Your search keyword '"Rosa Bellavita"' showing total 18 results

1. Synthesis of temporin L hydroxamate-based peptides and evaluation of their coordination properties with iron(<scp>iii</scp> )

Author

Rosa Bellavita, Linda Leone, Angela Maione, Lucia Falcigno, Gabriella D'Auria, Francesco Merlino, Paolo Grieco, Flavia Nastri, Emilia Galdiero, Angela Lombardi, Stefania Galdiero, Annarita Falanga, Bellavita, Rosa, Leone, Linda, Maione, Angela, Falcigno, Lucia, D'Auria, Gabriella, Merlino, Francesco, Grieco, Paolo, Nastri, Flavia, Galdiero, Emilia, Lombardi, Angela, Galdiero, Stefania, and Falanga., Annarita

Subjects

Inorganic Chemistry

Abstract

Ferric iron is an essential nutrient for bacterial growth. Pathogenic bacteria synthesize iron-chelating entities known as siderophores to sequestrate ferric iron from host organisms in order to colonize and replicate. The development of antimicrobial peptides (AMPs) conjugated to iron chelators represents a promising strategy for reducing iron availability, inducing bacterial death, and enhancing simultaneously the efficacy of AMPs. Here we designed, synthesized, and characterized three hydroxamate-based peptides Pep-cyc1, Pep-cyc2, and Pep-cyc3, derived from a cyclic temporin L peptide (Pep-cyc) developed previously by some of us. The Fe3+ complex formation of each ligand was characterized by UVvisible spectroscopy, mass spectrometry, IR, and NMR spectroscopies. In addition, the effect of Fe3+ on the stabilization of -helix conformation of hydroxamate-based peptides and the cotton effect were examined by CD spectroscopy. Moreover, the antimicrobial results obtained in vitro on some Gram-negative strains (K. Pneumoniae and E. coli) showed the ability of each peptide to chelate efficaciously Fe3+ obtaining a reduction of MIC values in comparison to their parent peptide Pepcyc. Our results demonstrated that siderophore conjugation could increase the efficacy and selectivity of AMPs used for the treatment of infectious diseases caused by Gram-negative pathogens.

Published

2023

2. Unveiling the mechanism of action of acylated temporin L analogues against multidrug-resistant Candida albicans

Author

Rosa Bellavita, Annarita Falanga, Francesco Merlino, Gabriella D’Auria, Nicola Molfetta, Anella Saviano, Francesco Maione, Umberto Galdiero, Maria Rosaria Catania, Stefania Galdiero, Paolo Grieco, Emanuela Roscetto, Lucia Falcigno, Elisabetta Buommino, Bellavita, R., Falanga, A., Merlino, F., D'Auria, G., Molfetta, N., Saviano, A., Maione, F., Galdiero, U., Catania, M. R., Galdiero, S., Grieco, P., Roscetto, E., Falcigno, L., and Buommino, E.

Subjects

Candida albican, Pharmacology, Acylated peptide, Antimicrobial Cationic Peptide, Microbial Sensitivity Test, Drug Resistance, Multiple, Fungal, Drug Discovery, membrane interaction, temporin, Antifungal Agent, Voriconazole, General Medicine, Human

Abstract

The increasing resistance of fungi to conventional antifungal drugs has prompted worldwide the search for new compounds. In this work, we investigated the antifungal properties of acylated Temporin L derivatives, Pent-1B and Dec-1B, against Candida albicans, including the multidrug-resistant strains. Acylated peptides resulted to be active both on reference and clinical strains with MIC values ranging from 6.5 to 26 µM, and they did not show cytotoxicity on human keratinocytes. In addition, we also observed a synergistic or additive effect with voriconazole for peptides Dec-1B and Pent-1B through the checkerboard assay on voriconazole-resistant Candida strains. Moreover, fluorescence-based assays, NMR spectroscopy, and confocal microscopy elucidated a potential membrane-active mechanism, consisting of an initial electrostatic interaction of acylated peptides with fungal membrane, followed by aggregation and insertion into the lipid bilayer and causing membrane perturbation probably through a carpeting effect.

Published

2023

3. Unveiling the mechanism of action of acylated temporin L analogues against multidrug-resistant

Author

Rosa, Bellavita, Falanga, Annarita, Francesco, Merlino, Gabriella, D'Auria, Nicola, Molfetta, Anella, Saviano, Francesco, Maione, Umberto, Galdiero, Maria Rosaria, Catania, Galdiero, Stefania, Paolo, Grieco, Emanuela, Roscetto, Lucia, Falcigno, and Buommino, Elisabetta

Subjects

Antifungal Agents, Drug Resistance, Multiple, Fungal, Candida albicans, Humans, Microbial Sensitivity Tests, Voriconazole, Antimicrobial Cationic Peptides

Abstract

The increasing resistance of fungi to conventional antifungal drugs has prompted worldwide the search for new compounds. In this work, we investigated the antifungal properties of acylated Temporin L derivatives

Published

2022

4. First-in-Class Cyclic Temporin L Analogue: Design, Synthesis, and Antimicrobial Assessment

Author

Bruno Casciaro, Salvatore Di Maro, Floriana Cappiello, Stefania Galdiero, Alfonso Carotenuto, Maria Luisa Mangoni, Diego Brancaccio, Francesco Merlino, Tom N. Grossmann, Ettore Novellino, Paolo Grieco, Rosa Bellavita, Annarita Falanga, Elisabetta Buommino, Organic Chemistry, AIMMS, Bellavita, R., Casciaro, B., Di Maro, S., Brancaccio, D., Carotenuto, A., Falanga, A., Cappiello, F., Buommino, E., Galdiero, S., Novellino, E., Grossmann, T. N., Mangoni, M. L., Merlino, F., and Grieco, P.

Subjects

Cell Survival, Stereochemistry, Rana temporaria, Antimicrobial peptides, Antineoplastic Agents, Microbial Sensitivity Tests, Article, Antineoplastic Agent, Structure-Activity Relationship, chemistry.chemical_compound, Cell Line, Tumor, Anti-Bacterial Agent, Drug Discovery, Animals, Humans, Cell Proliferation, chemistry.chemical_classification, Antimicrobial Cationic Peptide, Bacteria, Dose-Response Relationship, Drug, Molecular Structure, Animal, Microbial Sensitivity Test, Disulfide bond, cyclic peptides, Biological activity, Antimicrobial, Temporin, Cyclic peptide, Anti-Bacterial Agents, temporin L, chemistry, Design synthesis, Drug Design, Lactam, Molecular Medicine, Drug Screening Assays, Antitumor, SDG 6 - Clean Water and Sanitation, Human, Antimicrobial Cationic Peptides

Abstract

The pharmacodynamic and pharmacokinetic properties of bioactive peptides can be modulated by introducing conformational constraints such as intramolecular macrocyclizations, which can involve either the backbone and/or side chains. Herein, we aimed at increasing the α-helicity content of temporin L, an isoform of an intriguing class of linear antimicrobial peptides (AMPs), endowed with a wide antimicrobial spectrum, by the employment of diverse side-chain tethering strategies, including lactam, 1,4-substituted [1,2,3]-triazole, hydrocarbon, and disulfide linkers. Our approach resulted in a library of cyclic temporin L analogues that were biologically assessed for their antimicrobial, cytotoxic, and antibiofilm activities, leading to the development of the first-in-class cyclic peptide related to this AMP family. Our results allowed us to expand the knowledge regarding the relationship between the α-helical character of temporin derivatives and their biological activity, paving the way for the development of improved antibiotic cyclic AMP analogues.

Published

2021

5. Glycosylation and Lipidation Strategies: Approaches for Improving Antimicrobial Peptide Efficacy

Author

Rosa Bellavita, Simone Braccia, Stefania Galdiero, and Annarita Falanga

Subjects

Drug Discovery, Pharmaceutical Science, Molecular Medicine

Abstract

Antimicrobial peptides (AMPs) have recently gained attention as a viable solution for combatting antibiotic resistance due to their numerous advantages, including their broad-spectrum activity, low propensity for inducing resistance, and low cytotoxicity. Unfortunately, their clinical application is limited due to their short half-life and susceptibility to proteolytic cleavage by serum proteases. Indeed, several chemical strategies, such as peptide cyclization, N-methylation, PEGylation, glycosylation, and lipidation, are widely used for overcoming these issues. This review describes how lipidation and glycosylation are commonly used to increase AMPs’ efficacy and engineer novel AMP-based delivery systems. The glycosylation of AMPs, which involves the conjugation of sugar moieties such as glucose and N-acetyl galactosamine, modulates their pharmacokinetic and pharmacodynamic properties, improves their antimicrobial activity, and reduces their interaction with mammalian cells, thereby increasing selectivity toward bacterial membranes. In the same way, lipidation of AMPs, which involves the covalent addition of fatty acids, has a significant impact on their therapeutic index by influencing their physicochemical properties and interaction with bacterial and mammalian membranes. This review highlights the possibility of using glycosylation and lipidation strategies to increase the efficacy and activity of conventional AMPs.

Published

2023

6. gH625-liposomes deliver PACAP through a dynamic

Author

Teresa, Barra, Annarita, Falanga, Rosa, Bellavita, Vincenza, Laforgia, Marina, Prisco, Stefania, Galdiero, and Salvatore, Valiante

Abstract

The blood-brain barrier (BBB) selectively protects the central nervous system (CNS) from external insults, but its function can represent a limit for the passage of therapeutic molecules. Numerous

Published

2022

7. Peptides to Overcome the Limitations of Current Anticancer and Antimicrobial Nanotherapies

Author

Valentina Del Genio, Rosa Bellavita, Annarita Falanga, Katel Hervé-Aubert, Igor Chourpa, Stefania Galdiero, Del Genio, Valentina, Bellavita, Rosa, Falanga, Annarita, Hervé-Aubert, Katel, Chourpa, Igor, and Galdiero, Stefania

Subjects

nanovector, Pharmaceutical Science, antimicrobial, anticancer, drug release, peptide

Abstract

Biomedical research devotes a huge effort to the development of efficient non-viral nanovectors (NV) to improve the effectiveness of standard therapies. NVs should be stable, sustainable and biocompatible and enable controlled and targeted delivery of drugs. With the aim to foster the advancements of such devices, this review reports some recent results applicable to treat two types of pathologies, cancer and microbial infections, aiming to provide guidance in the overall design of personalized nanomedicines and highlight the key role played by peptides in this field. Additionally, future challenges and potential perspectives are illustrated, in the hope of accelerating the translational advances of nanomedicine

Published

2022

8. Antifungal and Antibiofilm Activity of Cyclic Temporin L Peptide Analogues against Albicans and Non-Albicans

Author

Rosa, Bellavita, Angela, Maione, Francesco, Merlino, Antonietta, Siciliano, Principia, Dardano, Luca, De Stefano, Stefania, Galdiero, Emilia, Galdiero, Paolo, Grieco, and Annarita, Falanga

Abstract

Temporins are one of the largest families of antimicrobial peptides with both anti-inflammatory and antimicrobial activity. Herein, for a panel of cyclic temporin L isoform analogues, the antifungal and antibiofilm activities were determined against representative

Published

2022

9. Discovery of a new class of triazole based inhibitors of acetyl transferase KAT2A

Author

Roberta Pacifico, Nunzio Del Gaudio, Guglielmo Bove, Lucia Altucci, Lydia Siragusa, Gabriele Cruciani, Menotti Ruvo, Rosa Bellavita, Paolo Grieco, Mauro F. A. Adamo, Pacifico, Roberta, Del Gaudio, Nunzio, Bove, Guglielmo, Altucci, Lucia, Siragusa, Lydia, Cruciani, Gabriele, Ruvo, Menotti, Bellavita, Rosa, Grieco, Paolo, and Adamo, Mauro F. A.

Subjects

Pharmacology, N-pyridine triazole, Molecular Structure, N-pyridine triazoles, Carboxylic Acids, General Medicine, acetyl transferase, Triazoles, virtual screening, Structure-Activity Relationship, Acetyltransferases, Drug Discovery, KAT2A inhibitor, KAT2A inhibitors, acetyl transferases, anti-cancer

Abstract

We have recently developed a new synthetic methodology that provided both N-aryl-5-hydroxytriazoles and N-pyridine-4-alkyl triazoles. A selection of these products was carried through virtual screening towards targets that are contemporary and validated for drug discovery and development. This study determined a number of potential structure target dyads of which N-pyridinium-4-carboxylic-5-alkyl triazole displayed the highest score specificity towards KAT2A. Binding affinity tests of abovementioned triazole and related analogs towards KAT2A confirmed the predictions of the in-silico assay. Finally, we have run in vitro inhibition assays of selected triazoles towards KAT2A; the ensemble of binding and inhibition assays delivered pyridyl-triazoles carboxylates as the prototype of a new class of inhibitors of KAT2A.

Published

2022

10. Myxinidin-Derived Peptide against Biofilms Caused by Cystic Fibrosis Emerging Pathogens

Author

Rosa Bellavita, Angela Maione, Simone Braccia, Marica Sinoca, Stefania Galdiero, Emilia Galdiero, and Annarita Falanga

Subjects

Stenotrophomonas maltophilia, polymicrobial infections, Organic Chemistry, General Medicine, Catalysis, Computer Science Applications, cystic fibrosis, Inorganic Chemistry, Candida albicans, antimicrobial peptides, Achromobacter xylosoxidans, membrane interaction, antibiofilm activity, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy

Abstract

Chronic lung infections in cystic fibrosis (CF) patients are triggered by multidrug-resistant bacteria such as Pseudomonas aeruginosa, Achromobacter xylosoxidans, and Stenotrophomonas maltophilia. The CF airways are considered ideal sites for the colonization and growth of bacteria and fungi that favor the formation of mixed biofilms that are difficult to treat. The inefficacy of traditional antibiotics reinforces the need to find novel molecules able to fight these chronic infections. Antimicrobial peptides (AMPs) represent a promising alternative for their antimicrobial, anti-inflammatory, and immunomodulatory activities. We developed a more serum-stable version of the peptide WMR (WMR-4) and investigated its ability to inhibit and eradicate C. albicans, S. maltophilia, and A. xylosoxidans biofilms in both in vitro and in vivo studies. Our results suggest that the peptide is able better to inhibit than to eradicate both mono and dual-species biofilms, which is further confirmed by the downregulation of some genes involved in biofilm formation or in quorum-sensing signaling. Biophysical data help to elucidate its mode of action, showing a strong interaction of WMR-4 with lipopolysaccharide (LPS) and its insertion in liposomes mimicking Gram-negative and Candida membranes. Our results support the promising therapeutic application of AMPs in the treatment of mono- and dual-species biofilms during chronic infections in CF patients.

Published

2023

11. Antimicrobial Activity of a Lipidated Temporin L Analogue against Carbapenemase-Producing

Author

Emanuela, Roscetto, Rosa, Bellavita, Rossella, Paolillo, Francesco, Merlino, Nicola, Molfetta, Paolo, Grieco, Elisabetta, Buommino, and Maria Rosaria, Catania

Subjects

Klebsiella pneumoniae, antimicrobial peptides, Temporin L, carbapenemases, healthcare-associated infections, multidrug resistance, ESKAPE, Article

Abstract

Over the years, the increasing acquisition of antibiotic resistance genes has led to the emergence of highly resistant bacterial strains and the loss of standard antibiotics’ efficacy, including β-lactam/β-lactamase inhibitor combinations and the last line carbapenems. Klebsiella pneumoniae is considered one of the major exponents of a group of multidrug-resistant ESKAPE pathogens responsible for serious healthcare-associated infections. In this study, we proved the antimicrobial activity of two analogues of Temporin L against twenty carbapenemase-producing K. pneumoniae clinical isolates. According to the antibiotic susceptibility assay, all the K. pneumoniae strains were resistant to at least one other class of antibiotics, in addition to beta-lactams. Peptides 1B and C showed activity on all test strains, but the lipidated analogue C expressed the greater antimicrobial properties, with MIC values ranging from 6.25 to 25 µM. Furthermore, the peptide C showed bactericidal activity at MIC values. The results clearly highlight the great potential of antimicrobial peptides both as a new treatment option for difficult-to-treat infections and as a new strategy of drug-resistance control.

Published

2021

12. Synthetic Amphipathic β-Sheet Temporin-Derived Peptide with Dual Antibacterial and Anti-Inflammatory Activities

Author

Rosa Bellavita, Elisabetta Buommino, Bruno Casciaro, Francesco Merlino, Floriana Cappiello, Noemi Marigliano, Anella Saviano, Francesco Maione, Rosaria Santangelo, Maria Luisa Mangoni, Stefania Galdiero, Paolo Grieco, Annarita Falanga, Bellavita, Rosa, Buommino, Elisabetta, Casciaro, Bruno, Merlino, Francesco, Cappiello, Floriana, Marigliano, Noemi, Saviano, Anella, Maione, Francesco, Santangelo, Rosaria, Mangoni, Maria Luisa, Galdiero, Stefania, Grieco, Paolo, and Falanga, Annarita

Subjects

physical-chemical property, Microbiology (medical), Temporin L, antimicrobial peptide, anti-inflammatory activity, antimicrobial peptides, peptide hydrophobicity, Biochemistry, Microbiology, Infectious Diseases, Pharmacology (medical), General Pharmacology, Toxicology and Pharmaceutics

Abstract

Temporin family is one of the largest among antimicrobial peptides (AMPs), which act mainly by penetrating and disrupting the bacterial membranes. To further understand the relationship between the physical-chemical properties and their antimicrobial activity and selectivity, an analogue of Temporin L, [Nle1, dLeu9, dLys10]TL (Nle-Phe-Val-Pro-Trp-Phe-Lys-Phe-dLeu-dLys-Arg-Ile-Leu-CONH2) has been developed in the present work. The design strategy consisted of the addition of a norleucine residue at the N-terminus of the lead peptide sequence, [dLeu9, dLys10]TL, previously developed by our group. This modification promoted an increase of peptide hydrophobicity and, interestingly, more efficient activity against both Gram-positive and Gram-negative strains, without affecting human keratinocytes and red blood cells survival compared to the lead peptide. Thus, this novel compound was subjected to biophysical studies, which showed that the peptide [Nle1, dLeu9, dLys10]TL is unstructured in water, while it adopts β-type conformation in liposomes mimicking bacterial membranes, in contrast to its lead peptide forming α-helical aggregates. After its aggregation in the bacterial membrane, [Nle1, dLeu9, dLys10]TL induced membrane destabilization and deformation. In addition, the increase of peptide hydrophobicity did not cause a loss of anti-inflammatory activity of the peptide [Nle1, dLeu9, dLys10]TL in comparison with its lead peptide. In this study, our results demonstrated that positive net charge, optimum hydrophobic−hydrophilic balance, and chain length remain the most important parameters to be addressed while designing small cationic AMPs.

Published

2022

13. Novel Antimicrobial Peptide from Temporin L in The Treatment of

Author

Rosa, Bellavita, Adriana, Vollaro, Maria Rosaria, Catania, Francesco, Merlino, Luisa, De Martino, Francesca Paola, Nocera, Marina, DellaGreca, Francesca, Lembo, Paolo, Grieco, and Elisabetta, Buommino

Subjects

antimicrobial peptides, Temporin L, Malassezia pachydermatis, pets, Staphylococcus pseudintermedius, Article, interkingdom polymicrobial infections

Abstract

Interkingdom polymicrobial diseases are caused by different microorganisms that colonize the same niche, as in the case of yeast-bacteria coinfections. The latter are difficult to treat due the absence of any common therapeutic target for their elimination, both in animals and humans. Staphylococcus pseudintermedius and Malassezia pachydermatis belong to distinct kingdoms. They can colonize the same skin district or apparatus being the causative agents of fastidious pet animals’ pathologies. Here we analysed the antimicrobial properties of a panel of 11 peptides, derived from temporin L, against Malassezia pachydermatis. Only peptide 8 showed the best mycocidal activity at 6.25 μM. Prolonged application of peptide 8 did not cause M. pachydermatis drug-resistance. Peptide 8 was also able to inhibit the growth of Staphylococcus pseudintermedius, regardless of methicillin resistance, at 1.56 μM for methicillin-susceptible S. pseudintermedius (MSSP) and 6.25 μM for methicillin-resistant S. pseudintermedius (MRSP). Of interest, peptide 8 increased the susceptibility of MRSP to oxacillin. Oxacillin MIC value reduction was of about eight times when used in combination with peptide 8. Finally, the compound affected the vitality of bacteria embedded in S. pseudintermedius biofilm. In conclusion, peptide 8 might represent a valid therapeutic alternative in the treatment of interkingdom polymicrobial infections, also in the presence of methicillin-resistant bacteria.

Published

2020

14. Antifungal and Antibiofilm Activity of Cyclic Temporin L Peptide Analogues against Albicans and Non-Albicans Candida Species

Author

Rosa Bellavita, Angela Maione, Francesco Merlino, Antonietta Siciliano, Principia Dardano, Luca De Stefano, Stefania Galdiero, Emilia Galdiero, Paolo Grieco, Annarita Falanga, Bellavita, Rosa, Maione, Angela, Merlino, Francesco, Siciliano, Antonietta, Dardano, Principia, De Stefano, Luca, Galdiero, Stefania, Galdiero, Emilia, Grieco, Paolo, and Falanga, Annarita

Subjects

Galleria mellonella, helical peptide, toxicity, Pharmaceutical Science, Candida strain, biofilm, temporin L, helical peptides, Candida strains

Abstract

Temporins are one of the largest families of antimicrobial peptides with both anti-inflammatory and antimicrobial activity. Herein, for a panel of cyclic temporin L isoform analogues, the antifungal and antibiofilm activities were determined against representative Candida strains, including C. albicans, C. glabrata, C. auris, C. parapsilosis and C. tropicalis. The outcomes indicated a significant anti-candida activity against planktonic and biofilm growth for four peptides (3, 7, 15 and 16). The absence of toxicity up to high concentrations and survival after infection were assessed in vivo by using Galleria mellonella larvae, and the correlation between conformation and cytotoxicity was investigated by fluorescence assays and circular dichroism (CD). By combining fluorescence spectroscopy, CD, dynamic light scattering, confocal and atomic force microscopy, the mode of action of four analogues was hypothesized. The results pinpointed that peptide 3 emerged as a non-toxic compound showing a potent antibiofilm activity and represents a promising compound for biomedical applications.

Published

2022

15. Antiviral Potential of Naphthoquinones Derivatives Encapsulated within Liposomes

Author

Gustavo B. da Silva, Rosa Bellavita, Izabel Christina Nunes de Palmer Paixão, Stefania Galdiero, Viveca Giongo, S.G. De-Simone, Camilly P. Pires De Melo, Annarita Falanga, Giongo, Viveca, Falanga, Annarita, De Melo, Camilly P Pire, da Silva, Gustavo B, Bellavita, Rosa, De-Simone, Salvatore G, Paixão, Izabel C, and Galdiero, Stefania

Subjects

liposome drug carrier, Cell Survival, Pharmaceutical Science, herpes simplex virus type 1, Herpesvirus 1, Human, Pharmacology, Chlorocebus aethiop, Antiviral Agents, Article, Analytical Chemistry, chemistry.chemical_compound, QD241-441, Immune system, Naphthoquinone, In vivo, Phosphatidylcholine, Chlorocebus aethiops, Drug Discovery, medicine, Animals, Humans, Physical and Theoretical Chemistry, Drug Carrier, Vero Cells, Cells, Cultured, Antiviral Agent, Drug Carriers, Liposome, Molecular Structure, Animal, Chemistry, nanoparticle, Organic Chemistry, aminomethylnaphthoquinone, medicine.disease, Cold sore, aminomethylnaphthoquinones, Chemistry (miscellaneous), Liposomes, Vero Cell, Nanoparticles, Molecular Medicine, Amine gas treating, Drug carrier, Human, Naphthoquinones

Abstract

HSV infections, both type 1 and type 2, are among the most widespread viral diseases affecting people of all ages. Their symptoms could be mild, with cold sores up to 10 days of infection, blindness and encephalitis caused by HSV-1 affecting immunocompetent and immunosuppressed individuals. The severe effects derive from co-evolution with the host, resulting in immune evasion mechanisms, including latency and growing resistance to acyclovir and derivatives. An efficient alternative to controlling the spreading of HSV mutations is the exploitation of new drugs, and the possibility of enhancing their delivery through the encapsulation of drugs into nanoparticles, such as liposomes. In this work, liposomes were loaded with a series of 2-aminomethyl- 3-hydroxy-1,4-naphthoquinones derivatives with n-butyl (compound 1), benzyl (compound 2) and nitrobenzene (compound 3) substituents in the primary amine of naphthoquinone. They were previously identified to have significant inhibitory activity against HSV-1. All of the aminomethylnaphthoquinones derivatives encapsulated in the phosphatidylcholine liposomes were able to control the early and late phases of HSV-1 replication, especially those substituted with the benzyl (compound 2) and nitrobenzene (compound 3), which yields selective index values that are almost nine times more efficient than acyclovir. The growing interest of the industry in topical administration against HSV supports our choice of liposome as a drug carrier of aminomethylnaphthoquinones derivatives for formulations of in vivo pre-clinical assays.

Published

2021

16. Temporin L-derived peptide as a regulator of the acute inflammatory response in zymosan-induced peritonitis

Author

Francesco Maione, Ettore Novellino, Rita Santamaria, Asif J. Iqbal, Francesco Merlino, Paolo Grieco, Maria Grazia Ferraro, Federica Raucci, Rosa Bellavita, Carlo Irace, Nicola Mascolo, Marialuisa Piccolo, Bellavita, R., Raucci, F., Merlino, F., Piccolo, M., Ferraro, M. G., Irace, C., Santamaria, R., Iqbal, A. J., Novellino, E., Grieco, P., Mascolo, N., and Maione, F.

Subjects

0301 basic medicine, Male, Antimicrobial peptides, Anti-Inflammatory Agents, Peritonitis, Peptide, Inflammation, RM1-950, Pharmacology, Monocyte, Monocytes, Flow cytometry, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, In vivo, Temporin-L, medicine, Animals, chemistry.chemical_classification, medicine.diagnostic_test, Chemistry, Zymosan, General Medicine, medicine.disease, Temporin, Disease Models, Animal, 030104 developmental biology, 030220 oncology & carcinogenesis, Acute Disease, Therapeutics. Pharmacology, medicine.symptom, Inflammation Mediators, Antimicrobial peptide, Antimicrobial Cationic Peptides

Abstract

Antimicrobial peptides (AMPs) are an ancient group of defense molecules distributed in nature being found in mammals, birds, amphibians, insects, plants, and microorganisms. They display antimicrobial as well as immunomodulatory properties. The aim of this study was to investigate, for the first time, the anti-inflammatory activities of two synthetic temporin-L analogues (here named peptide 1 and 2) by an in vivo model of inflammation caused by intraperitoneal sub-lethal dose of zymosan. Our results show that peptide 1 and 2 exert anti-inflammatory activity in vivo in response to zymosan-induce peritonitis. Simultaneous administration of 10 mg/kg of both temporins, with a sub-lethal dose of zymosan (500 mg/kg), significantly rescued mice from the classical hallmarks of inflammation, including leukocyte infiltration and synthesis of inflammatory mediators including IL-6, TNF-α and MCP-1. More importantly, flow cytometry analysis highlighted a selective modulation of infiltrating inflammatory monocytes (defined as B220−/GR1hi-F480hi/CD115+) after peptide 2 treatment. Our results and presented models offer the possibility to test, in a preclinical setting, the potential of temporin analogues as anti-inflammatory agents.

Published

2019

17. Back Cover: Bicyclic β‐Sheet Mimetics that Target the Transcriptional Coactivator β‐Catenin and Inhibit Wnt Signaling (Angew. Chem. Int. Ed. 25/2021)

Author

Nina-Louisa Efrém, Mathias Wendt, Isabel Everard, Elisabetta Chiarparin, Sven Hennig, Paolo Grieco, Alan Gerber, Mercedes Vazquez-Chantada, Tom N. Grossmann, Nicholas M Pearce, Thirza van Ramshorst, Rosa Bellavita, and Paul R. J. Davey

Subjects

Bicyclic molecule, Chemistry, Catenin, Transcriptional Coactivator, INT, Beta sheet, Wnt signaling pathway, Cover (algebra), General Chemistry, Catalysis, Cell biology

Published

2021

18. Rücktitelbild: Bicyclic β‐Sheet Mimetics that Target the Transcriptional Coactivator β‐Catenin and Inhibit Wnt Signaling (Angew. Chem. 25/2021)

Author

Tom N. Grossmann, Elisabetta Chiarparin, Mathias Wendt, Isabel Everard, Sven Hennig, Mercedes Vazquez-Chantada, Paolo Grieco, Thirza van Ramshorst, Paul R. J. Davey, Alan Gerber, Nina-Louisa Efrém, Nicholas M Pearce, and Rosa Bellavita

Subjects

Bicyclic molecule, Chemistry, Peptidomimetic, Catenin, Transcriptional Coactivator, Beta sheet, Wnt signaling pathway, General Medicine, Cell biology, Protein–protein interaction

Published

2021