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2. Improvement of RG1-VLP vaccine performance in BALB/c mice by substitution of alhydrogel with the next generation polyphosphazene adjuvant PCEP

Author

Sarah M. Valencia, Athina Zacharia, Alexander Marin, Rebecca L. Matthews, Chia-Kuei Wu, Breana Myers, Chelsea Sanders, Simone Difilippantonio, Reinhard Kirnbauer, Richard B. Roden, Ligia A. Pinto, Robert H. Shoemaker, Alexander K. Andrianov, and Jason D. Marshall

Subjects
human papillomavirus, hpv, prophylactic vaccine, pcep, polyphosphazenes, adjuvants, hpv-l2, neutralizing antibody, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950
Abstract

Current human papillomavirus (HPV) vaccines provide substantial protection against the most common HPV types responsible for oral and anogenital cancers, but many circulating cancer-causing types remain for which vaccine coverage is lacking. In addition, all current HPV vaccines rely on aluminum salt-based adjuvant formulations that function through unclear mechanisms with few substitutes available. In an effort to expand the toolbox of available adjuvants suitable for HPV vaccines, we compared the immunogenicity of the RG1-VLP (virus-like particle) vaccine in BALB/c mice when formulated with either the aluminum hydroxide adjuvant Alhydrogel or the novel polyphosphazene macromolecular adjuvant poly[di (carboxylatoethylphenoxy) phosphazene] (PCEP). PCEP-formulated RG1-VLPs routinely outperformed VLP/Alhydrogel in several measurements of VLP-specific humoral immunity, including consistent improvements in the magnitude of antibody (Ab) responses to both HPV16-L1 and the L2 RG1 epitope as well as neutralizing titers to HPV16 and cross-neutralization of pseudovirion (PsV) types HPV18 and HPV39. Dose-sparing studies indicated that RG1-VLPs could be reduced in dose by 75% and the presence of PCEP ensured activity comparable to a full VLP dose adjuvanted by Alhydrogel. In addition, levels of HPV16-L1 and -L2-specific Abs were achieved after two vaccinations with PCEP as adjuvant that were equivalent to or greater than levels achieved with three vaccinations with Alhydrogel alone, indicating that the presence of PCEP resulted in accelerated immune responses that could allow for a decreased dose schedule. Given the extensive clinical track record of polyphosphazenes, these data suggest that substitution of alum-based adjuvants with PCEP for the RG1-VLP vaccine could lead to rapid seropositivity requiring fewer boosts, the dose-sparing of commercial VLP-based vaccines, and the establishment of longer-lasting humoral responses to HPV.

Published
2021
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3. Fluorine-Functionalized Polyphosphazene Immunoadjuvant: Synthesis, Solution Behavior and In Vivo Potency

Author

Harichandra D. Tagad, Alexander Marin, Ruixue Wang, Abdul S. Yunus, Thomas R. Fuerst, and Alexander K. Andrianov

Subjects
vaccine adjuvants, polyphosphazenes, fluorine-containing pharmaceuticals, protein-polymer interactions, supramolecular self-assembly, hepatitis C virus, Organic chemistry, QD241-441
Abstract

The inclusion of fluorine motifs in drugs and drug delivery systems is an established tool for modulating their biological potency. Fluorination can improve drug specificity or boost the vehicle’s ability to cross cellular membranes. However, the approach has yet to be applied to vaccine adjuvants. Herein, the synthesis of fluorinated bioisostere of a clinical stage immunoadjuvant—poly[di(carboxylatophenoxy)phosphazene], PCPP—is reported. The structure of water-soluble fluoropolymer—PCPP-F, which contains two fluorine atoms per repeat unit—was confirmed using 1H, 31P and 19F NMR, and its molecular mass and molecular dimensions were determined using size-exclusion chromatography and dynamic light scattering. Insertion of fluorine atoms in the polymer side group resulted in an improved solubility in acidic solutions and faster hydrolytic degradation rate, while the ability to self-assemble with an antigenic protein, lysozyme—an important feature of polyphosphazene vaccine adjuvants—was preserved. In vivo assessment of PCPP-F demonstrated its greater ability to induce antibody responses to Hepatitis C virus antigen when compared to its non-fluorinated counterpart. Taken together, the superior immunoadjuvant activity of PCPP-F, along with its improved formulation characteristics, demonstrate advantages of the fluorination approach for the development of this family of macromolecular vaccine adjuvants.

Published
2023
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4. Skin Vaccination with Ebola Virus Glycoprotein Using a Polyphosphazene-Based Microneedle Patch Protects Mice against Lethal Challenge

Author

Andrey Romanyuk, Ruixue Wang, Alexander Marin, Benjamin M. Janus, Eric I. Felner, Dengning Xia, Yenny Goez-Gazi, Kendra J. Alfson, Abdul S. Yunus, Eric A. Toth, Gilad Ofek, Ricardo Carrion, Mark R. Prausnitz, Thomas R. Fuerst, and Alexander K. Andrianov

Subjects
microneedle patch, polyphosphazene, immunoadjuvant, Ebola vaccine, intradermal immunization, supramolecular assembly, Biotechnology, TP248.13-248.65, Medicine (General), R5-920
Abstract

Ebolavirus (EBOV) infection in humans is a severe and often fatal disease, which demands effective interventional strategies for its prevention and treatment. The available vaccines, which are authorized under exceptional circumstances, use viral vector platforms and have serious disadvantages, such as difficulties in adapting to new virus variants, reliance on cold chain supply networks, and administration by hypodermic injection. Microneedle (MN) patches, which are made of an array of micron-scale, solid needles that painlessly penetrate into the upper layers of the skin and dissolve to deliver vaccines intradermally, simplify vaccination and can thereby increase vaccine access, especially in resource-constrained or emergency settings. The present study describes a novel MN technology, which combines EBOV glycoprotein (GP) antigen with a polyphosphazene-based immunoadjuvant and vaccine delivery system (poly[di(carboxylatophenoxy)phosphazene], PCPP). The protein-stabilizing effect of PCPP in the microfabrication process enabled preparation of a dissolvable EBOV GP MN patch vaccine with superior antigenicity compared to a non-polyphosphazene polymer-based analog. Intradermal immunization of mice with polyphosphazene-based MN patches induced strong, long-lasting antibody responses against EBOV GP, which was comparable to intramuscular injection. Moreover, mice vaccinated with the MN patches were completely protected against a lethal challenge using mouse-adapted EBOV and had no histologic lesions associated with ebolavirus disease.

Published
2022
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5. Supramolecular Protein-Polyelectrolyte Assembly at Near Physiological Conditions—Water Proton NMR, ITC, and DLS Study

Author

Alexander Marin, Marc B. Taraban, Vanshika Patel, Y. Bruce Yu, and Alexander K. Andrianov

Subjects
protein–polyelectrolyte interactions, polyphosphazenes, supramolecular assembly, isothermal titration calorimetry, water proton transverse relaxation rate, dynamic light scattering, Organic chemistry, QD241-441
Abstract

The in vivo potency of polyphosphazene immunoadjuvants is inherently linked to the ability of these ionic macromolecules to assemble with antigenic proteins in aqueous solutions and form physiologically stable supramolecular complexes. Therefore, in-depth knowledge of interactions in this biologically relevant system is a prerequisite for a better understanding of mechanism of immunoadjuvant activity. Present study explores a self-assembly of polyphosphazene immunoadjuvant—PCPP and a model antigen—lysozyme in a physiologically relevant environment—saline solution and neutral pH. Three analytical techniques were employed to characterize reaction thermodynamics, water-solute structural organization, and supramolecular dimensions: isothermal titration calorimetry (ITC), water proton nuclear magnetic resonance (wNMR), and dynamic light scattering (DLS). The formation of lysozyme–PCPP complexes at near physiological conditions was detected by all methods and the avidity was modulated by a physical state and dimensions of the assemblies. Thermodynamic analysis revealed the dissociation constant in micromolar range and the dominance of enthalpy factor in interactions, which is in line with previously suggested model of protein charge anisotropy and small persistence length of the polymer favoring the formation of high affinity complexes. The paper reports advantageous use of wNMR method for studying protein-polymer interactions, especially for low protein-load complexes.

Published
2022
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6. Nano-Assembly of Quisinostat and Biodegradable Macromolecular Carrier Results in Supramolecular Complexes with Slow-Release Capabilities

Author

Ananda Chowdhury, Alexander Marin, David J. Weber, and Alexander K. Andrianov

Subjects
quisinostat, polyphosphazenes, PEGylation, slow-release, histone deacetylase inhibitors, Pharmacy and materia medica, RS1-441
Abstract

Self-assembly of ionically charged small molecule drugs with water-soluble biodegradable polyelectrolytes into nano-scale complexes can potentially offer a novel and attractive approach to improving drug solubility and prolonging its half-life. Nanoassemblies of quisinostat with water-soluble PEGylated anionic polyphosphazene were prepared by gradient-driven escape of solvent resulting in the reduction of solvent quality for a small molecule drug. A study of binding, analysis of composition, stability, and release profiles was conducted using asymmetric flow field flow fractionation (AF4) and dynamic light scattering (DLS) spectroscopy. Potency assays were performed with WM115 human melanoma and A549 human lung cancer cell lines. The resulting nano-complexes contained up to 100 drug molecules per macromolecular chain and displayed excellent water-solubility and improved hemocompatibility when compared to co-solvent-based drug formulations. Quisinostat release time (complex dissociation) at near physiological conditions in vitro varied from 5 to 14 days depending on initial drug loading. Multimeric complexes displayed dose-dependent potency in cell-based assays and the results were analyzed as a function of complex concentration, as well as total content of drug in the system. The proposed self-assembly process may present a simple alternative to more sophisticated delivery modalities, namely chemically conjugated prodrug systems and nanoencapsulation-based formulations.

Published
2021
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7. Intracellular Delivery of Active Proteins by Polyphosphazene Polymers

Author

Bareera Qamar, Melani Solomon, Alexander Marin, Thomas R. Fuerst, Alexander K. Andrianov, and Silvia Muro

Subjects
polyphosphazene polymers, intracellular protein delivery, endosomal escape, cytosolic delivery, intracellular delivery of antibody, delivery of apoptotic peptides, Pharmacy and materia medica, RS1-441
Abstract

Achieving intracellular delivery of protein therapeutics within cells remains a significant challenge. Although custom formulations are available for some protein therapeutics, the development of non-toxic delivery systems that can incorporate a variety of active protein cargo and maintain their stability, is a topic of great relevance. This study utilized ionic polyphosphazenes (PZ) that can assemble into supramolecular complexes through non-covalent interactions with different types of protein cargo. We tested a PEGylated graft copolymer (PZ-PEG) and a pyrrolidone containing linear derivative (PZ-PYR) for their ability to intracellularly deliver FITC-avidin, a model protein. In endothelial cells, PZ-PYR/protein exhibited both faster internalization and higher uptake levels than PZ-PEG/protein, while in cancer cells both polymers achieved similar uptake levels over time, although the internalization rate was slower for PZ-PYR/protein. Uptake was mediated by endocytosis through multiple mechanisms, PZ-PEG/avidin colocalized more profusely with endo-lysosomes, and PZ-PYR/avidin achieved greater cytosolic delivery. Consequently, a PZ-PYR-delivered anti-F-actin antibody was able to bind to cytosolic actin filaments without needing cell permeabilization. Similarly, a cell-impermeable Bax-BH3 peptide known to induce apoptosis, decreased cell viability when complexed with PZ-PYR, demonstrating endo-lysosomal escape. These biodegradable PZs were non-toxic to cells and represent a promising platform for drug delivery of protein therapeutics.

Published
2021
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8. Self-assembly of polyphosphazene immunoadjuvant with poly(ethylene oxide) enables advanced nanoscale delivery modalities and regulated pH-dependent cellular membrane activity

Author

Alexander K. Andrianov, Alexander Marin, and Thomas R. Fuerst

Subjects
Biochemistry, Immunology, Pharmaceutical science, Biotechnology, Bioengineering, Physical chemistry, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Water-soluble polyphosphazene polyacids, such as poly[di(carboxylatophenoxy)phosphazene] (PCPP), have been of significant interest due to their unique immunoadjuvant and vaccine delivery properties. We report that PCPP can spontaneously self-assemble into intermolecular complexes with common formulation excipients − polyethers in aqueous solutions at neutral pH through the establishment of hydrogen bonds. The resulting advanced PCPP delivery modalities can range from macromolecular assemblies at the nanoscale level to physically cross-linked hydrogels and the physical state can be modulated through varying polymer ratios and molecular weight of polyether. It has been demonstrated that such macromolecular complexes maintain protein-binding ability − a key characteristics of the delivery system. Importantly, the non-covalent modification of PCPP immunoadjuvant with polyethers introduces pH dependent membrane disruptive activity, which is not characteristic for PCPP itself, and is typically correlated to the ability of macromolecular carrier to facilitate endosomal escape. This can potentially affect the mechanism of immunoadjuvant action displayed by PCPP, afford means for its fine-tuning, as well as provide important insights for understanding the relationship between fundamental physico-chemical characteristics of polyphosphazene immunoadjuvants and their activity in vivo.

Published
2016
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10. Polyphosphazene: A New Adjuvant Platform for Cocaine Vaccine Development

Author

Mingliang Lin, Alexander Marin, Beverly Ellis, Lisa M. Eubanks, Alexander K. Andrianov, and Kim D. Janda

Subjects
Organophosphorus Compounds, Vaccines, Conjugate, Adjuvants, Immunologic, Cocaine, Polymers, Vaccine Development, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Adjuvants, Pharmaceutic
Abstract

Cocaine is a highly addictive drug that has seen a steady uptrend causing severe health problems worldwide. Currently, there are no approved therapeutics for treating cocaine use disorder; hence, there is an urgent need to identify new medications. Immunopharmacotherapeutics is a promising approach utilizing endogenous antibodies generated through active vaccination, and if properly programmed, can blunt a drug's psychoactive and addictive effects. However, drug vaccine efficacy has largely been limited by the modest levels of antibodies induced. Herein, we explored an adjuvant system consisting of a polyphosphazene macromolecule, specifically poly[di(carboxylatoethylphenoxy)-phosphazene] (PCEP), a biocompatible synthetic polymer that was solicited for improved cocaine conjugate vaccine delivery performance. Our results demonstrated PCEP's superior assembling efficiency with a cocaine hapten as well as with the combined adjuvant CpG oligodeoxynucleotide (ODN). Importantly, this combination led to a higher titer response, balanced immunity, successful sequestering of cocaine in the blood, and a reduction in the drug in the brain. Moreover, a PCEP-cocaine conjugate vaccine was also found to function well via intranasal administration, where its efficacy was demonstrated through the antibody titer, affinity, mucosal IgA production, and a reduction in cocaine's locomotor activity. Overall, a comprehensive evaluation of PCEP integrated within a cocaine vaccine established an advance in the use of synthetic adjuvants in the drugs of abuse vaccine field.

Published
2022

11. Polyphosphazenes in Biomedicine, Engineering, and Pioneering Synthesis

Author

Alexander K. Andrianov, Harry R. Allcock, Harry R. Allcock, Alexander K. Andrianov, Kenneth S. Ogueri, Cato T. Laurencin, Maryam Hajfathalian, Mathilde Bouché, David P. Cormode, Victoria Albright, Victor Selin, Hanna Hlushko, Anbazhagan Palanisamy, Alexander Marin, Alexander K. Andrianov, Svetlana A and Alexander K. Andrianov, Harry R. Allcock, Harry R. Allcock, Alexander K. Andrianov, Kenneth S. Ogueri, Cato T. Laurencin, Maryam Hajfathalian, Mathilde Bouché, David P. Cormode, Victoria Albright, Victor Selin, Hanna Hlushko, Anbazhagan Palanisamy, Alexander Marin, Alexander K. Andrianov, Svetlana A

Published
2018

12. Hierarchically Structured, All-Aqueous-Coated Hydrophobic Surfaces with pH-Selective Droplet Transfer Capability

Author

Jordan Brito, Kaustubh Asawa, Alexander Marin, Alexander K. Andrianov, Chang-Hwan Choi, and Svetlana A. Sukhishvili

Subjects
General Materials Science
Abstract

Often inspired by nature, techniques for precise droplet manipulation have found applications in microfluidics, microreactors, and water harvesting. However, a widely applicable strategy for surface modification combining simultaneous hydrophobicity and pH-sensitivity has not yet been achieved by employing environmentally friendly assembly conditions. The introduction of pH-responsive groups to an otherwise fluorinated polyphosphazene (PPZ) unlocks pH-selective droplet capture and transfer. Here, an all-aqueous layer-by-layer (LbL) deposition of polyelectrolytes is used to create unique hydrophobic coatings, endowing surfaces with the ability to sense environmental pH. The high hydrophobicity of these coatings (ultimately reaching a contact angle120° on flat surfaces) is enabled by the formation of hydrophobic nanoscale domains and controllable by the degree of fluorination of PPZs, polyamine-binding partners, deposition pH, and coating thickness. Inspired by the hierarchical structure of rose petals, these versatile coatings reach a contact angle150° when deposited on structured surfaces while introducing a tunable adhesivity that enables precise droplet manipulation. The films exhibited a strongly pronounced parahydrophobic rose petal behavior characterized through the contact angle hysteresis. Depositing as few as five bilayers (∼25 nm) on microstructured rather than smooth substrates resulted in superhydrophobicity with water contact angles150° and the attenuation of the contact angle hysteresis, enabling highly controlled transfer of aqueous droplets. The pH-selective droplet transfer was achieved between surfaces with either the same microstructure and LbL film building blocks, which were assembled at different pH, or between surfaces with different microstructures coated with identical films. The demonstrated capability of these hydrophobic LbL films to endow surfaces with controlled hydrophobicity through adsorption from aqueous solutions and control the adhesion and transfer of water droplets between surfaces can be used in droplet-based microfluidics applications and water collection/harvesting.

Published
2022

13. Cationic Fluoropolyphosphazenes: Synthesis and Assembly with Heparin as a Pathway to Hemocompatible Nanocoatings

Author

Alexander Marin, Jordan Brito, Svetlana A. Sukhishvili, and Alexander K. Andrianov

Subjects
Titanium, Biomaterials, Heparin, Polymers, Biochemistry (medical), Biomedical Engineering, Anticoagulants, General Chemistry, Blood Coagulation
Abstract

The development of state-of-the-art blood-contacting devices can be advanced through integrating hemocompatibility, durability, and anticoagulant functionalities within engineered nanoscale coatings. To enable all-aqueous assembly of nanocoatings combining omniphobic fluorinated features with the potent anticoagulant activity of hydrophilic heparin, two fluoropolymers containing cationic functionalities were synthesized─poly[(trifluoroethoxy)(dimethylaminopropyloxy)phosphazene], PFAP-O, and poly[(trifluoroethoxy)(dimethylaminopropylamino)phosphazene], PFAP-A. Despite a relatively high content of fluorinated pendant groups─approximately 50% (mol) in each─both polymers displayed solubility in aqueous solutions and were able to spontaneously form stable supramolecular complexes with heparin, as determined by dynamic light scattering and asymmetric flow field-flow fractionation methods. Heparin-containing coatings were then assembled by layer-by-layer deposition in aqueous solutions. Nanoassembled coatings were evaluated for potential thrombogenicity in three important categories of in vitro tests─coagulation by thrombin generation, platelet retention, and hemolysis. In all assays, heparin-containing fluoro-coatings consistently displayed superior performance compared to untreated titanium surfaces or fluoro-coatings assembled using poly(acrylic acid) in the absence of heparin. Short-term stability studies revealed the noneluting nature of these noncovalently assembled coatings.

Published
2021

14. 9 propuestas de intervención psicosocial

Author

Mina, Victoria Hurtado, Fernández, Valeria Castro, Montenegro, Yenny Adriana Fernández, Valencia, Ximena Donneys, Ordóñez, Gladys Martínez, Toscano, Leticia Eliana Oviedo, Murillo, Mario Alexander Marín, Salazar, Johanna Marcela Delgado, Cruz, Martha Isabel Rada, Mina, Victoria Hurtado, Fernández, Valeria Castro, Montenegro, Yenny Adriana Fernández, Valencia, Ximena Donneys, Ordóñez, Gladys Martínez, Toscano, Leticia Eliana Oviedo, Murillo, Mario Alexander Marín, Salazar, Johanna Marcela Delgado, and Cruz, Martha Isabel Rada

Published
2020

15. Proposal of Improvement for a Textile Finishing Company in the Medellin city Through of Discrete Simulation

Author

Yony Fernando Ceballos, Cristhian Camilo Mosquera, and Juan Alexander Marin

Subjects
Engineering, business.industry, General Medicine, Persona, Discrete event simulation, business, Humanities
Abstract

espanolLa industria textil en Colombia es fuente de empleo para mas de 200000 personas y en la ciudad de Medellin se encuentra mas del 50% de esta produccion. La necesidad de modelar ymejorar procesos textiles permite a este renglon de la economia ser competitivo a nivel internacional. En este documento serealiza una descripcion acerca del uso de la simulacion discreta en una empresa de serviciosde acabados textiles, a traves de la interpretacionde cuatro escenarios;lo que se traduce en demostrarel potencial de la simulacion discretaen entornos productivosde servicios y su alto impacto almodelar sin necesidad de experimentar con el sistema real. El metodo utilizado en el presente escritose resumeen tres etapas,la primera comprendela metodologia de simulacion, la segunda los datos que soportanla simulacion y por ultimoun analisis de resultadoscon la comparativa de los escenarios. La simulacion fue validada estadisticamente y verificada con los comportamientos reales de la empresay seejecuta por medio de herramientas de software como EasyFit®, Microsoft Excel® y Simul8® EnglishThe textile industry in Colombia is a source of employment for more than 200.000 people and more than 50% of this production is undertaken in Medellin. Modeling and improving textile processes allow this economic line to be competitive internationally. In this paper, we make a description about the use of discrete event simulation in a textile finishing company through the presentation of the results of four scenarios, which finally shows the potential of discrete simulations in productive environments and its high impact when modelling part of reality without the necessity of experimenting with the real system. The method used in this paper is summarized in three major stages: the first one is the simulation methodology, the second one is the data to support the simulation, and the final stage is an analysis of the results with the comparison of the four scenarios. The simulation was statistically validated and verified with the real behaviors of the company and it is executed by using software tools such as EasyFit®, Microsoft Excel® and Simul8®

Published
2021

16. Improvement of RG1-VLP vaccine performance in BALB/c mice by substitution of alhydrogel with the next generation polyphosphazene adjuvant PCEP

Author

Jason D. Marshall, Chelsea Sanders, Breana Myers, Alexander K. Andrianov, Athina Zacharia, Ligia A. Pinto, Sarah M. Valencia, Rebecca L. Matthews, Simone Difilippantonio, Robert H. Shoemaker, Richard B.S. Roden, Reinhard Kirnbauer, Alexander Marin, and Chia Kuei Wu

Subjects
Polymers, viruses, medicine.medical_treatment, 030231 tropical medicine, Immunology, Aluminum Hydroxide, Antibodies, Viral, complex mixtures, BALB/c, Mice, 03 medical and health sciences, Organophosphorus Compounds, 0302 clinical medicine, medicine, Animals, Immunology and Allergy, Polyphosphazene, Papillomavirus Vaccines, Vaccines, Virus-Like Particle, 030212 general & internal medicine, Human papillomavirus, Neutralizing antibody, Pharmacology, Mice, Inbred BALB C, biology, Hpv types, business.industry, Papillomavirus Infections, virus diseases, Cancer, Oncogene Proteins, Viral, biology.organism_classification, medicine.disease, Virology, female genital diseases and pregnancy complications, biology.protein, Capsid Proteins, business, Adjuvant, Research Paper
Abstract

Current human papillomavirus (HPV) vaccines provide substantial protection against the most common HPV types responsible for oral and anogenital cancers, but many circulating cancer-causing types remain for which vaccine coverage is lacking. In addition, all current HPV vaccines rely on aluminum salt-based adjuvant formulations that function through unclear mechanisms with few substitutes available. In an effort to expand the toolbox of available adjuvants suitable for HPV vaccines, we compared the immunogenicity of the RG1-VLP (virus-like particle) vaccine in BALB/c mice when formulated with either the aluminum hydroxide adjuvant Alhydrogel or the novel polyphosphazene macromolecular adjuvant poly[di (carboxylatoethylphenoxy) phosphazene] (PCEP). PCEP-formulated RG1-VLPs routinely outperformed VLP/Alhydrogel in several measurements of VLP-specific humoral immunity, including consistent improvements in the magnitude of antibody (Ab) responses to both HPV16-L1 and the L2 RG1 epitope as well as neutralizing titers to HPV16 and cross-neutralization of pseudovirion (PsV) types HPV18 and HPV39. Dose-sparing studies indicated that RG1-VLPs could be reduced in dose by 75% and the presence of PCEP ensured activity comparable to a full VLP dose adjuvanted by Alhydrogel. In addition, levels of HPV16-L1 and -L2-specific Abs were achieved after two vaccinations with PCEP as adjuvant that were equivalent to or greater than levels achieved with three vaccinations with Alhydrogel alone, indicating that the presence of PCEP resulted in accelerated immune responses that could allow for a decreased dose schedule. Given the extensive clinical track record of polyphosphazenes, these data suggest that substitution of alum-based adjuvants with PCEP for the RG1-VLP vaccine could lead to rapid seropositivity requiring fewer boosts, the dose-sparing of commercial VLP-based vaccines, and the establishment of longer-lasting humoral responses to HPV.

Published
2021

17. Ionic Fluoropolyphosphazenes as Potential Adhesive Agents for Dental Restoration Applications

Author

Alexander K. Andrianov, Papatya Kaner, Michael D. Weir, and Alexander Marin

Subjects
Materials science, medicine.medical_treatment, Composite number, Biomedical Engineering, Medicine (miscellaneous), Tooth surface, Cell Biology, Biomaterials, Contact angle, Demineralization, stomatognathic diseases, medicine.anatomical_structure, stomatognathic system, Carious teeth, medicine, Dentin, Adhesive, Composite material, Dental restoration
Abstract

Clinically, the use of photo-activated polymer-based dental composites is the preferred method to restore carious teeth due to their esthetics and ease of application. However, the longevity of these resin-based composite tooth restorations can be compromised by the sensitivity of the bonded interface between the composite and the tooth surface. The objective of the current study was to modify the tooth surface with novel fluorinated polyphosphazenes (PPZs), thereby improving the stability of the interface. Binding isotherms of PPZs with collagen (CLG) and hydroxyapatite (HA), two of the primary components of teeth, were established and indicate significant and stable adsorption to the surfaces of these materials. PPZs were also shown to protect CLG against acidic dissolution in a model system. A composite material consisting of the fluorinated polymer and CLG demonstrated three-dimensional stability and significant hydrophobicity. Additionally, no hemolytic activity was observed when evaluated using a porcine red blood cells (RBC) assay. Bovine dentin treated with PPZs demonstrated increased contact angle (hydrophobicity) compared with control samples and resisted fluid penetration when assessed using a dye penetration study. Finally, microhardness evaluation of bovine dentin treated with PPZs and exposed to an acidic challenge showed that treated dentin resisted demineralization. The hardness of the untreated control was significantly reduced after exposure when compared with the PPZ-treated samples. This study represents a novel approach to overcoming the current limitations of composite restorations. These results are promising to improve the longevity of composite dental restorations and may have wider use in sealants, varnishes, and other dental applications. Tooth decay remains a prevalent problem worldwide. Polymer-based composites are the most frequently used tooth restorative used in the clinic. The longevity of these fillings is limited due to conditions in the mouth that can weaken the adhesive used to bond the composite to the natural tooth. The current study uses novel polyphosphazenes (PPZs), hybrid organic-inorganic macromolecules with tunable hydrophilic-hydrophobic properties to coat the tooth surface to achieve better compatibility with the adhesive, thereby improving the longevity of the restoration. Results indicate that PPZs have significant and stable adsorption onto teeth, which may lead to a more stable bonded interface.

Published
2021

18. Induction of broadly neutralizing antibodies using a secreted form of the hepatitis C virus E1E2 heterodimer as a vaccine candidate

Author

Ruixue Wang, Saori Suzuki, Johnathan D. Guest, Brigitte Heller, Maricar Almeda, Alexander K. Andrianov, Alexander Marin, Roy A. Mariuzza, Zhen-Yong Keck, Steven K. H. Foung, Abdul S. Yunus, Brian G. Pierce, Eric A. Toth, Alexander Ploss, and Thomas R. Fuerst

Subjects
Viral Hepatitis Vaccines, Mice, Multidisciplinary, Immunogenicity, Vaccine, Viral Envelope Proteins, Animals, Hepatitis C Antibodies, Protein Multimerization, Hepatitis C, Broadly Neutralizing Antibodies
Abstract

Significance Hepatitis C virus chronically infects approximately 1% of the world’s population, making an effective vaccine for hepatitis C virus a major unmet public health need. The membrane-associated E1E2 envelope glycoprotein has been used in clinical studies as a vaccine candidate. However, limited neutralization breadth and difficulty in producing large amounts of homogeneous membrane-associated E1E2 have hampered efforts to develop an E1E2-based vaccine. Our previous work described the design and biochemical validation of a native-like soluble secreted form of E1E2 (sE1E2). Here, we describe the immunogenic characterization of the sE1E2 complex. sE1E2 elicited broadly neutralizing antibodies in immunized mice, with increased neutralization breadth relative to the membrane-associated E1E2, thereby validating this platform as a promising model system for vaccine development.

Published
2022

19. In Vivo and In Vitro Potency of Polyphosphazene Immunoadjuvants with Hepatitis C Virus Antigen and the Role of Their Supramolecular Assembly

Author

Abdul S. Yunus, Roy A. Mariuzza, Thomas R. Fuerst, Alexander Marin, Brian G. Pierce, Ananda Chowdhury, Alexander K. Andrianov, Pragati Agnihotri, and Ruixue Wang

Subjects
Chemistry, Pharmaceutical Science, Context (language use), Article, In vitro, Cell biology, Antibody Isotype, Immune system, Antigen, Cell culture, In vivo, Drug Discovery, Molecular Medicine, Polyphosphazene
Abstract

Two well-defined synthetic polyphosphazene immunoadjuvants, PCPP and PCEP, were studied for their ability to potentiate the immune response to the hepatitis C virus (HCV) E2 glycoprotein antigen in vivo. We report that PCEP induced significantly higher serum neutralization and HCV-specific IgG titers in mice compared to other adjuvants used in the study: PCPP, Alum, and Addavax. PCEP also shifted the response toward the desirable balanced Th1/Th2 immunity, as evaluated by the antibody isotype ratio (IgG2a/IgG1). The in vivo results were analyzed in the context of antigen-adjuvant molecular interactions in the system and in vitro immunostimulatory activity of formulations. Asymmetric flow field flow fractionation (AF4) and dynamic light scattering (DLS) analysis showed that both PCPP and PCEP spontaneously self-assemble with the E2 glycoprotein with the formation of multimeric water-soluble complexes, which demonstrates the role of polyphosphazene macromolecules as vaccine delivery vehicles. Intrinsic in vitro immunostimulatory activity of polyphosphazene adjuvants, which was assessed using a mouse macrophage cell line, revealed comparable activities of both polymers and did not provide an explanation of their in vivo performance. However, PCEP complexes with E2 displayed greater stability against agglomeration and improved in vitro immunostimulatory activity compared to those of PCPP, which is in line with superior in vivo performance of PCEP. The results emphasize the importance of often neglected antigen-polyphosphazene self-assembly mechanisms in formulations, which can provide important insights on their in vivo behavior and facilitate the establishment of a structure-activity relationship for this important class of immunoadjuvants.

Published
2020

20. Supramolecular Assembly of Toll-like Receptor 7/8 Agonist into Multimeric Water-Soluble Constructs Enables Superior Immune Stimulation In Vitro and In Vivo

Author

Pragati Agnihotri, Alexander K. Andrianov, Roy A. Mariuzza, Abdul S. Yunus, Ananda Chowdhury, Ruixue Wang, Thomas R. Fuerst, Hatice Karauzum, and Alexander Marin

Subjects
Cellular immunity, Chemistry, Biochemistry (medical), Biomedical Engineering, General Chemistry, In vitro, Cell biology, Biomaterials, chemistry.chemical_compound, Antigen, In vivo, medicine, Interferon gamma, Resiquimod, Receptor, Ex vivo, medicine.drug
Abstract

Resiquimod or R848 (RSQD) is a Toll-like receptor (TLR) 7/8 agonist which shows promise as vaccine adjuvant due to its potential to promote highly desirable cellular immunity. The development of this small molecule in the field to date has been largely impeded by its rapid in vivo clearance and lack of association with vaccine antigens. Here, we report a multimeric TLR 7/8 construct of nano-scale size, which results from a spontaneous self-assembly of RSQD with a water-soluble clinical-stage polymer - poly[di(carboxylatophenoxy)phosphazene] (PCPP). The formation of ionically paired construct (PCPP-R) and a ternary complex, which also includes Hepatitis C virus (HCV) antigen, has been demonstrated by dynamic lights scattering (DLS), turbidimetry, fluorescence spectroscopy, asymmetric flow field flow fractionation (AF4), and 1H NMR spectroscopy methods. The resulting supramolecular assembly PCPP-R enabled superior immunostimulation in cellular assays (mouse macrophage reporter cell line) and displayed improved in vitro hemocompatibility (human erythrocytes). In vivo studies demonstrated that PCPP-R adjuvanted HCV formulation induced higher serum neutralization titers in BALB/c mice and shifted the response towards desirable cellular immunity, as evaluated by antibody isotype ratio (IgG2a/IgG1) and ex vivo analysis of cytokine secreting splenocytes (higher levels of interferon gamma (IFN-γ) single and tumor necrosis factor alpha (TNF-α)/IFN-γ double producing cells). The non-covalent multimerization approach stands in contrast to previously suggested RSQD delivery methods, which involve covalent conjugation or encapsulation, and offers a flexible methodology that can be potentially integrated with other parenterally administered drugs.

Published
2020

21. New Family of Water-Soluble Sulfo-Fluoro Polyphosphazenes and Their Assembly within Hemocompatible Nanocoatings

Author

Alexander K. Andrianov, Victoria Albright, Papatya Kaner, Alexander Marin, and Svetlana A. Sukhishvili

Subjects
Biomaterials, Water soluble, Chemistry, Biochemistry (medical), Biomedical Engineering, Fluorinated Polymers, General Chemistry, Combinatorial chemistry, Polyelectrolyte, Macromolecule
Abstract

In this work, novel sulfo-fluoro polyphosphazenes (PPzs) were synthesized via macromolecular substitution of polydichlorophosphazene utilizing "non-covalent protection" methodology by converting acid functionalities into hydrophobic alkylammonium salts. Resulting PPzs showed excellent solubility in aqueous solutions over a broad pH range and contained ∼25% sulfo- groups and 20% either trifluoroethoxy- (FESP) or trifluoromethylphenoxy- (FPSP) side groups, as determined by NMR spectroscopy. Their polyelectrolyte behavior was evaluated by binding with an oppositely charged polyion, branched polyethylenimine (PEI), which resulted in the formation of interpolymer complexes as shown by dynamic light scattering (DLS). Contrary to a sulfonated, nonfluorinated PPz homopolymer (SP), fluorinated macromolecules effectively bound human serum albumin (HSA) as revealed by dynamic light scattering and asymmetric flow field flow fractionation (AF4) studies. Moreover, FESP and FPSP both displayed low hemolytic activity as evaluated in solution using porcine red blood cells. Using the layer-by-layer (LbL) technique, FESP and FPSP were assembled into nanocoatings with PEI. Both fluorinated and nonfluorinated sulfo PPzs showed linear growth with PEI because of strong ionic pairing between sulfo and amino groups. However, films of fluorinated PPzs displayed higher hydrophobicity, lower swelling, and improved stability in high ionic strength environment when compared to coatings formed by a sulfonated, nonfluorinated SP, or a carbon-chain polymer poly(styrene sulfonic acid). Hemocompatibility of FESP and FPSP nanofilms was demonstrated

Published
2022

22. Supramolecular assembly of Toll-like receptor 7/8 agonist into multimeric water-soluble constructs enables superior immune stimulation

Author

Alexander K, Andrianov, Alexander, Marin, Ruixue, Wang, Hatice, Karauzum, Ananda, Chowdhury, Pragati, Agnihotri, Abdul S, Yunus, Roy A, Mariuzza, and Thomas R, Fuerst

Subjects
Article
Abstract

Resiquimod or R848 (RSQD) is a Toll-like receptor (TLR) 7/8 agonist which shows promise as vaccine adjuvant due to its potential to promote highly desirable cellular immunity. The development of this small molecule in the field to date has been largely impeded by its rapid in vivo clearance and lack of association with vaccine antigens. Here, we report a multimeric TLR 7/8 construct of nano-scale size, which results from a spontaneous self-assembly of RSQD with a water-soluble clinical-stage polymer - poly[di(carboxylatophenoxy)phosphazene] (PCPP). The formation of ionically paired construct (PCPP-R) and a ternary complex, which also includes Hepatitis C virus (HCV) antigen, has been demonstrated by dynamic lights scattering (DLS), turbidimetry, fluorescence spectroscopy, asymmetric flow field flow fractionation (AF4), and (1)H NMR spectroscopy methods. The resulting supramolecular assembly PCPP-R enabled superior immunostimulation in cellular assays (mouse macrophage reporter cell line) and displayed improved in vitro hemocompatibility (human erythrocytes). In vivo studies demonstrated that PCPP-R adjuvanted HCV formulation induced higher serum neutralization titers in BALB/c mice and shifted the response towards desirable cellular immunity, as evaluated by antibody isotype ratio (IgG2a/IgG1) and ex vivo analysis of cytokine secreting splenocytes (higher levels of interferon gamma (IFN-γ) single and tumor necrosis factor alpha (TNF-α)/IFN-γ double producing cells). The non-covalent multimerization approach stands in contrast to previously suggested RSQD delivery methods, which involve covalent conjugation or encapsulation, and offers a flexible methodology that can be potentially integrated with other parenterally administered drugs.

Published
2021

23. Intracellular Delivery of Active Proteins by Polyphosphazene Polymers

Author

Silvia Muro, Alexander K. Andrianov, Alexander Marin, Thomas R. Fuerst, Bareera Qamar, and Melani Solomon

Subjects
cytosolic delivery, media_common.quotation_subject, Pharmaceutical Science, lcsh:RS1-441, Peptide, 02 engineering and technology, endosomal escape, 010402 general chemistry, Endocytosis, 01 natural sciences, Article, delivery of apoptotic peptides, lcsh:Pharmacy and materia medica, intracellular delivery of antibody, polyphosphazene polymers, Internalization, media_common, chemistry.chemical_classification, biology, fungi, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Cytosol, chemistry, Cancer cell, Drug delivery, biology.protein, Biophysics, cytotoxicity, intracellular protein delivery, 0210 nano-technology, Intracellular, Avidin
Abstract

Achieving intracellular delivery of protein therapeutics within cells remains a significant challenge. Although custom formulations are available for some protein therapeutics, the development of non-toxic delivery systems that can incorporate a variety of active protein cargo and maintain their stability, is a topic of great relevance. This study utilized ionic polyphosphazenes (PZ) that can assemble into supramolecular complexes through non-covalent interactions with different types of protein cargo. We tested a PEGylated graft copolymer (PZ-PEG) and a pyrrolidone containing linear derivative (PZ-PYR) for their ability to intracellularly deliver FITC-avidin, a model protein. In endothelial cells, PZ-PYR/protein exhibited both faster internalization and higher uptake levels than PZ-PEG/protein, while in cancer cells both polymers achieved similar uptake levels over time, although the internalization rate was slower for PZ-PYR/protein. Uptake was mediated by endocytosis through multiple mechanisms, PZ-PEG/avidin colocalized more profusely with endo-lysosomes, and PZ-PYR/avidin achieved greater cytosolic delivery. Consequently, a PZ-PYR-delivered anti-F-actin antibody was able to bind to cytosolic actin filaments without needing cell permeabilization. Similarly, a cell-impermeable Bax-BH3 peptide known to induce apoptosis, decreased cell viability when complexed with PZ-PYR, demonstrating endo-lysosomal escape. These biodegradable PZs were non-toxic to cells and represent a promising platform for drug delivery of protein therapeutics.

Published
2021

24. Design of a native-like secreted form of the hepatitis C virus E1E2 heterodimer

Author

Alexander K. Andrianov, Ruixue Wang, Roy A. Mariuzza, Steven K. H. Foung, Andrezza Chagas, Thomas E. Cleveland, Young Chang Kim, Abdul S. Yunus, Zhen-Yong Keck, Alexander Marin, Thomas R. Fuerst, Kinlin L. Chao, Johnathan D. Guest, Eric A. Toth, Brian G. Pierce, and Khadija Elkholy

Subjects
Models, Molecular, Viral Hepatitis Vaccines, 0301 basic medicine, Protein Conformation, Gene Expression, Hepacivirus, Protein Engineering, Virus, Epitope, Tetraspanin 28, Epitopes, Mice, 03 medical and health sciences, Immunogenicity, Vaccine, 0302 clinical medicine, Viral Envelope Proteins, Viral envelope, Antigen, Glycoprotein complex, Animals, Humans, Neutralizing antibody, Furin, Multidisciplinary, biology, Vaccination, Antibodies, Monoclonal, Biological Sciences, Hepatitis C Antibodies, Antibodies, Neutralizing, Hepatitis C, Virology, Recombinant Proteins, Transmembrane domain, 030104 developmental biology, Solubility, biology.protein, Receptors, Virus, Female, 030211 gastroenterology & hepatology, Protein Multimerization, Epitope Mapping, Protein Binding
Abstract

Hepatitis C virus (HCV) is a major worldwide health burden, and a preventive vaccine is needed for global control or eradication of this virus. A substantial hurdle to an effective HCV vaccine is the high variability of the virus, leading to immune escape. The E1E2 glycoprotein complex contains conserved epitopes and elicits neutralizing antibody responses, making it a primary target for HCV vaccine development. However, the E1E2 transmembrane domains that are critical for native assembly make it challenging to produce this complex in a homogenous soluble form that is reflective of its state on the viral envelope. To enable rational design of an E1E2 vaccine, as well as structural characterization efforts, we have designed a soluble, secreted form of E1E2 (sE1E2). As with soluble glycoprotein designs for other viruses, it incorporates a scaffold to enforce assembly in the absence of the transmembrane domains, along with a furin cleavage site to permit native-like heterodimerization. This sE1E2 was found to assemble into a form closer to its expected size than full-length E1E2. Preservation of native structural elements was confirmed by high-affinity binding to a panel of conformationally specific monoclonal antibodies, including two neutralizing antibodies specific to native E1E2 and to its primary receptor, CD81. Finally, sE1E2 was found to elicit robust neutralizing antibodies in vivo. This designed sE1E2 can both provide insights into the determinants of native E1E2 assembly and serve as a platform for production of E1E2 for future structural and vaccine studies, enabling rational optimization of an E1E2-based antigen.

Published
2021

25. Structure-Based Design of Hepatitis C Virus E2 Glycoprotein Improves Serum Binding and Cross-Neutralization

Author

Johnathan D. Guest, Kyle Garagusi, Steven K. H. Foung, Melissa C. Kerzic, Zhen-Yong Keck, Alexander K. Andrianov, Jonathan K. Ball, Richard A. Urbanowicz, Khadija Elkholy, Eric A. Toth, Brian G. Pierce, Patrick Lau, Ruixue Wang, Pragati Agnihotri, Alexander Marin, Roy A. Mariuzza, and Thomas R. Fuerst

Subjects
Models, Molecular, Viral Hepatitis Vaccines, Antigenicity, medicine.drug_class, Protein Conformation, Immunology, Population, Hepacivirus, Monoclonal antibody, Microbiology, Epitope, Cell Line, 03 medical and health sciences, Epitopes, Mice, Immunogenicity, Vaccine, Antigen, Viral Envelope Proteins, Neutralization Tests, Virology, Vaccines and Antiviral Agents, medicine, Animals, Humans, education, Antigens, Viral, 030304 developmental biology, 0303 health sciences, education.field_of_study, biology, Immunogenicity, 030302 biochemistry & molecular biology, Antibodies, Monoclonal, Hepatitis C Antibodies, Antibodies, Neutralizing, Hepatitis C, Hypervariable region, HEK293 Cells, Polyclonal antibodies, Insect Science, Antibody Formation, biology.protein, Female, Antibody
Abstract

Copyright © 2020 American Society for Microbiology. An effective vaccine for hepatitis C virus (HCV) is a major unmet need, and it requires an antigen that elicits immune responses to key conserved epitopes. Based on structures of antibodies targeting HCV envelope glycoprotein E2, we designed immunogens to modulate the structure and dynamics of E2 and favor induction of broadly neutralizing antibodies (bNAbs) in the context of a vaccine. These designs include a point mutation in a key conserved antigenic site to stabilize its conformation, as well as redesigns of an immunogenic region to add a new N-glycosylation site and mask it from antibody binding. Designs were experimentally characterized for binding to a panel of human monoclonal antibodies (HMAbs) and the coreceptor CD81 to confirm preservation of epitope structure and preferred antigenicity profile. Selected E2 designs were tested for immunogenicity in mice, with and without hypervariable region 1, which is an immunogenic region associated with viral escape. One of these designs showed improvement in polyclonal immune serum binding to HCV pseudoparticles and neutralization of isolates associated with antibody resistance. These results indicate that antigen optimization through structure-based design of the envelope glycoproteins is a promising route to an effective vaccine for HCV.IMPORTANCE Hepatitis C virus infects approximately 1% of the world's population, and no vaccine is currently available. Due to the high variability of HCV and its ability to actively escape the immune response, a goal of HCV vaccine design is to induce neutralizing antibodies that target conserved epitopes. Here, we performed structure-based design of several epitopes of the HCV E2 envelope glycoprotein to engineer its antigenic properties. Designs were tested in vitro and in vivo, demonstrating alteration of the E2 antigenic profile in several cases, and one design led to improvement of cross-neutralization of heterologous viruses. This represents a proof of concept that rational engineering of HCV envelope glycoproteins can be used to modulate E2 antigenicity and optimize a vaccine for this challenging viral target.

Published
2020

26. A cancer drug atlas enables synergistic targeting of independent drug vulnerabilities

Author

Brigitta G. Baumert, Erik P. Sulman, Jan Koster, Rogier Dik, Yoran Broersma, Tonny Lagerweij, Rogier Versteeg, Lucas J A Stalpers, D. P. Noske, Irene Roelofs, Jhon Alexander Marin Soto, Sjors G J G In 't Veld, Peter Sminia, Naomi Petersen, Louis Vermeulen, Maria C. Lecca, Eelke Brands, Ravi S. Narayan, Bakhos A. Tannous, Renée X. de Menezes, David Bailey, Jian Teng, Bart A Westerman, Ben J. Slotman, Thomas Wurdinger, Piet Molenaar, Fleur M G Cornelissen, Roel G.W. Verhaak, Colin Watts, Frederick F. Lang, Kristiaan J. Lenos, Wessel N. van Wieringen, Philip van Kuiken, Oncogenomics, CCA - Cancer biology and immunology, Tytgat Institute for Liver and Intestinal Research, Center of Experimental and Molecular Medicine, Radiotherapy, AGEM - Re-generation and cancer of the digestive system, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, APH - Methodology, Radiation Oncology, Neurosurgery, Epidemiology and Data Science, Molecular cell biology and Immunology, and Internal medicine

Subjects
0301 basic medicine, Drug, Cancer therapy, Computer science, Cell Survival, Science, media_common.quotation_subject, Cancer drugs, General Physics and Astronomy, Antineoplastic Agents, Breast Neoplasms, Computational biology, General Biochemistry, Genetics and Molecular Biology, Drug synergism, Article, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, Cell Line, Tumor, medicine, Animals, Humans, lcsh:Science, Cancer genetics, Melanoma, media_common, Multidisciplinary, Computational Biology, Drug Synergism, General Chemistry, medicine.disease, Computational biology and bioinformatics, Drug Combinations, 030104 developmental biology, Logistic Models, Drug screening, 030220 oncology & carcinogenesis, Pharmacogenomics, lcsh:Q, Glioblastoma
Abstract

Personalized cancer treatments using combinations of drugs with a synergistic effect is attractive but proves to be highly challenging. Here we present an approach to uncover the efficacy of drug combinations based on the analysis of mono-drug effects. For this we used dose-response data from pharmacogenomic encyclopedias and represent these as a drug atlas. The drug atlas represents the relations between drug effects and allows to identify independent processes for which the tumor might be particularly vulnerable when attacked by two drugs. Our approach enables the prediction of combination-therapy which can be linked to tumor-driving mutations. By using this strategy, we can uncover potential effective drug combinations on a pan-cancer scale. Predicted synergies are provided and have been validated in glioblastoma, breast cancer, melanoma and leukemia mouse-models, resulting in therapeutic synergy in 75% of the tested models. This indicates that we can accurately predict effective drug combinations with translational value., Drug synergies impact the efficacy of combination therapies but are difficult to identify. Here Narayan et al. describe the drug atlas, a method to predict effective drug combinations from common exclusive drug effects providing a resource for exploring and understanding effective drug combinations.

Published
2020

27. Clarificación de aceite de cocina usado y decoloración de aceite rojo de palma con el uso de ozono, carbón activado y peróxido de hidrógeno

Author

Marco Sinche, Gonzalo Jácome, Freddy Alexander Marin Sinche, and Tania Parra

Subjects
Acid value, Saponification value, aceite comestible usado, lcsh:T, aceite rojo de palma, Raw material, lcsh:Technology, ozonización, law.invention, carbón activado, chemistry.chemical_compound, Adsorption, Brining, chemistry, law, lcsh:TA1-2040, medicine, Hydrogen peroxide, lcsh:Engineering (General). Civil engineering (General), Filtration, Activated carbon, medicine.drug, Nuclear chemistry, peróxido de hidrógeno
Abstract

Se evaluaron procesos alternativos para la clarificación de aceite de cocina usado (ACU) y la decoloración de aceite rojo de palma (ARP). La clarificación del ACU se desarrolló en dos etapas, una remoción de sedimentos y una decoloración. En la primera etapa se probaron tres métodos: calentamiento, lavado con salmuera, sedimentación y filtración; solamente sedimentación, y lavado con salmuera, sedimentación y filtración. El tercer método permitió la mayor eliminación de impurezas. Para la segunda etapa se probaron tres métodos: adsorción con carbón activado (CA); ozonización y aplicación de peróxido de hidrógeno. El mejor método fue la ozonización con una dosis de 0,1946 mol O3/L y una temperatura post-tratamiento de 60 ºC; se alcanzó un porcentaje de decoloración de 24,4%. Para el ARP, el mejor tratamiento de decoloración fue la adsorción con carbón activado. La relación de aceite:CA que generó los mejores resultados fue 25:1; se logró una disminución de color del 90,48%. El análisis de los parámetros de calidad medidos en los aceites tratados (índice de acidez, índice de saponificación, color y sólidossuspendidos) determinó que estos podrían ser utilizados como materia prima para la elaboración de jabón.

Published
2018

28. Biocompatible Nanocoatings of Fluorinated Polyphosphazenes through Aqueous Assembly

Author

Victoria Albright, Alexander K. Andrianov, Victor Selin, Alexander Marin, Svetlana A. Sukhishvili, and John F. Ankner

Subjects
Aqueous solution, Materials science, Biocompatibility, Ionic bonding, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Polyelectrolyte, 0104 chemical sciences, Hydrophobic effect, chemistry.chemical_compound, Chemical engineering, chemistry, Fluorine, General Materials Science, Polyphosphazene, 0210 nano-technology, Phosphazene
Abstract

Nonionic fluorinated polyphosphazenes, such as poly[bis(trifluoroethoxy)phosphazene] (PTFEP), display superb biocompatibility, yet their deposition to surfaces has been limited to solution casting from organic solvents or thermal molding. Herein, hydrophobic coatings of fluorinated polyphosphazenes are demonstrated through controlled deposition of ionic fluorinated polyphosphazenes (iFPs) from aqueous solutions using the layer-by-layer (LbL) technique. Specifically, the assemblies included poly[(carboxylatophenoxy)(trifluoroethoxy)phosphazenes] with varied content of fluorine atoms as iFPs (or poly[bis(carboxyphenoxy)phosphazene] (PCPP) as a control nonfluorinated polyphosphazene) and a variety of polycations. Hydrophobic interactions largely contributed to the formation of LbL films of iFPs with polycations, leading to linear growth and extremely low water uptake. Hydrophobicity-enhanced ionic pairing within iFP/BPEI assemblies gave rise to large-amplitude oscillations in surface wettability as a function of capping layer, which were the largest for the most fluorinated iFP, while control PCPP/polycation systems remained hydrophilic regardless of the film top layer. Neutron reflectometry (NR) studies indicated superior layering and persistence of such layering in salt solution for iFP/BPEI films as compared to control PCPP/polycation systems. Hydrophobicity of iFP-capped LbL coatings could be further enhanced by using a highly porous polyester surgical felt rather than planar substrates for film deposition. Importantly, iFP/polycation coatings displayed biocompatibility which was similar to or superior to that of solution-cast coatings of a clinically validated material (PTFEP), as demonstrated by the hemolysis of the whole blood and protein adsorption studies.

Published
2018

29. Nano-Assembly of Quisinostat and Biodegradable Macromolecular Carrier Results in Supramolecular Complexes with Slow-Release Capabilities

Author

Alexander K. Andrianov, David J Weber, Alexander Marin, and Ananda Chowdhury

Subjects
polyphosphazenes, Chemistry, PEGylation, Pharmaceutical Science, histone deacetylase inhibitors, Prodrug, Conjugated system, Small molecule, Combinatorial chemistry, Article, Polyelectrolyte, quisinostat, RS1-441, Asymmetric flow field flow fractionation, Pharmacy and materia medica, Dynamic light scattering, Polyphosphazene, slow-release
Abstract

Self-assembly of ionically charged small molecule drugs with water-soluble biodegradable polyelectrolytes into nano-scale complexes can potentially offer a novel and attractive approach to improving drug solubility and prolonging its half-life. Nanoassemblies of quisinostat with water-soluble PEGylated anionic polyphosphazene were prepared by gradient-driven escape of solvent resulting in the reduction of solvent quality for a small molecule drug. A study of binding, analysis of composition, stability, and release profiles was conducted using asymmetric flow field flow fractionation (AF4) and dynamic light scattering (DLS) spectroscopy. Potency assays were performed with WM115 human melanoma and A549 human lung cancer cell lines. The resulting nano-complexes contained up to 100 drug molecules per macromolecular chain and displayed excellent water-solubility and improved hemocompatibility when compared to co-solvent-based drug formulations. Quisinostat release time (complex dissociation) at near physiological conditions in vitro varied from 5 to 14 days depending on initial drug loading. Multimeric complexes displayed dose-dependent potency in cell-based assays and the results were analyzed as a function of complex concentration, as well as total content of drug in the system. The proposed self-assembly process may present a simple alternative to more sophisticated delivery modalities, namely chemically conjugated prodrug systems and nanoencapsulation-based formulations.

Published
2021

31. PCPP-Adjuvanted Respiratory Syncytial Virus (RSV) sF Subunit Vaccine: Self-Assembled Supramolecular Complexes Enable Enhanced Immunogenicity and Protection

Author

Corinne Cayatte, Angie Snell Bennett, Kirsten Schneider-Ohrum, Alexander K. Andrianov, Jason D. Marshall, Gaurav Manohar Rajani, and Alexander Marin

Subjects
0301 basic medicine, Antigenicity, Polymers, viruses, medicine.medical_treatment, Pharmaceutical Science, Enzyme-Linked Immunosorbent Assay, CHO Cells, 02 engineering and technology, Biology, medicine.disease_cause, Immunoadjuvant, Neutralization, Virus, Microbiology, Mice, 03 medical and health sciences, Cricetulus, Organophosphorus Compounds, Immunity, Drug Discovery, medicine, Animals, Humans, Immunity, Cellular, Mice, Inbred BALB C, Circular Dichroism, Immunogenicity, Viral Vaccines, respiratory system, 021001 nanoscience & nanotechnology, Antibodies, Neutralizing, Virology, Respiratory Syncytial Viruses, 030104 developmental biology, Respiratory syncytial virus (RSV), Immunoglobulin G, Molecular Medicine, 0210 nano-technology, Adjuvant
Abstract

PCPP, a well-defined polyphosphazene macromolecule, has been studied as an immunoadjuvant for a soluble form of the postfusion glycoprotein of respiratory syncytial virus (RSV sF), which is an attractive vaccine candidate for inducing RSV-specific immunity in mice and humans. We demonstrate that RSV sF-PCPP formulations induce high neutralization titers to RSV comparable to alum formulations even at a low PCPP dose and protect animals against viral challenge both in the lung and in the upper respiratory tract. PCPP formulations were also characterized by Th1-biased responses, compared to Th2-biased responses that are more typical for RSV sF alone or RSV sF-alum formulations, suggesting an inherent immunostimulating activity of the polyphosphazene adjuvant. We defined these immunologically active RSV sF-PCPP formulations as self-assembled water-soluble protein-polymer complexes with distinct physicochemical parameters. The secondary structure and antigenicity of the protein in the complex were fully preserved during the spontaneous aqueous self-assembly process. These findings further advance the concept of polyphosphazene immunoadjuvants as unique dual-functionality adjuvants integrating delivery and immunostimulating modalities in one water-soluble molecule.

Published
2017

32. Investigation of Low-Pressure Glow Discharge in a Coaxial Gridded Hollow Cathode

Author

V. S. Bekasov, Stepan I. Eliseev, Alexander Marin, Jieshu Jia, Zhongxiang Zhou, Chengxun Yuan, Yonggan Liang, Anatoly Kudryavtsev, Gennady Kirsanov, and Ruilin Gao

Subjects
010302 applied physics, Nuclear and High Energy Physics, Electron density, Glow discharge, Materials science, Plasma, Condensed Matter Physics, 01 natural sciences, Cathode, 010305 fluids & plasmas, law.invention, symbols.namesake, Physics::Plasma Physics, law, 0103 physical sciences, symbols, Langmuir probe, Electron temperature, Electric potential, Atomic physics, Coaxial
Abstract

This paper contains results of numerical and experimental investigation of glow discharge plasma created in a chamber of a new-type large-volume coaxial gridded hollow cathode. The discharge is created in argon at 25 Pa by applying time-varying power with frequency 20 kHz on electrodes. A 2-D model of the discharge was built using COMSOL Multiphysics. Self-consistent description of the discharge was obtained using the extended fluid approach, which couples continuity equations for charged particles and electron energy balance with Poisson's equation for electric potential. Electron transport coefficients and rates of electron-impact reactions were calculated using the electron energy distribution function. The spatial and radial distributions of plasma potential (V p ), electron density (n e ), and electron temperature (T e ) were obtained. It is shown that the plasma inside the chamber is similar to the negative glow of a dc glow discharge. Comparison of numerical results with the Langmuir probe measurements of electron density and electron temperature is presented and showed a good agreement.

Published
2016

33. Protein-loaded soluble and nanoparticulate formulations of ionic polyphosphazenes and their interactions on molecular and cellular levels

Author

Alexander K. Andrianov, Joseph Deng, Thomas R. Fuerst, and Alexander Marin

Subjects
chemistry.chemical_classification, Materials science, Lysis, Polymers, Bioengineering, Polyethylene glycol, Oligosaccharide, Article, Polyethylene Glycols, Biomaterials, Asymmetric flow field flow fractionation, chemistry.chemical_compound, Organophosphorus Compounds, chemistry, Dynamic light scattering, Mechanics of Materials, Biophysics, PEGylation, Nanoparticles, Polyphosphazene, Lysozyme
Abstract

Nanoparticulate and water-soluble formulations of ionic polyphosphazenes and protein cargo - lysozyme (LYZ) were prepared by their self-assembly in aqueous solutions at near physiological pH (pH 7.4) in the presence and absence of an ionic cross-linker – spermine tetrahydrochloride. Efficiency of LYZ encapsulation, physico-chemical characteristics of formulations, and the effect of reaction parameters were investigated using asymmetric flow field flow fractionation (AF4) and dynamic light scattering (DLS) methods. The effect of both polymer formulations on encapsulated LYZ was evaluated using soluble oligosaccharide substrate, whereas their ability to present the protein to cellular surfaces was assessed by measuring enzymatic activity of encapsulated LYZ against Micrococcus lysodeikticus cells. It was found that both soluble and cross-linked polymer matrices reduce lysis of bacterial cells by LYZ, whereas activity of encapsulated protein against oligosaccharide substrate remained practically unchanged indicating no adverse effect of polyphosphazene on protein integrity. Moreover, nanoparticulate formulations display distinctly different behavior in cellular assays when compared to their soluble counterparts. LYZ encapsulated in polyphosphazene nanoparticles shows approximately 2.5-fold higher activity in its ability to lyse cells as compared with water-soluble LYZ-PCPP formulations. A new approach to PEGylation of polyphosphazene nanoparticles was also developed. The method utilizes a new ionic polyphosphazene derivative, which contains graft (polyethylene glycol) chains. PEGylation allows for an improved control over the size of nanoparticles and broader modulation of their cross-linking density, while still permitting for protein presentation to cellular substrates.

Published
2019

34. Next generation polyphosphazene immunoadjuvant: Synthesis, self-assembly and in vivo potency with human papillomavirus VLPs-based vaccine

Author

Alexander K. Andrianov, Jason D. Marshall, Athina Zacharia, Ananda Chowdhury, Robert H. Shoemaker, Ligia A. Pinto, Richard B.S. Roden, Reinhard Kirnbauer, Sarah M. Valencia, and Alexander Marin

Subjects
Polymers, Drug Compounding, viruses, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Biocompatible Materials, Bioengineering, 02 engineering and technology, Antibodies, Viral, complex mixtures, Immunoadjuvant, Article, 03 medical and health sciences, Organophosphorus Compounds, Immune system, Adjuvants, Immunologic, Antigen, In vivo, Animals, Humans, Potency, General Materials Science, Polyphosphazene, Papillomavirus Vaccines, Vaccines, Virus-Like Particle, 030304 developmental biology, Mice, Inbred BALB C, 0303 health sciences, biology, Chemistry, Papillomavirus Infections, Vaccination, virus diseases, Hydrogels, biochemical phenomena, metabolism, and nutrition, 021001 nanoscience & nanotechnology, Antibodies, Neutralizing, In vitro, Drug Liberation, Biochemistry, biology.protein, Molecular Medicine, Female, Antibody, 0210 nano-technology
Abstract

Poly[di(carboxylatomethylphenoxy)phosphazene] (PCMP), a new member of polyphosphazene immunoadjuvant family, is synthesized. In vitro assessment of a new macromolecule revealed hydrolytic degradation profile and immunostimulatory activity comparable to its clinical stage homologue PCPP; however, PCMP was characterized by a beneficial reduced sensitivity to the ionic environment. In vivo evaluation of PCMP potency was conducted with human papillomavirus (HPV) virus-like particles (VLPs) based RG1-VLPs vaccine. In contrast with previously reported self-assembly of polyphosphazene adjuvants with proteins, which typically results in the formation of complexes with multimeric display of antigens, PCMP surface modified VLPs in a composition dependent pattern, which at a high polymer-to VLPs ratio led to stabilization of antigenic particles. Immunization experiments in mice demonstrated that PCMP adjuvanted RG1-VLPs vaccine induced potent humoral immune responses, in particular, on the level of highly desirable protective cross-neutralizing antibodies, and outperformed PCPP and Alhydrogel adjuvanted formulations.

Published
2021

35. A Benchmark Data Set for Long-Term Monitoring in the eLTER Site Gesäuse-Johnsbachtal

Author

Florian Lippl, Alexander Maringer, Margit Kurka, Jakob Abermann, Wolfgang Schöner, and Manuela Hirschmugl

Subjects
Gesaeuse, Johnsbachtal, eLTER, Bibliography. Library science. Information resources
Abstract

This paper gives an overview over all currently available data sets for the European Long-term Ecosystem Research (eLTER) monitoring site Gesäuse-Johnsbachtal. The site is part of the LTSER platform Eisenwurzen in the Alps of the province of Styria, Austria. It contains both protected (National Park Gesäuse) and non-protected areas (Johnsbachtal). Although the main research focus of the eLTER monitoring site Gesäuse-Johnsbachtal is on inland surface running waters, forests and other wooded land, the eLTER whole system (WAILS) approach was followed in regard to the data selection, systematically screening all available data in regard to its suitability as eLTER’s Standard Observations (SOs). Thus, data from all system strata was included, incorporating Geosphere, Atmosphere, Hydrosphere, Biosphere and Sociosphere. In the WAILS approach these SOs are key data for a whole system approach towards long term ecosystem research. Altogether, 54 data sets have been collected for the eLTER monitoring site Gesäuse-Johnsbachtal and included in the Dynamical Ecological Information Management System – Site and Data Registry (DEIMS-SDR), which is the eLTER data platform. The presented work provides all these data sets through dedicated data repositories for FAIR use. This paper gives an overview on all compiled data sets and their main properties. Additionally, the available data are evaluated in a concluding gap analysis with regard to the needed observation data according to WAILS, followed by an outlook on how to fill these gaps.

Published
2024
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36. Polyphosphazenes enable durable, hemocompatible, highly efficient antibacterial coatings

Author

Alexander K. Andrianov, Hanna Hlushko, Daniel Penarete-Acosta, Jeremy Zheng, Victoria Albright, Svetlana A. Sukhishvili, Hongjun Wang, Alexander Marin, Mary Stack, and Arul Jayaraman

Subjects
Staphylococcus aureus, Polymers, Swine, Biophysics, Bioengineering, 02 engineering and technology, medicine.disease_cause, Article, Biomaterials, 03 medical and health sciences, Organophosphorus Compounds, Coated Materials, Biocompatible, medicine, Animals, 030304 developmental biology, 0303 health sciences, Chemistry, Cationic polymerization, Adhesion, Neomycin, 021001 nanoscience & nanotechnology, Polyelectrolyte, Anti-Bacterial Agents, Mechanics of Materials, Ceramics and Composites, Colistin, Rabbits, 0210 nano-technology, Antibacterial activity, Polymyxin B, medicine.drug, Nuclear chemistry
Abstract

Biocompatible antibacterial coatings are highly desirable to prevent bacterial colonization on a wide range of medical devices from hip implants to skin grafts. Traditional polyelectrolytes are unable to directly form coatings with cationic antibiotics at neutral pH and suffer from high degrees of antibiotic release upon exposure to physiological concentrations of salt. Here, novel inorganic-organic hybrid polymer coatings based on direct layer-by-layer assembly of anionic polyphosphazenes (PPzs) of various degrees of fluorination with cationic antibiotics (polymyxin B, colistin, gentamicin, and neomycin) are reported. The coatings displayed low levels of antibiotic release upon exposure to salt and pH-triggered response of controlled doses of antibiotics. Importantly, coatings remained highly surface active against Escherichia coli and Staphylococcus aureus, even after 30 days of pre-exposure to physiological conditions (bacteria-free) or after repeated bacterial challenge. Moreover, coatings displayed low (

Published
2021

37. Hydrolytically Degradable PEGylated Polyelectrolyte Nanocomplexes for Protein Delivery

Author

Alexander K. Andrianov, Andre P. Martinez, Alexander Marin, Jacob L. Weidman, and Thomas R. Fuerst

Subjects
Polymers and Plastics, Polymers, Carboxylic acid, Supramolecular chemistry, Bioengineering, Antineoplastic Agents, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Polyethylene Glycols, Biomaterials, chemistry.chemical_compound, Organophosphorus Compounds, PEG ratio, Materials Chemistry, Zeta potential, Asparaginase, Polyphosphazene, chemistry.chemical_classification, Hydrolysis, 021001 nanoscience & nanotechnology, Combinatorial chemistry, Polyelectrolytes, Polyelectrolyte, 0104 chemical sciences, chemistry, PEGylation, Nanoparticles, 0210 nano-technology, Ethylene glycol
Abstract

Novel oppositely charged polyphosphazene polyelectrolytes containing grafted poly(ethylene glycol) (PEG) chains were synthesized as modular components for the assembly of biodegradable PEGylated protein delivery vehicles. These macromolecular counterparts, which contained either carboxylic acid or tertiary amino groups, were then formulated at near physiological conditions into supramolecular assemblies of nanoscale level, below 100 nm. Nanocomplexes with electroneutral surface charge, as assessed by zeta potential measurements, were stable in aqueous solutions, which suggests their compact polyelectrolyte complex "core"-hydrophilic PEG "shell" structure. Investigation of PEGylated polyphosphazene nanocomplexes as agents for noncovalent PEGylation of the therapeutic protein l-asparaginase (L-ASP) in vitro demonstrated their ability to dramatically reduce protein antigenicity, as measured by antibody binding using enzyme linked immunosorbent assay (ELISA). Encapsulation in nanocomplexes did not affect enzymatic activity of L-ASP, but improved its thermal stability and proteolytic resistance. Gel permeation chromatography (GPC) experiments revealed that all synthesized polyphosphazenes exhibited composition controlled hydrolytic degradability in aqueous solutions at neutral pH and showed greater stability at lower temperatures. Overall, novel hydrolytically degradable polyphosphazene polyelectrolytes capable of spontaneous self-assembly into PEGylated nanoparticulates in aqueous solutions can potentially enable a simple and effective approach to modifying therapeutic proteins without the need for their covalent modification.

Published
2018

40. The effect of stable macromolecular complexes of ionic polyphosphazene on HIV Gag antigen and on activation of human dendritic cells and presentation to T-cells

Author

Zofia M. Prokopowicz, Alexander K. Andrianov, Alexander Marin, Ofer Levy, Christine D. Palmer, Christy J. Mancuso, Jana Ninković, and David J. Dowling

Subjects
Adult, Polymers, medicine.medical_treatment, T cell, Antigen presentation, Biophysics, Bioengineering, Biology, gag Gene Products, Human Immunodeficiency Virus, Biomaterials, Organophosphorus Compounds, Immune system, Adjuvants, Immunologic, Antigen, Immunity, medicine, Humans, Cells, Cultured, Antigen Presentation, Immunity, Cellular, Infant, Dendritic Cells, Dendritic cell, Recombinant Proteins, Cytokine, medicine.anatomical_structure, Mechanics of Materials, Immunology, Ceramics and Composites, Alum Compounds, Adjuvant
Abstract

Neonates and infants are susceptible to infection due to distinct immune responses in early life. Therefore, development of vaccine formulation and delivery systems capable of activating human newborn leukocytes is of global health importance. Poly[di(carboxylatophenoxy)phosphazene] (PCPP) belongs to a family of ionic synthetic polyphosphazene polyelectrolyte compounds that can form non-covalent interactions with protein antigens and demonstrate adjuvant activity in animals and in human clinical trials. However, little is known about their ability to activate human immune cells. In this study, we characterized the effects of PCPP alone or in combination with a model antigen (recombinant HIV-Gag (Gag)), on the maturation, activation and antigen presentation by human adult and newborn dendritic cells (DCs) in vitro . PCPP treatment induced DC activation as assessed by upregulation of co-stimulatory molecules and cytokine production. Studies benchmarking PCPP to Alum, the most commonly used vaccine adjuvant, demonstrated that both triggered cell death and release of danger signals in adult and newborn DCs. When complexed with Gag antigen, PCPP maintained its immunostimulatory characteristics while permitting internalization and presentation of Gag by DCs to HIV-Gag-specific CD4 + T cell clones. The PCPP vaccine formulation outlined here has intrinsic adjuvant activity, can facilitate effective delivery of antigen to DCs, and may be advantageous for induction of beneficial T cell-mediated immunity. Moreover, polyphosphazenes can further reduce cost of vaccine production and distribution through their dose-sparing and antigen-stabilizing properties, thus potentially eliminating the need for cold chain distribution.

Published
2014

41. Molecular-Level Interactions of Polyphosphazene Immunoadjuvants and Their Potential Role in Antigen Presentation and Cell Stimulation

Author

Alexander K. Andrianov, Thomas R. Fuerst, and Alexander Marin

Subjects
0301 basic medicine, Polymers and Plastics, Polymers, Antigen presentation, Bioengineering, Immune receptor, Endosomes, Biomaterials, 03 medical and health sciences, Organophosphorus Compounds, Antigen, Adjuvants, Immunologic, Materials Chemistry, Humans, Avidity, Polyphosphazene, Receptor, Antigen Presentation, Phenylpropionates, Chemistry, Toll-Like Receptors, Hydrogen-Ion Concentration, 030104 developmental biology, HEK293 Cells, Biochemistry, Gene Expression Regulation, Mannose receptor, Macromolecule
Abstract

Two macromolecular immunoadjuvants, poly[di(carboxylatophenoxy)phosphazene], PCPP, and poly[di(carboxylatoethylphenoxy)phosphazene], PCEP, have been investigated for their molecular interactions with model and biopharmaceutically important proteins in solutions, as well as for their TLR stimulatory effects and pH-dependent membrane disruptive activity in cellular assays. Solution interactions between polyphosphazenes and proteins, including antigens and soluble immune receptor proteins, have been studied using Asymmetric Flow Field Flow Fractionation (AF4) and Dynamic Light Scattering (DLS) at near physiological conditions: phosphate buffered saline, pH 7.4. Polyphosphazenes demonstrated selectivity in their molecular interactions with various proteins, but displayed strong binding with all vaccine antigens tested in the present study. It was found that both PCPP and PCEP showed strong avidity to soluble immune receptor proteins, such as Mannose Receptor (MR) and certain Toll-Like Receptor (TLR) proteins. Studies on TLR stimulation in vitro using HEK293 cells with overexpressed human TLRs revealed activation of TLR7, TLR8, and TLR9 signaling pathways, albeit with some nonspecific stimulation, for PCPP and the same pathways plus TLR3 for PCEP. Finally, PCEP, but not PCPP, demonstrated pH-dependent membrane disruptive activity in the pH range corresponding to the pH environment of early endosomes, which may play a role in a cross-presentation of antigenic proteins.

Published
2016

42. Carboxymethylcellulose-Chitosan-coated microneedles with modulated hydration properties

Author

Alexander K. Andrianov and Alexander Marin

Subjects
Materials science, Aqueous solution, Polymers and Plastics, technology, industry, and agriculture, Biomaterial, General Chemistry, Polyelectrolyte, Surfaces, Coatings and Films, Chitosan, Contact angle, chemistry.chemical_compound, chemistry, Chemical engineering, Polymer chemistry, Materials Chemistry, Wetting, Drug carrier, Dissolution
Abstract

Microneedles containing sodium carboxymethylcellulose (CMC) formulations were fabricated to include an external chitosan (CS) layer to modulate their hydration profile, an important parameter affecting their application as intradermal delivery devices and their storage. The microfabrication process was carried out under conditions that enabled the formation of polyelectrolyte complexes between these oppositely charged macromolecules. CMC–CS microneedles were characterized by water uptake in a humid environment, contact angle measurements, dissolution in aqueous solutions, and protein-release profiles. The results demonstrate that the microneedles containing CMC–CS formulations displayed suppressed moisture sensitivity in water vapors compared to their unmodified CMC counterparts while the maintaining quick protein-release characteristics required for their uses. This approach also showed the potential for sustained protein-release applications, as the CMC–CS formulations could be combined in layers to fabricate multicompartment microneedle coatings with delayed release characteristics. © 2011 Wiley Periodicals, Inc. J Appl Polym Sci, 2011

Published
2011

43. Protein Stabilization in Aqueous Solutions of Polyphosphazene Polyelectrolyte and Non-Ionic Surfactants

Author

Daniel P. DeCollibus, Alexander K. Andrianov, and Alexander Marin

Subjects
Aqueous solution, Polymers and Plastics, Polymers, Chemistry, Ionic bonding, Serum Albumin, Bovine, Bioengineering, Context (language use), Polyelectrolyte, Biomaterials, Surface-Active Agents, chemistry.chemical_compound, Adjuvants, Immunologic, Materials Chemistry, Animals, Organic chemistry, Cattle, Polyphosphazene, Protein stabilization, Horseradish Peroxidase, Phosphazene, Macromolecule
Abstract

Applications of polyelectrolytes as pharmaceutical excipients or biologically active agents generated an increased interest in formulations, in which ionic macromolecules share the same milieu with protein drugs or vaccine antigens. Macromolecular interactions, which often take place in such systems, can potentially impact formulation activity and stability. The present article reports that poly[di(carboxylatophenoxy)phosphazene], disodium salt (PCPP), which has been previously shown to be a potent vaccine adjuvant, also displays a strong protein stabilizing effect in aqueous solutions that can be significantly amplified in the presence of nonionic surfactants. The phenomenon is studied in the context of macromolecular interactions in the system and is linked to the formation of PCPP-protein and PCPP-protein-surfactant complexes.

Published
2010

44. Degradation of Polyaminophosphazenes: Effects of Hydrolytic Environment and Polymer Processing

Author

Alexander K. Andrianov and Alexander Marin

Subjects
chemistry.chemical_classification, Substitution reaction, Polymers and Plastics, Hydrolysis, Kinetics, Bioengineering, Polymer, Hydrogen-Ion Concentration, Polyethylene Glycols, Biomaterials, chemistry.chemical_compound, Biopolymers, Organophosphorus Compounds, Polymer degradation, chemistry, Polymer chemistry, Polyamines, Materials Chemistry, Organic chemistry, Degradation (geology), Phosphazene, Macromolecule
Abstract

Polyphosphazenes with amino acid ester side groups show potential as hydrolytically degradable materials for biomedical applications. This study focuses on practical aspects of their use as biodegradable materials, such as effects of the hydrolytic environment and sample processing. Poly[di(ethyl glycinato)phosphazene], PEGP, and poly[di(ethyl alaninato)phosphazene], PEAP, were prepared by macromolecular substitution reaction, ensuring the absence of the residual chlorine atoms to avoid their influence on the hydrolysis. The kinetics of polymer degradation was studied by simultaneously measuring polymer mass loss, molecular weight decrease, and the release of phosphates and ammonia. The effect of pH, buffer composition, temperature, casting solvents, and film thickness were investigated.

Published
2006

45. Fluorinated polyphosphazene polyelectrolytes

Author

Alexander K. Andrianov, Paul Peterson, Jianping Chen, and Alexander Marin

Subjects
chemistry.chemical_classification, Aqueous solution, Materials science, Polymers and Plastics, Carboxylic acid, Ionic bonding, General Chemistry, Polymer, Polyelectrolyte, Surfaces, Coatings and Films, Gel permeation chromatography, chemistry.chemical_compound, chemistry, Polymer chemistry, Materials Chemistry, Organic chemistry, Polyphosphazene, Phosphazene
Abstract

Polyphosphazene polyelectrolytes containing various amounts of hydrophobic fluorinated moieties and ionic carboxylic acid groups were synthesized. Polymer compositions and molecular weights were characterized by NMR and gel permeation chromatography. Interestingly, poly[(carboxylatophenoxy)(trifluoroethoxy)phosphazene] containing 60 mol % fluorinated groups was found to be soluble in aqueous solutions. The behavior of fluorinated polyelectrolytes in reactions of ionic complexation with multivalent and monovalent salts was studied in aqueous solutions and ethanol–water mixtures. Such reactions led to the formation of ionotropic hydrogels under mild conditions and, thus, are of importance to the development of microencapsulation processes and controlled release formulations. All of the synthesized polymers underwent phase separation in the presence of multivalent ionic crosslinkers, such as spermine and calcium chloride. This included a water-soluble polyelectrolyte containing 40 mol % ionic groups and hydrophobic polymer with only 3 mol % carboxylic acid groups. © 2006 Wiley Periodicals, Inc. J Appl Polym Sci 103: 53–58, 2007

Published
2006

46. Water-Soluble Biodegradable Polyphosphazenes Containing N-Ethylpyrrolidone Groups

Author

Alexander K. Andrianov, and Alexander Marin, and Paul Peterson

Subjects
chemistry.chemical_classification, Polymers and Plastics, Organic Chemistry, Polymer, Biodegradation, Polyelectrolyte, Inorganic Chemistry, chemistry.chemical_compound, chemistry, Polymer chemistry, Materials Chemistry, Copolymer, Alkoxy group, Organic chemistry, Polyphosphazene, Pendant group, Phosphazene
Abstract

Novel water-soluble biodegradable polyphosphazenes are described. Polymers are constructed on the basis of a biodegradable polyphosphazene backbone to mimic the structure of poly(vinylpyrrolidone), PVP. Poly{di[2-(2-oxo-1-pyrrolidinyl)ethoxy]phosphazene}, PYRP, and its copolymers containing biologically active carboxylatophenoxy side groups have been synthesized. The ability of these polymers to degrade in aqueous environment at 37 °C is demonstrated by light scattering-GPC and NMR studies. The degradation is manifested by the gradual decrease in the molecular weight and release of the side group −1-(2-hydroxyethyl)-2-pyrrolidone. It has been shown that the incorporation of N-ethylpyrrolidone containing side groups in the polymer structure can modulate degradation profiles of phosphazene copolymers. The kinetics of hydrolytic degradation and the effect of pH on the degradation rate have been investigated.

Published
2005

47. Novel Route to Sulfonated Polyphosphazenes: Single-Step Synthesis Using 'Noncovalent Protection' of Sulfonic Acid Functionality

Author

Alexander K. Andrianov, Nathan Corbett, Jonathan R. Sargent, Alexander Marin, and Jianping Chen

Subjects
chemistry.chemical_classification, Polymers and Plastics, Organic Chemistry, chemistry.chemical_element, Chemical modification, Single step, Sulfonic acid, Polyelectrolyte, Inorganic Chemistry, chemistry.chemical_compound, Sulfonate, chemistry, polycyclic compounds, Materials Chemistry, Chlorine, Nucleophilic substitution, Organic chemistry, Polyphosphazene
Abstract

A single-step approach for the synthesis of polyphosphazenes containing sulfonic acid functionalities is developed. Polyphosphazene “sulfonation” is conducted via the direct replacement of chlorine...

Published
2004

48. Intracellular uptake of Pluronic copolymer: effects of the aggregation state

Author

Natalya Rapoport, Muniruzzaman, Alexander Marin, Yi Luo, Ghaleb A. Husseini, William G. Pitt, and Glenn D. Prestwich

Subjects
Chromatography, medicine.diagnostic_test, Chemistry, Surfaces and Interfaces, General Medicine, Poloxamer, Endocytosis, Fluorescence spectroscopy, Flow cytometry, Colloid and Surface Chemistry, Membrane, Critical micelle concentration, Fluorescence microscope, medicine, Biophysics, Physical and Theoretical Chemistry, Intracellular, Biotechnology
Abstract

The effect of the Pluronic P-105 aggregation state on its uptake by HL-60 cells was studied by flow cytometry, fluorescence spectroscopy, and confocal and fluorescence microscopy using a fluorescently labeled Pluronic P105. In the low concentration region below the critical micelle concentration (CMC), Pluronic uptake was proportional to the concentration in the incubation medium. The proportionality broke sharply above the CMC, revealing a less efficient intracellular uptake of Pluronic micelles than that of unimers. The data suggested that Pluronic micelles were internalized via fluid-phase endocytosis while unimers were internalized via diffusion through plasma membranes. Based on the above findings, the shielding effect of Pluronic micelles on drug intracellular uptake was explained.

Published
2002

49. Antioxidative activity of 3-aryl-benzofuran-2-one stabilizers (Irganox®HP-136) in polypropylene

Author

Alexander Marin, Paul Dubs, and Lucedio Greci

Subjects
chemistry.chemical_classification, Polypropylene, Antioxidant, Polymers and Plastics, Chemistry, medicine.medical_treatment, Aryl, Induction period, Polymer, Condensed Matter Physics, chemistry.chemical_compound, Mechanics of Materials, Materials Chemistry, medicine, Organic chemistry, Phenols, Benzofuran, Lactone
Abstract

Irganox®HP-136(lactone), which is a mixture of 90% of 5,7-di- tert -butyl-3-(3,4-dimethylphenyl)3 H -benzofuran-2-one and 10% of 5,7-di- tert -butyl-3-(2,3-dimethylphenyl)3 H -benzofuran-2-one behaves as a medium strength chain-breaking antioxidant during polypropylene oxidation at 180 and 200 °C. The critical concentration (vide infra) required to inhibit oxidation is higher than that of the phenolic antioxidant 2246. The lactone is slowly consumed during the induction period and then much faster when the critical concentration is reached. Phosphites, sulphides and phenols increase the efficiency of the lactone during polymer oxidation. The use of lactone allows the amount of phenolic and phosphorous containing stabilizers to decrease without decreasing the thermooxidative stability of the polymer.

Published
2002

50. Physical behavior of 3-aryl-benzofuran-2-ones (Irganox ® HP-136) in polypropylene

Author

Lucedio Greci, Paul Dubs, and Alexander Marin

Subjects
Polypropylene, chemistry.chemical_classification, Heptane, Ethanol, Polymers and Plastics, Dodecane, Aryl, Condensed Matter Physics, Medicinal chemistry, chemistry.chemical_compound, chemistry, Mechanics of Materials, Polymer chemistry, Materials Chemistry, Benzofuran, Solubility, Lactone
Abstract

The solubility and diffusion of Irganox ® HP-136 (lactone), which is a mixture of 90% of 5,7-di- tert -butyl-3-(3,4-dimethylphenyl)3 H -benzofuran-2-one and 10% of 5,7-di- tert -butyl-3-(2,3-dimethylphenyl)3 H -benzofuran-2-one (lactone) in polypropylene (PP) were studied at temperatures ranging from 50 to 100 °C. The lactone is characterized by a good solubility and relatively low migration in the polymer. The rate of washing out of lactone with heptane at room temperature is considerably higher than that with dodecane and ethanol, increases with initial concentration of lactone in the polymer and decreases with time. The physical behavior of lactone in PP is similar to that of 2,2′-methylene-bis(4-methyl-6- tert -butylphenol) having similar molecular weight.

Published
2002

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