Editorial: Emerging heterocycles as bioactive compounds

Heterocycles represent a privileged scaffold due to their ability to interact with biological systems via heteroatoms. It is no coincidence that every year the Food and Drug Administration approves numerous new drugs that contain at least one heterocyclic system as active pharmacophoric part in their structure. Many heterocyclic compounds with therapeutic properties, including anticancer, antimicrobial, anti-inflammatory and so on, come from natural sources such as plants and animals, and medicinal chemists very often use them to study their chemical space and improve their biological activity. In fact, several efficient approaches for the formation of aromatic heterocyclic compounds and their derivatives have been described in the literature in the past, but the development of new green synthetic procedures and methodologies for their high-yield synthesis is increasingly in demand in drug discovery program. This Editorial collects recent research progress in the field of medicinal chemistry focused on the synthesis of new bioactive heterocycles of different types of activities, including anticancer, antibacterial and anti-inflammatory

Pyrrolomycins as potential anti-staphylococcal biofilms agents

With the goal of discovering new anti-infective agents active against microbial biofilms, we focused on some natural pyrrolomycins, a family of halogenated pyrrole antibiotics. In this study we investigated the anti-staphylococcal biofilm activity of pyrrolomycins C, D, F1, F2a, F2b, F3 and of the synthesized related compounds I, II, III. The susceptibility of six staphylococcal biofilms was determined by methyltiazotetrazolium (MTT) staining. Most of the compounds were active at concentrations of 1.5 μg/mL with significant inhibition percentages. A few of the compounds were active at the lowest screening concentration of 0.045μg/mL. We also report the population log reduction of activity against the two best biofilm forming S. aureus strains as determined by viable plate counts. In order to adequately assess the utility of these compounds, their toxicity against human cells was evaluated. In conclusion, pyrrolomycins and synthetic derivatives are promising compounds for developing novel effective chemical countermeasures against staphylococcal biofilm

NUOVI DERIVATI 2-ACETAMMIDOBENZAMMIDICI: ATTIVITÀ ANTIPROLIFERATIVA E POSSIBILE MECCANISMO DI AZIONE

Le cinnammido benzammidi rappresentano una classe di sostanze biologicamente attive di grande interesse farmaceutico. Nonostante siano state descritte per svariate attività biologiche, nessun dato è stato riportato sulla loro attivita antitumorale. Inizialmente una serie di 2-cinammidobenzammidi variamente sostituite sono state sintetizzate e valutate per la loro attività antiproliferativa. Partendo dal derivato risultato più attivo, il 2-cinnammido-5-iodobenzammide, che ha mostrato una percentuale di inibizione della crescita sulle K562 del 74% a 10μM, sono stati sintetizzati una serie di derivati al fine di approfondirne la SAR.I composti così ottenuti sono risultati attivi nei confronti di numerose linee cellulari tumorali a concentrazioni micromolari e submicromololari inducendo un blocco del ciclo cellulare delle K562 in fase G2M. Inoltre i derivati sintetizzati sono in grado di indurre apoptosi nelle cellule HEP G2

Composizione e attività biologica di “idrolati” di agrumi

Gli idrolati, o acque aromatiche, sono prodotti naturali ricavati dalla distillazione di piante o parti di piante fresche che conservano intatte le loro proprietà e possono essere utilizzati a diverso scopo1. Essi sono comunemente considerati un sottoprodotto degli oli essenziali, ma in realtà, data la diversa composizione e la conseguente maggiore delicatezza, hanno un loro apprezzabile utilizzo, legato comunque al mantenimento delle proprietà delle piante da cui derivano. Nell’industria agrumaria gli idrolati sono il risultato della produzione degli oli essenziali attraverso spremitura a freddo delle bucce degli agrumi e sono considerati un rifiuto da smaltire. Lo studio della composizione chimica dell’idrolato è poco noto: gli idrolati sono comunque ricchi di composti prevalentemente ossigenati che oltre a conferire un gradevole profumo, possono donargli numerose proprietà biologiche. Abbiamo quindi deciso di intraprenderne uno studio di caratterizzazione LC-MS e GC-MS sull’idrolato dell’arancia di Ribera per identificare sostanze di interesse farmaceutico, cosmetico, ecc. e di possibile attività biologica. Questo potrebbe rappresentare per l’industria agrumaria un valore aggiunto nel valorizzare un prodotto attualmente di scarto. I risultati biologici preliminari hanno indicato che l’estratto organico inibisce la crescita di forme planctoniche di S. Aureus ATCC 25923 ad una concentrazione 5 mg/mL. Sono in corso ulteriori studi per valutare l’attività contro ceppi Gram-negativi e di inibizione di biofilm di Gram-positivi e Gram-negativi. Bibliografia 1 Lante, A.; Tinello, F. Innovative Food Science and Emerging Technologies, 2015, 27, 154–15

Comparative studies of the Pschorr reaction in the pyrazole series. Access to the new dibenzo(e,g)pyrazolo(1,5-a)(1,3)diazocine system of pharmaceutical interest

The diazonium tetrafluoroborate 11 obtained from 2-amino-N-methyl-N-(1-phenyl-3-methylpyrazol-5-yl)benzamide was transformed in dry acetonitrile via an ionic or radical pathway. Diferences were observed with respect to ionic or radical transformations in aqueous media of the analogous diazonium hydrogen sulfate 1 derived from the same amine. In acetonitrile solution, the ionic pathway was characterized by an increased yield of 1,4-dimethyl-3-phenyl-pyrazolo[3,4-c]isoquinolin-5-one 4 and by the formation of its isomer, the new derivative 7,9-dimethyldibenzo[e,g]pyrazolo[1,5-a][1,3]diazocin-10(9H)-one 12. When the reaction folowed a radical pathway, the pyrazolo[3,4-c]isoquinoline derivative 4 and N-methyl-2-(1-phenyl-3-methylpyrazol-5-yl)benzamide 17, the later due to a 1,4-pyrazolyl transfer proces, were isolated in low yields. Decomposition of the solid diazonium tetrafluoroborate at its melting point gave compounds 4, 12 and the N-(1-phenyl-3-methylpyrazol-5-yl)-2-fluorobenzamide 17. The crystal structure of compound 12 was also determined

New Synthetic Nitro-Pyrrolomycins as Promising Antibacterial and Anticancer Agents

Pyrrolomycins (PMs) are polyhalogenated antibiotics known as powerful biologically active compounds, yet featuring high cytotoxicity. The present study reports the antibacterial and antitumoral properties of new chemically synthesized PMs, where the three positions of the pyrrolic nucleus were replaced by nitro groups, aiming to reduce their cytotoxicity while maintaining or even enhancing the biological activity. Indeed, the presence of the nitro substituent in diverse positions of the pyrrole determined an improvement of the minimal bactericidal concentration (MBC) against Gram-positive (i.e., Staphylococcus aureus) or -negative (i.e., Pseudomonas aeruginosa) pathogen strains as compared to the natural PM-C. Moreover, some new nitro-PMs were as active as or more than PM-C in inhibiting the proliferation of colon (HCT116) and breast (MCF 7) cancer cell lines and were less toxic towards normal epithelial (hTERT RPE-1) cells. Altogether, our findings contribute to increase the knowledge of the mode of action of these promising molecules and provide a basis for their rationale chemical or biological manipulation

Novel Sortase A Inhibitors to Counteract Gram-Positive Bacterial Biofilms

Sortase A (SrtA) is a membrane enzyme responsible for the covalent anchoring of surface proteins on the cell wall of Gram-positive bacteria. Nowadays it is considered an interesting target for the development of new anti-infective drugs which aim to interfere with important Gram-positive virulence mechanisms. Along the years, we studied the anti-staphylococcal and anti-biofilm activity of some natural and synthetic polyhalogenated pyrrolic compounds, called pyrrolomycins. Some of them were active on Gram-positive pathogens at a μg/mL range of concentration (1.5-0.045 μg/mL) and showed a biofilm inhibition in the range of 50-80%. [1-3] In light of these encouraging results, herein we present our efforts in the design and synthesis of novel pyrrolomycins. To dispose of sufficient amount for the in-depth in vitro investigation, we developed an efficient and easy-to-use microwave synthetic methodology. All compounds showed a good inhibitory activity toward SrtA, in accordance with the molecular modelling studies, having IC50 values ranging from 130 to 300 µM comparable to berberine hydrochloride, our reference compound. Particularly, the pentabromo-derivative exhibited the highest capability to interfere with biofilm formation of S. aureus with an IC50 of 3.4 nM. This compound was also effective in altering S. aureus murein hydrolase activity, responsible for degradation, turnover, and maturation of bacterial peptidoglycan and involved in the initial stages of S. aureus biofilm formation. [4

THE KEY ROLE OF THE CLINICAL PHARMACIST IN THE MANAGEMENT OF ANTICANCER THERAPIES: A PILOT STUDY IN THE TREATMENT OF PATIENTS WITH NON-SMALL CELL LUNG CANCER

Lung cancer accounts for a quarter of all mortality cases worldwide. To date, numerous efforts have been done to identify the best therapeutic approach, especially in the advanced stage of the disease, and to extend the overall survival of patients. Careful surveillance of patients during therapy is essential in order to identify undesirable effects and to evaluate possible adverse reactions in case of coadministration. This study aims to compare two types of anticancer therapy, immunotherapy and chemotherapy, administered to NSCLC patients in the Medical Oncology Unit of the ARNAS “Di Cristina Benfratelli” Civic Hospital in Palermo (Italy), and to highlight the key role of clinical pharmacist in the management of anticancer therapies, by analysing the side effects in the short-term postadministration and the adverse drug reactions, in particular drug-drug interactions, in case of comorbidities

A Small Chaperone Improves Folding and Routing of Rhodopsin Mutants Linked to Inherited Blindness

The autosomal dominant form of retinitis pigmentosa (adRP) is a blindness-causing conformational disease largely linked to mutations of rhodopsin. Molecular simulations coupled to the graph-based protein structure network (PSN) analysis and in vitro experiments were conducted to determine the effects of 33 adRP rhodopsin mutations on the structure and routing of the opsin protein. The integration of atomic and subcellular levels of analysis was accomplished by the linear correlation between indices of mutational impairment in structure network and in routing. The graph-based index of structural perturbation served also to divide the mutants in four clusters, consistent with their differences in subcellular localization and responses to 9-cis retinal. The stability core of opsin inferred from PSN analysis was targeted by virtual screening of over 300,000 anionic compounds leading to the discovery of a reversible orthosteric inhibitor of retinal binding more effective than retinal in improving routing of three adRP mutants

Synthesized benzamido derivatives exert antiproliferative effects by DNA damage and ROS generation.

In this study we explored the effect and the biological action of synthesized benzamido derivatives bearing the (1S,2S)-2-phenyl-cyclopropane-1-carboxamido, 1,1'-biphen-2-carboxamido and 1,1'-biphen-4-carboxamido moieties on K562, a human leukemia cell line. Among the synthesized compounds a particular antiproliferative action was observed with the benzamido derivative bearing the 2-1,1'-biphenyl moiety with the substitution at the 5 position of the benzamido moiety with iodine. This compound showed cytotoxic effects in K562 leukemic cells at nanomolar concentrations and was, therefore, chosen as compound to explore its mode of action. Our analyses provided evidence that this benzamido derivative induced a reduction in cell number and volume with the appearance of a shrunken cytoplasm at 24h, followed by a widespread cell fragmentation at 48h. As demonstrated by flow cytometry analyses, the effect was dose- and time-dependent, causing a G2/M cell cycle arrest in the first phase of treatment (24h), followed by an apoptotic death at 48h (IC50 0.5 μM ). The elucidation of the underlying mechanism also disclosed that DNA arrest in G2/M phase of cell cycle was consequent to DNA lesions, since an increase in phospho-ATM and yH2AX, two known markers of DNA repair response system, was observed. Prolonging the time of treatment, the effects, which were observed only in leukaemic cells but not in normal bronchial epithelial cells, were accompanied by ROS production, JNK phosphorylation and induction of a caspase-dependent apoptosis