-TB drugs, new therapeutic options are urgently needed. An attractive target for the development of new anti-TB agents is the salicylate synthase MbtI, the first enzyme of the mycobacterial siderophore biochemical machinery, absent in human cells.

Insights on the Modulation of SIRT5 Activity: A Challenging Balance.

SIRT5 is a member of the Sirtuin family, a class of deacetylating enzymes consisting of seven isoforms, involved in the regulation of several processes, including gene expression, metabolism, stress response, and aging. Considering that the anomalous activity of SIRT5 is linked to many pathological conditions, we present herein an overview of the most interesting modulators, with the aim of contributing to further development in this field.

Virtual screening and crystallographic studies reveal an unexpected γ-lactone derivative active against MptpB as a potential antitubercular agent.

Mycobacterial resistance is a rapidly increasing phenomenon requiring the identification of new drugs effective against multidrug-resistant pathogens. The inhibition of protein tyrosine phosphatase B (MptpB), which interferes with host immune responses, may provide a new strategy to fight tuberculosis (TB), while preventing cross-resistance issues. On this basis, starting from a virtual screening (VS) campaign and subsequent structure elucidation studies guided by X-ray analyses, an unexpected γ-lactone derivative (compound 1) with a significant enzymatic activity against MptpB was identified.

An Outline of the Latest Crystallographic Studies on Inhibitor-Enzyme Complexes for the Design and Development of New Therapeutics against Tuberculosis.

The elucidation of the structure of enzymes and their complexes with ligands continues to provide invaluable insights for the development of drugs against many diseases, including bacterial infections. After nearly three decades since the World Health Organization's (WHO) declaration of tuberculosis (TB) as a global health emergency, () continues to claim millions of lives, remaining among the leading causes of death worldwide. In the last years, several efforts have been devoted to shortening and improving treatment outcomes, and to overcoming the increasing resistance phenomenon.

Vecuronium bromide and its advanced intermediates: A crystallographic and spectroscopic study.

Vecuronium bromide (Piperidinium, 1-[(2β,3α,5α,16β,17β)-3,17-bis(acetyloxy)-2-(1-piperidinyl)androstan-16-yl]-1-methyl-, bromide; Norcuron®) has been extensively used in anesthesiology practice as neuromuscular blocking agent since its launch on the market in 1982. However, a detailed crystallographic and NMR analysis of its advanced synthetic intermediates is still lacking. Hence, with the aim of filling this literature gap, vecuronium bromide was prepared starting from the commercially available 3β-hydroxy-5α-androstan-17-one (epiandrosterone), implementing some modifications to a traditional synthetic procedure.