Fusidic acid/tea-tree oil nanoemulsions : a potentially safe and effective anti MRSA/MSSA topical agent for chronic wound healing

Fusidic acid (FA) is clinically used as an antibacterial agent for the treatment of Gram-positive bacterial infections. It interferes with bacterial protein synthesis, specifically by preventing the translocation of the elongation factor G on the ribosome. In the present work, oil-in-water nanoemulsion (NE) was developed as a carrier for the transdermal delivery of FA. Different oils, surfactants and co-surfactants were screened. The solubility of FA, the emulsifying capacity of the surfactants and phase diagrams for each oil and surfactant mix were constructed. From the analysis, eight stable NE formulations were chosen, and their physicochemical properties were further evaluated. The antibacterial activity against methicillin-resistant Staphylococcus aureus (MRSA) and methicillin-sensitive Staphylococcus aureus (MSSA) were also evaluated, and cytotoxicity was conducted on HS-27 cell line to determine the safety of the formula. It was found that the NE produced from tea tree oil has the most optimal stability with promising antibacterial activity against MRSA as compared to a commercially available product. The safety profile of the NE was also comparable to the commercial product; thus, the formulated FA-NE is promising for clinical use

Localised Delivery of Cisplatin from Chitosan-Coated Titania Nanotube Array Nanosystems Targeting Nasopharyngeal Carcinoma

Pupose: Cisplatin (CDDP), while amongst the recognised chemotherapeutic drugs currently available, is known to have limitations; the lack of a single treatment approach and non-specific targeted therapies. Therefore, the development of an innovative strategy that could achieve localised CDDP treatment is an urgent undertaking. Recent advances in titania nanotube arrays (TNAs) technology have demonstrated promising applications for localised chemotherapeutic drug treatment. The present work investigated the efficiency of a TNA nanosystem for the localised CDDP treatment of nasopharyngeal carcinoma (NPC). Methods: Two models of the TNA nanosystem were prepared: CDDP loaded onto the TNA nanosystem surface (CDDP-TNA) and the other consisted of chitosan-coated CDDP-TNA. CDDP release from these two nanosystems was comprehensively tested on the NPC cells NPC/HK-1 and C666-1. The NPC cytotoxicity profile of the two CDDP-TNA nanosystems was evaluated after incubation for 24, 48 and 72 hours. Intracellular damage profiles were studied using fluorescence microscopy analysis with Hoechst 33342, acridine orange and propidium iodide. Results: The half-maximal inhibitory concentrations (IC50) of CDDP at 24 hours were 0.50 mM for NPC/HK-1 and 0.05 mM for C666-1. CDDP in the CDDP-TNA and chitosan-coated CDDPTNA models presented a significant degree of NPC inhibition (P<0.05) after 24, 48 and 72 hours of exposure. The outcome revealed cellular damage and shrinkage of the cell membranes after 48 hours of exposure to CDDP-TNA. Conclusion: This in vitro work demonstrated the effectiveness of TNA nanosystems for the localised CDDP treatment of NPC cells. Further in vivo studies are needed to support the findings

Fluorescent Multifunctional Organic Nanoparticles for Drug Delivery and Bioimaging: A Tutorial Review

Fluorescent organic nanoparticles (FONs) are a large family of nanostructures constituted by organic components that emit light in different spectral regions upon excitation, due to the presence of organic fluorophores. FONs are of great interest for numerous biological and medical applications, due to their high tunability in terms of composition, morphology, surface functionalization, and optical properties. Multifunctional FONs combine several functionalities in a single nanostructure (emission of light, carriers for drug-delivery, functionalization with targeting ligands, etc.), opening the possibility of using the same nanoparticle for diagnosis and therapy. The preparation, characterization, and application of these multifunctional FONs require a multidisciplinary approach. In this review, we present FONs following a tutorial approach, with the aim of providing a general overview of the different aspects of the design, preparation, and characterization of FONs. The review encompasses the most common FONs developed to date, the description of the most important features of fluorophores that determine the optical properties of FONs, an overview of the preparation methods and of the optical characterization techniques, and the description of the theoretical approaches that are currently adopted for modeling FONs. The last part of the review is devoted to a non-exhaustive selection of some recent biomedical applications of FONs.This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowka-Curie grant agreement No. 101007804 (Micro4Nano). M.K., N.V., and I.R. acknowledge financial support from the Spanish Ministry of Science and Innovation through the Severo Ochoa Program for Centers of Excellence in R&D (SEV-2015-0496 and CEX2019-000917-S) and through the grant “MOL4BIO” (PID2019-105622RB-I00). K.D.B acknowledges support from the US National Science Foundation (EFMA-2203704) and the National Institutes of Health (R21AA028340).With funding from the Spanish government through the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000917-S).Peer reviewe

Design of targeted photosensitizer-conjugates towards Neuropilin-1 and folate receptors for improving the selectivity of anti-cancer photodynamic therapy

La thérapie photodynamique (PDT) est un type de traitement du cancer qui offre de nombreux avantages. Une stratégie pour améliorer l'efficacité de la PDT est l'élaboration de photosensibilisateurs (PSs) de troisième génération, composés d’une molécule photoactivable couplée à un agent de ciblage. Les travaux de recherche de cette thèse portent sur l'amélioration de la sélectivité du traitement PDT en concevant des PSs ciblés. La première partie de la thèse est consacrée à l'étude d'un PS couplé à de l’acide folique (PS-FA). L’acide folique est une unité bien connue de ciblage qui se lie de façon efficace au récepteur de l'acide folique sur-exprimé à la surface de nombreuses cellules cancéreuses. Nous avons particulièrement vérifié la stabilité de l'acide folique sous l'influence des facteurs environnementaux. La deuxième partie est consacrée à l'étude du peptide KDKPPR conçu pour cibler neuropiline-1, un récepteur surexprimé dans les néovaisseaux. Plusieurs modifications du peptide ont été faites et les analogues ont été testés par des analyses ELISA afin d'évaluer leur capacité de liaison à la suite des modifications. La troisième partie de la thèse a consisté en la synthèse de porphyrines couplées à des blocs porteurs de 1, 2 ou 3 peptides grâce à la technique de chimie click pour former de multiples conjugués avec des nombres différents de porphyrines et peptides attachés aux plateformesPhotodynamic therapy (PDT) is a type of cancer therapy that could offer many advantages. One possible way to improve the effectiveness of PDT is the elaboration of third generation photosensitizers (PSs) which consisted of PSs coupled with targeting agents. This thesis focuses on improving the selectivity of PS delivery through designing targeted PS agents. The first part of the thesis deals with the study of a PS-folic acid (PS-FA). FA is a well-known targeting unit which bonds with high efficiency to folic acid receptor over-expressed on the surface of many cancer cells. We particularly checked the stability of folic acid under the influence of environmental factors. The second part is devoted to the study of KDKPPR peptide designed to target neuropilin-1, a receptor over-expressed in neovessels. Several modifications of the peptide were made and the analogues were tested through ELISA assays to evaluate their binding capability following the modifications. The third part of the thesis is related to the synthesis of porphyrin and peptide building blocks through click chemistry technique to form multiple conjugates with different numbers of porphyrins and peptides attached to the platform

Conception de photosensibilisateurs conjugués ciblant le récepteur Neuropiline-1 ou le récepteur à l'acide folique pour l'amélioration de la sélectivité de la thérapie photodynamique anti-cancéreuse

Photodynamic therapy (PDT) is a type of cancer therapy that could offer many advantages. One possible way to improve the effectiveness of PDT is the elaboration of third generation photosensitizers (PSs) which consisted of PSs coupled with targeting agents. This thesis focuses on improving the selectivity of PS delivery through designing targeted PS agents. The first part of the thesis deals with the study of a PS-folic acid (PS-FA). FA is a well-known targeting unit which bonds with high efficiency to folic acid receptor over-expressed on the surface of many cancer cells. We particularly checked the stability of folic acid under the influence of environmental factors. The second part is devoted to the study of KDKPPR peptide designed to target neuropilin-1, a receptor over-expressed in neovessels. Several modifications of the peptide were made and the analogues were tested through ELISA assays to evaluate their binding capability following the modifications. The third part of the thesis is related to the synthesis of porphyrin and peptide building blocks through click chemistry technique to form multiple conjugates with different numbers of porphyrins and peptides attached to the platformsLa thérapie photodynamique (PDT) est un type de traitement du cancer qui offre de nombreux avantages. Une stratégie pour améliorer l'efficacité de la PDT est l'élaboration de photosensibilisateurs (PSs) de troisième génération, composés d’une molécule photoactivable couplée à un agent de ciblage. Les travaux de recherche de cette thèse portent sur l'amélioration de la sélectivité du traitement PDT en concevant des PSs ciblés. La première partie de la thèse est consacrée à l'étude d'un PS couplé à de l’acide folique (PS-FA). L’acide folique est une unité bien connue de ciblage qui se lie de façon efficace au récepteur de l'acide folique sur-exprimé à la surface de nombreuses cellules cancéreuses. Nous avons particulièrement vérifié la stabilité de l'acide folique sous l'influence des facteurs environnementaux. La deuxième partie est consacrée à l'étude du peptide KDKPPR conçu pour cibler neuropiline-1, un récepteur surexprimé dans les néovaisseaux. Plusieurs modifications du peptide ont été faites et les analogues ont été testés par des analyses ELISA afin d'évaluer leur capacité de liaison à la suite des modifications. La troisième partie de la thèse a consisté en la synthèse de porphyrines couplées à des blocs porteurs de 1, 2 ou 3 peptides grâce à la technique de chimie click pour former de multiples conjugués avec des nombres différents de porphyrines et peptides attachés aux plateforme

Clinical Advances of siRNA-Based Nanotherapeutics for Cancer Treatment

Cancer is associated with single or multiple gene defects. Recently, much research has focused on incorporating genetic materials as one of the means to treat various types of carcinomas. RNA interference (RNAi) conveys an alternative genetic approach for cancer patients, especially when conventional medications fail. RNAi involves the inhibition of expression of specific messenger RNA that signals for uncontrollable cell growth and proliferation, most notably with carcinoma cells. This molecular technology is promising as genetic materials allow us to overcome issues associated with chemotherapeutic agents including organ damage associated with severe drug toxicities. Nonetheless, vast challenges impede successful gene therapy application, including low tumor localization, low stability and rapid clearance from the blood circulation. Owing to the limited treatment opportunities for the management of cancer, the development of effective siRNA carrier systems involving nanotherapeutics has been extensively explored. Over the past years, several siRNA nanotherapeutics have undergone a period of clinical investigation, with some demonstrating promising antitumor activities and safety profiles. Extensive observation of siRNA-nanoparticles is necessary to ensure commercial success. Therefore, this review mainly focuses on the progress of siRNAs-loaded nanoparticles that have undergone clinical trials for cancer treatment. The status of the siRNA nanotherapeutics is discussed, allowing comprehensive understanding of their gene-mediated therapeutics

Cyclic Peptides for the Treatment of Cancers: A Review

Cyclic peptides have been widely reported to have therapeutic abilities in the treatment of cancer. This has been proven through in vitro and in vivo studies against breast, lung, liver, colon, and prostate cancers, among others. The multitude of data available in the literature supports the potential of cyclic peptides as anticancer agents. This review summarizes the findings from previously reported studies and discusses the different cyclic peptide compounds, the sources, and their modes of action as anticancer agents. The prospects and future of cyclic peptides will also be described to give an overview on the direction of cyclic peptide development for clinical applications

Amino-Acid-Conjugated Natural Compounds: Aims, Designs and Results

Protein is one of the essential macronutrients required by all living things. The breakdown of protein produces monomers known as amino acids. The concept of conjugating natural compounds with amino acids for therapeutic applications emerged from the fact that amino acids are important building blocks of life and are abundantly available; thus, a greater shift can result in structural modification, since amino acids contain a variety of sidechains. This review discusses the data available on amino acid&ndash;natural compound conjugates that were reported with respect to their backgrounds, the synthetic approach and their bioactivity. Several amino acid&ndash;natural compound conjugates have shown enhanced pharmacokinetic characteristics, including absorption and distribution properties, reduced toxicity and increased physiological effects. This approach could offer a potentially effective system of drug discovery that can enable the development of pharmacologically active and pharmacokinetically acceptable molecules

The Application of Chemometrics in Metabolomic and Lipidomic Analysis Data Presentation for Halal Authentication of Meat Products

The halal status of meat products is an important factor being considered by many parties, especially Muslims. Analytical methods that have good specificity for the authentication of halal meat products are important as quality assurance to consumers. Metabolomic and lipidomic are two useful strategies in distinguishing halal and non-halal meat. Metabolomic and lipidomic analysis produce a large amount of data, thus chemometrics are needed to interpret and simplify the analytical data to ease understanding. This review explored the published literature indexed in PubMed, Scopus, and Google Scholar on the application of chemometrics as a tool in handling the large amount of data generated from metabolomic and lipidomic studies specifically in the halal authentication of meat products. The type of chemometric methods used is described and the efficiency of time in distinguishing the halal and non-halal meat products using chemometrics methods such as PCA, HCA, PLS-DA, and OPLS-DA is discussed

Cubosomes: Design, Development, and Tumor-Targeted Drug Delivery Applications

Because of the extraordinary advancements in biomedical nanotechnology over the last few decades, traditional drug delivery systems have been transformed into smart drug delivery systems that respond to stimuli. These well-defined nanoplatforms can boost therapeutic targeting efficacy while reducing the side effects/toxicities of payloads, which are crucial variables for enhancing patient compliance by responding to specific internal or external triggers. Cubosomes are lipid-based nano systems that are analogous to well-known vesicular systems, such as lipo- and niosomes. They could be used as part of a unique drug delivery system that includes hydro-, lipo-, and amphiphilic drug molecules. In this review, we critically analyze the relevant literature on cubosomesregarding theories of cubosomeself-assembly, composition, and manufacturing methods, with an emphasis on tumor-targeted drug delivery applications. Due to the bioadhesive and -compatible nature of cubosome dispersion, this review also focuses on a variety of drug delivery applications, including oral, ophthalmic and transdermal