Your search keyword '"synthetic vesicles"' showing total 14 results

1. Synthetic vesicles from stimuli-responsive amphiphiles

Author

Li, Wen, Pritchard, Robin, and Webb, Simon

Subjects

540, Synthetic Vesicles, Surfactants, Dynamic amphiphiles, Graphene, Photochemistry, DCC

Abstract

The design of stimuli-responsive vesicles that become permeable, disassemble, or change shape in response to an external trigger or oscillating signal is a promising strategy in the development of drug delivery systems and soft materials, and may assist in the understanding of artificial cells and synthetic tissue. A cationic quaternary surfactant DDAB-CHO 19 has been synthesized that is structurally analogous to didodecyldimethylammonium bromide 1 (DDAB), but bears an aldehyde at the terminus of one lipid chain. Initially assemblies at thermodynamic equilibrium were created from this lipid. The addition of amines to suspensions of this aldehyde surfactant gave exchangeable 'iminolipids' that self-assembled into vesicles in water. Any surfactant library obtained might make it possible to encourage interactions with specific materials and surfaces, providing a cationic hydrophilic coating surface. Then two approaches to forming assemblies under non-equilibrium conditions were explored. To create light-sensitive amphiphiles, a traceless method of removing hydrophilic solubilizing groups photochemically using diazene chemistry was explored. After uncaging this could give unfunctionalised hydrophobic alkyl groups that drive self-assembly in water. Furthermore the sulfite responsiveness of aldehydic amphiphiles was explored. Aldehydic amphiphiles were reacted with bisulfite-sulfite buffer to give a clock reaction. In combination with continuously stirred tank reactor (CSTR) this could generate an aldehyde-sulfite oscillating system which could produce pulses of self-assembled structures (e.g., vesicles).

Published

2017

2. Corrigendum: Augmented COlorimetric NANoplasmonic (CONAN) Method for Grading Purity and Determine Concentration of EV Microliter Volume Solutions

Author

Andrea Zendrini, Lucia Paolini, Sara Busatto, Annalisa Radeghieri, Miriam Romano, Marca H. M. Wauben, Martijn J. C. van Herwijnen, Peter Nejsum, Anne Borup, Andrea Ridolfi, Costanza Montis, and Paolo Bergese

Subjects

extracellular vesicles, synthetic vesicles, liposomes, purity, titration, particle number, Biotechnology, TP248.13-248.65

Published

2021

3. Augmented COlorimetric NANoplasmonic (CONAN) Method for Grading Purity and Determine Concentration of EV Microliter Volume Solutions

Author

Andrea Zendrini, Lucia Paolini, Sara Busatto, Annalisa Radeghieri, Miriam Romano, Marca H. M. Wauben, Martijn J. C. van Herwijnen, Peter Nejsum, Anne Borup, Andrea Ridolfi, Costanza Montis, and Paolo Bergese

Subjects

extracellular vesicles, synthetic vesicles, liposomes, purity, titration, particle number, Biotechnology, TP248.13-248.65

Abstract

This protocol paper describes how to assign a purity grade and to subsequently titrate extracellular vesicle (EV) solutions of a few microliters in volume by microplate COlorimetric NANoplasmonic (CONAN) assay. The CONAN assay consists of a solution of gold nanoparticles (AuNPs) into which the EV preparation is added. The solution turns blue if the EV preparation is pure, whereas it stays red if soluble exogenous single and aggregated proteins (SAPs; often referred to as protein contaminants) are present. The color change is visible by the naked eye or can be quantified by UV-Vis spectroscopy, providing an index of purity (a unique peculiarity to date). The assay specifically targets SAPs, and not the EV-related proteins, with a detection limit

Published

2020

4. Rethinking Schistosomiasis Vaccine Development: Synthetic Vesicles.

Author

Egesa, Moses, Hoffmann, Karl F., Hokke, Cornelis H., Yazdanbakhsh, Maria, and Cose, Stephen

Subjects

*SCHISTOSOMIASIS, *VACCINES, *ORGANELLES, *BIOLOGICALS, *VESICLES (Cytology), *ANTIGENS, *IMMUNE complexes

Abstract

There is currently no vaccine against schistosomiasis. With few Schistosoma vaccine candidates in clinical trials, unexplored antigens from the vulnerable schistosomulum should be considered as possible vaccine candidates. In addition, we suggest developing synthetic vesicles as a new delivery vehicle and adjuvant for immunoprophylactic schistosomula vaccine candidates. [ABSTRACT FROM AUTHOR]

Published

2017

5. Vesicles in Nature and the Laboratory: Elucidation of Their Biological Properties and Synthesis of Increasingly Complex Synthetic Vesicles.

Author

Fernandez-Trillo, Francisco, Grover, Liam M., Stephenson-Brown, Alex, Harrison, Paul, and Mendes, Paula M.

Subjects

*VESICLES (Cytology), *EXOCYTOSIS, *ENDOCYTOSIS, *PHAGOCYTOSIS, *CHEMICAL synthesis

Abstract

The important role of vesicles in many aspects of cell function is well-recognized, but only recently have sophisticated imaging techniques begun to reveal their ubiquity in nature. While we further our understanding of the biological properties of vesicles and their physiological functions, increasingly elegant artificial vesicles are being developed for a wide range of technological applications and basic research. Herein, we examine the state of the art of biological and synthetic vesicles and place their biological features in the context of recent synthetic developments, thus providing a unique overview of these complex and rapidly developing fields. The challenges and opportunities associated with future biological and synthetic studies of vesicles are also presented. [ABSTRACT FROM AUTHOR]

Published

2017

6. Corrigendum: Augmented COlorimetric NANoplasmonic (CONAN) Method for Grading Purity and Determine Concentration of EV Microliter Volume Solutions

Author

Zendrini, Andrea, Paolini, Lucia, Busatto, Sara, Radeghieri, Annalisa, Romano, Miriam, Wauben, Marca H M, van Herwijnen, Martijn J C, Nejsum, Peter, Borup, Anne, Ridolfi, Andrea, Montis, Costanza, Bergese, Paolo, Zendrini, Andrea, Paolini, Lucia, Busatto, Sara, Radeghieri, Annalisa, Romano, Miriam, Wauben, Marca H M, van Herwijnen, Martijn J C, Nejsum, Peter, Borup, Anne, Ridolfi, Andrea, Montis, Costanza, and Bergese, Paolo

Abstract

A Corrigendum on Augmented COlorimetric NANoplasmonic (CONAN) Method for Grading Purity and Determine Concentration of EV Microliter Volume Solutions by Zendrini, A., Paolini, L., Busatto, S., Radeghieri, A., Romano, M., Wauben, M. H. M., et al. (2020). Front. Bioeng. Biotechnol. 7:452. doi: 10.3389/fbioe.2019.00452

Published

2021

7. Evaluation of testicular tissue of adult rats treated with cisplatin incorporated into the liposome.

Author

Favareto, Ana Paula Alves, Nogueira, Lázaro Cícero, Pontes, Davi Abeid, de Fátima Paccola Mesquita, SuZana, and Camargo, Isabel Cristina Cherici

Abstract

ABSTRACT Cisplatin (CPL) is one of the most widely used and effective chemotherapeutic agents for the treatment of several human malignancies. However, it causes serious side effects, especially on reproduction. In order to reduce the undesirable effects caused by many drugs, liposomes have been used as a good system for drug delivery. The aim of this study was to investigate, for the first time, the effects of CPL incorporated into the dipalmitoyl phosphatidylcholine liposome (DPPC) on the testicular tissue of adult Wistar rats. The animals ( n = 20) were distributed into four experimental groups: (a) control (distillated water); (b) liposome (DPPC, 1 mL), (c) cisplatin incorporated into liposome (CPL/DPPC), and (d) CPL (8 mg/kg body weight). The animals received a single intraperitoneal injection and were killed 10 days after each treatment for histopathological analysis of testes. The results showed that the testicular histomorphometric parameters in rats of DPPC and CPL/DPPC groups were similar to those of the control group. Meanwhile, rats of the CPL-treated group showed a variety of morphological alterations, including atrophy of seminiferous tubules and presence of multinucleated cells in the germinal epithelium. The incorporation of CPL into the liposome had no influence on the testicular weight or any other stereological parameters, but it was beneficial in maintaining the body weight of the animals. In conclusion, the liposome suppressed the cytotoxic effects caused by cisplatin in the testes of rats, suggesting a possible use in chemotherapy against cancer to reduce the side effects seen on reproduction. Microsc. Res. Tech. 78:323-329, 2015. © 2015 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2015

8. Preparation, characterization and biodistribution of a mixed 131I-Hippuran loaded liposome system

Author

Sawas-Dimopoulou, C., Panagi, Z., Ithakissios, D., Paleos, C. M., Kilian, H. -G., editor, Lagaly, G., editor, Laggner, P., editor, and Glatter, O., editor

Published

1993

9. Reversibility of Thermal Transitions in Dilute Dioctadecyl-Dimethyl-Ammonium Bromide Vesicles.

Author

Feitosa, Eloi and Adati, Renata D.

Subjects

*AMMONIUM bromide, *DIFFERENTIAL scanning calorimetry, *COLLOIDS, *HYSTERESIS, *ENTHALPY

Abstract

Dioctadecyl-dimethyl-ammonium bromide (DODAB) vesicles can be characterized by their differential scanning calorimetry (DSC) thermograms comprised of two endotherms at T ≈ 36 °C and T ≈ 45 °C in the heating, ascribed respectively to the subgel-to-gel and gel-to-liquid crystalline transitions, and two exotherms at T′ ≈ 40 °C and T′ ≈ 16 °C in the cooling, ascribed respectively to the liquid crystalline-to-gel and gel-to-subgel transitions. It has been reported but not proved that the T-transitions, the T′-transitions, the T-transitions, and the T′-transitions are reverse to each other, displaying hystheresis Δ T ≈ 5 °C and Δ T ≈ 20-25 °C, respectively. By investigating the effects of the initial scanning temperature ( T) on the transition enthalpies (Δ H, Δ H, Δ H′ and Δ H′), we have seen that these transitions are the reverse to each other and display different kinetics. [ABSTRACT FROM AUTHOR]

Published

2014

10. Alginate-Chitosan synthetic vesicles as a promising Inhibin-A delivery system for acute kidney injury therapy

Author

A. Aloisi(1), F. Sallustio(2), C. C. Toma (1, E. Marulli (3), C. Curci (2), F. P. Schena(2), and R. Rinaldi(1

Subjects

polymer, alginate, chitosan, synthetic vesicles, delivery, microfluidic

Abstract

Acute kidney injury (AKI) is an emergent public health problem that affects millions of patients worldwide. Several pharmacologic therapies that can accelerate recovery and improve survival were successful in experimental models but failed to manifest any significant beneficial effect in clinical practice [1]. Recent studies have indicated that adult renal stem/progenitor cells (ARPCs) are able to repair damaged renal proximal tubular epithelial cells (RPTECs) in AKI induced by toxic agents, via the secretion of both inhibin-A (INHB-A), FGF2 chemokines and specific microvesicle-vehicled mRNA [2]. Our goal was to synthesize a natural polymer-based nanosystem for efficacious delivery of INHB-A. Alginate (AL) and chitosan (CS), due to their promising properties are being exploited for the development of drug delivery systems [3]. INHB-Aloaded Polysaccharides Synthetic Vesicles (INHB-A-PSSV) were synthesized by two steps methods: ionotropic pre-gelation of AL core, followed by CS polyelectrolyte complexation. A microfluidic device was appositely fabricated in order to optimize the INHB-PSSV -at interface-assembly process, in terms of polymers and INHB-A working amount as well as vesicles size distribution. TEM and DLS characterization showed highly mono-disperse spherical PSSV ((157 ± 30) nm in diameter) and ?-potential measurement ((+56 ± 4) mV) confirmed the CS coating stability. Cellular uptake and INHB-A-PSSV effectiveness were tested in an in vitro model of cisplatin (CisPt) induced cell toxicity. RPTECs were exposed to 2.5 µmol/l CisPt for 6 h and, after drug withdrawal, cell viability was performed at 3 days after treatment. CisPt treated cell viability significantly decreased, compared with healthy control. We showed that addition of INHB-A-PSSV to CisPt -treated RPTECs led to a substantial increase in cell number and viability after 3 days of culture. Remarkably, a very low dosage of functional loaded protein (8 ng/25 µl) was sufficient to induce cell regeneration and the percentage of viable cells was similar to that of RPTECs without CisPt treatment.

Published

2015

11. Mimicking Chemotactic Cell Migration with DNA Programmable Synthetic Vesicles.

Author

Pan J, Du Y, Qiu H, Upton LR, Li F, and Choi JH

Subjects

Biomimetic Materials chemistry, Chemotaxis, DNA chemistry, Models, Chemical

Abstract

Chemotactic cell motility plays a critical role in many biological functions, such as immune response and embryogenesis. Constructing synthetic cell-mimicking systems, such as a dynamic protocell, likewise requires molecular mechanisms that respond to environmental stimuli and execute programmed motility behaviors. Although various molecular components were proposed to achieve diverse functions in synthetic protocells, chemotactic motility on surfaces has not been reported thus far. Here we show directional motility in synthetic lipid vesicles capable of chasing each other by programming DNA components. We demonstrate that the "follow" vesicle recognizes and migrates along the moving trajectory of the "lead" vesicle with an enhanced speed, thus mimicking natural chemotaxis in cell migration. This work provides new possibilities for building synthetic protocells with complex functions such as programmed morphogenesis and cooperative motion. With the vast library of dynamic DNA components, we envision that this platform will enable new discoveries in fundamental sciences and novel applications in biotechnology.

Published

2019

12. Membrane-Mimetic Dendrimersomes Engulf Living Bacteria via Endocytosis.

Author

Kostina NY, Rahimi K, Xiao Q, Haraszti T, Dedisch S, Spatz JP, Schwaneberg U, Klein ML, Percec V, Möller M, and Rodriguez-Emmenegger C

Subjects

Artificial Cells microbiology, Endosomes metabolism, Escherichia coli Infections microbiology, Humans, Artificial Cells metabolism, Biomimetic Materials metabolism, Dendrimers metabolism, Endocytosis, Escherichia coli metabolism

Abstract

There is much interest in developing vesicular microcompartments from natural and synthetic amphiphiles, enabling programmable interactions with living matter. Of particular interest is the development of vesicles capable of endocytosis of living bacteria. Despite the complexity of this process, theoretical studies predict that the endocytosis of prolate micro-objects is possible without the need of active cell machinery if the energy released upon bacterial adhesion to the membrane surpasses the energy required to bend the membrane. Nonetheless, natural liposomes and synthetic polymersomes fail to sufficiently recapitulate membrane properties to perform this advanced function. Here we report the engulfment of living bacteria into endosomes by cell-like dendrimersomes assembled from Janus dendrimers. Full engulfment occurred in less than a minute after contact. The process is driven by the adhesion of the bacterium to the dendrimersome's membrane by ultraweak interactions, comparable to those utilized by nature. The key to success relies on the combination of high flexibility and stability of the dendrimersomes. The key properties of the dendrimersomes are programmed into the molecular structures of their building blocks. The ability to support endocytosis highlights opportunities for the design and programming of dendrimersomes in biomedical research.

Published

2019

13. Ion distribution around synthetic vesicles of the cat-anionic type

Author

Franco Tardani, Camillo La Mesa, Fabiola Sciscione, Carlotta Pucci, and Aurelio Barbetta

Subjects

Bromides, Hydrodynamic radius, Lipid Bilayers, Analytical chemistry, Surface-Active Agents, Electrokinetic phenomena, Dynamic light scattering, Pulmonary surfactant, dls, synthetic vesicles, zeta-potential, ion distribution, Cations, Materials Chemistry, Scattering, Radiation, Surface charge, Physical and Theoretical Chemistry, Aqueous solution, Cetrimonium, Chemistry, Vesicle, Charge density, Sodium Compounds, Surfaces, Coatings and Films, Cetrimonium Compounds

Abstract

Aqueous alkyltrimethylammonium bromides, or dialkyldimethylammonium ones, were mixed with sodium alkyl sulfates and dialkanesulfonates. Depending on the overall surfactant concentration, charge and/or mole ratios, cat-anionic vesicles were formed by mixing nonstoichiometric amounts of oppositely charged species. The resulting vesicles are thermodynamically and kinetically stable. ζ-potential and dynamic light scattering characterized the systems. As a rule, cat-anionic vesicles have sizes in the 10(2)-10(3) nm range and bear significant amounts of surface charges. At fixed surfactant concentration, the vesicle surface charge density scales with mole ratios and tends to zero as the latter approach unity. Conversely, the hydrodynamic radius diverges when the cationic/anionic mole ratio is close to 1. The double-layer thickness and surface charge density are controlled by mole ratios and addition of NaBr, which plays a role in vesicle stability. The salt screens the surface charge density and modulates both vesicle size and double-layer thickness. Slightly higher concentrations of NaBr induce the transition from vesicles toward lamellar phases. The electrokinetic properties of cat-anionic dispersions were analyzed by dielectric relaxation experiments. The measured properties are sensitive to vesicle size distributions. In fact, the relaxation frequency shifts in proportion to vesicle polydispersity. Model calculations proposed on that purpose supported the experimental findings.

Published

2014

14. Delivery of RNA and Its Intracellular Translation into Protein Mediated by SDS-CTAB Vesicles: Potential Use in Nanobiotechnology

Author

Franco Tardani, Laura Russo, Valerio Berardi, Camillo La Mesa, and Gianfranco Risuleo

Subjects

Chloramphenicol O-Acetyltransferase, Light, Article Subject, Cell, Intracellular Space, rna, synthetic vesicles, binding, delivery, lcsh:Medicine, Biology, Transfection, Endocytosis, General Biochemistry, Genetics and Molecular Biology, Surface-Active Agents, Genes, Reporter, Freezing, medicine, Humans, Nanotechnology, Scattering, Radiation, RNA, Messenger, Unilamellar Liposomes, Cell Death, General Immunology and Microbiology, Cetrimonium, Vesicle, lcsh:R, Gene Transfer Techniques, Sodium Dodecyl Sulfate, Lipid bilayer fusion, RNA, Biological membrane, General Medicine, HEK293 Cells, medicine.anatomical_structure, Biochemistry, Protein Biosynthesis, Cetrimonium Compounds, Biophysics, Intracellular, Biotechnology, Research Article

Abstract

Catanionic vesicles are supramolecular aggregates spontaneously forming in water by electrostatic attraction between two surfactants mixed in nonstoichiometric ratios. The outer surface charges allow adsorption to the biomembrane by electrostatic interactions. The lipoplex thus obtained penetrates the cell by endocytosis or membrane fusion. We examined the possible cytotoxic effects and evaluated the transfection efficiency of one vesicle type as compared to known commercial carriers. We show that the individual components of two different vesicles types, CTAB (cetyltrimethylammonium bromide) and DDAB (didodecyldimethylammonium bromide) are detrimental for cell survival. We also assayed the cytotoxicity of SDS-DDAB vesicles and showed dose and time dependency, with the DDAB component beingper seextremely cytotoxic. The transfection efficiency of exogenous RNA mediated by SDS-CTAB increases if vesicles assemble in the presence of the reporter RNA; finally, freezing abrogates the transfection ability. The results of our experimental strategy suggest that catanionic vesicles may be adopted in gene therapy and control of antiproliferative diseases.

Published

2013