Your search keyword '"carbosilane dendrimers"' showing total 153 results

1. Molecular mechanism of action of imidazolium carbosilane dendrimers on the outer bacterial membrane – From membrane damage to permeability to antimicrobial endolysin

Author

Skrzyniarz, Kinga, Takvor-Mena, Samuel, Lach, Karolina, Łysek-Gładysińska, Małgorzata, Barrios-Gumiel, Óscar, Cano, Jesús, and Ciepluch, Karol

Published

2024

2. Amoebicidal and cysticidal in vitro activity of cationic dendritic molecules against Acanthamoeba polyphaga and Acanthamoeba griffini.

Author

Verdú-Expósito, Cristina, Martín-Pérez, Tania, Pérez-Serrano, Jorge, Sanchez-Nieves, Javier, de la Mata, Francisco Javier, and Heredero-Bermejo, Irene

Subjects

*DENDRIMERS, *ACANTHAMOEBA keratitis, *LIFE cycles (Biology), *CYTOTOXINS, *HELA cells

Abstract

Acanthamoeba species are responsible for serious human infections, including Acanthamoeba keratitis (AK) and granulomatous amoebic encephalitis (GAE). These pathogens have a simple life cycle consisting of an infective trophozoite stage and a resistant cyst stage, with cysts posing significant treatment challenges due to their resilience against harsh conditions and chemical agents. Current treatments for AK often involve combining diamines, such as propamidine, and biguanides, such as chlorhexidine (CLX), which exhibit limited efficacy and significant toxicity. Thus, the effect of new therapeutic molecules, such as multifunctional systems (e.g., carbosilane dendritic molecules), should be studied as potential alternatives due to their biocidal properties and lower toxicity. This study evaluates various dendritic compounds against trophozoites and cysts of two Acanthamoeba clinical isolates, both alone and in combination with CLX, and assesses their cytotoxicity on HeLa cells. The results indicated that certain dendritic compounds, especially BDSQ024, were effective against both trophozoites and cysts. Additionally, combinations of dendritic molecules and CLX showed enhanced efficacy in eliminating trophozoites and cysts, suggesting potential for synergistic treatments. The study underscores the promise of dendritic molecules in developing more effective and less toxic therapies for Acanthamoeba infections. [ABSTRACT FROM AUTHOR]

Published

2024

3. Thermodynamic Properties of the Carbosilane Dendrimer of the Sixth Generation with Terminal Trimethylsilylsiloxane Groups.

Author

Smirnova, N. N., Sologubov, S. S., Markin, A. V., Milenin, S. A., Tatarinova, E. A., and Muzafarov, A. M.

Abstract

The temperature dependence of the heat capacity of the sixth generation carbosilane dendrimer with terminal trimethylsilylsiloxane groups was determined by high-precision adiabatic vacuum calorimetry in the temperature range 6–318 K and differential scanning calorimetry in the range 300–600 K. Anomalous changes in the heat capacity were discovered in the range T = 179–200 K due to devitrification of the dendrimer and in the range 380–450 K due to the nanoscale effect characteristic of dendrimers of high generations. The thermal stability of the compound was studied by thermogravimetric analysis, and the temperature of the start of thermal destruction was found to be 600 K. The experimental data obtained were used to calculate the standard thermodynamic functions of the dendrimer for the range from T → 0 to 600 K for various physical states, as well as the standard entropy of its formation in the devitrified state at T = 298.15 K. [ABSTRACT FROM AUTHOR]

Published

2024

4. Carbosilane dendritic nanostructures, highly versatile platforms for pharmaceutical applications.

Author

de la Mata, Francisco Javier, Gómez, Rafael, Cano, Jesús, Sánchez‐Nieves, Javier, Ortega, Paula, and Gallego, Sandra García

Abstract

Dendrimers are multifunctional molecules with well‐defined size and structure due to the step‐by‐step synthetic procedures required in their preparation. Dendritic constructs based on carbosilane scaffolds present carbon–carbon and carbon–silicon bonds, which results in stable, lipophilic, inert, and flexible structures. These properties are highly appreciated in different areas, including the pharmaceutical field, as they can increase the interaction with cell membranes and improve the therapeutic action. This article summarizes the most recent advances in the pharmaceutical applications of carbosilane dendritic molecules, from therapeutics to diagnostics and prevention tools. Dendrimers decorated with cationic, anionic, or other moieties, including metallodendrimers; supramolecular assemblies; dendronized nanoparticles and surfaces; as well as dendritic networks like hydrogels are described. The collected examples confirm the potential of carbosilane dendrimers and dendritic materials as antiviral or antibacterial agents; in therapy against cancer, neurodegenerative disease, or oxidative stress; or many other biomedical applications. This article is categorized under:Nanotechnology Approaches to Biology > Nanoscale Systems in BiologyTherapeutic Approaches and Drug Discovery > Nanomedicine for Infectious DiseaseTherapeutic Approaches and Drug Discovery > Nanomedicine for Oncologic Disease [ABSTRACT FROM AUTHOR]

Published

2023

5. Approaches to the Functionalization of Organosilicon Dendrones Based on Limonene.

Author

Ryzhkov, Aleksei I., Drozdov, Fedor V., Cherkaev, Georgij V., and Muzafarov, Aziz M.

Subjects

LIMONENE, TERPENES, DOUBLE bonds, RING formation (Chemistry), RATE coefficients (Chemistry), DENDRIMERS, CYCLOHEXENE

Abstract

Previously, we reported the synthesis of carbosilane and carbosilane-siloxane dendrons of various generations based limonene, a natural terpene. Limonene that contains two double bonds, namely cyclohexene and isoprenyl ones, was shown to undergo regioselective hydrosilylation exclusively at its isoprenyl double bond. This finding was used to prepare carbosilane dendrons (CDs) with a limonene moiety at the focal point. In this study, we present variants for the functionalization of the cyclohexene double bond by an epoxidation reaction in order to use the resulting dendrons for the preparation of various macromolecular objects, including Janus dendrimers (JDs), dendronized polymers, and macroinitiators. Moreover, it was shown that dendrons with peripheral azide functions could be obtained. These methods offer both the possibilities of the further growth of branches and the addition of polymers with a different nature by the azide–alkyne cycloaddition reaction. [ABSTRACT FROM AUTHOR]

Published

2023

6. Synthesis of Carbosilane and Carbosilane-Siloxane Dendrons Based on Limonene.

Author

Ryzhkov, Aleksei I., Drozdov, Fedor V., Cherkaev, Georgij V., and Muzafarov, Aziz M.

Subjects

*DENDRIMERS, *LIMONENE, *BIOPOLYMERS, *DOUBLE bonds, *GRIGNARD reagents, *NUCLEAR magnetic resonance spectroscopy, *HYDROSILYLATION

Abstract

In this work, carbosilane dendrons of the first, second, and third generations were obtained on the basis of a natural terpenoid, limonene. Previously, we have shown the possibility of selective hydrosilylation and hydrothiolation of limonene. It is proved that during hydrosilylation, only the isoprenyl double bond reacts, while the cyclohexene double bond does not undergo into the hydrosilylation reaction. However, the cyclohexene double bond reacts by hydrothiolation. This selectivity makes it possible to use limonene as a dendron growth center, while maintaining a useful function—a double bond at the focal point. Thus, the sequence of hydrosilylation and Grignard reactions based on limonene formed carbosilane dendrons. After that, the end groups were blocked by heptamethyltrisiloxane or butyllithium. The obtained substances were characterized using NMR spectroscopy, elemental analysis and GPC. Thus, the proposed methodology for the synthesis of carbosilane dendrons based on the natural terpenoid limonene opens up wide possibilities for obtaining various macromolecules: dendrimers, Janus dendrimers, dendronized polymers, and macroinitiators. [ABSTRACT FROM AUTHOR]

Published

2022

7. Thermodynamic Properties of a Fourth-Generation Carbosilane Dendrimer with Terminal Trimethylsilylsiloxane Groups.

Author

Smirnova, N. N., Markin, A. V., Sologubov, S. S., Milenin, S. A., Tatarinova, E. A., and Muzafarov, A. M.

Abstract

The heat capacity–temperature dependence for a fourth-generation carbosilane dendrimer with terminal trimethylsilylsiloxane groups is determined via adiabatic vacuum calorimetry in the 5–344 K range of temperatures and differential scanning calorimetry in the 310–560 K range of temperatures. An anomalous change in the heat capacity of the dendrimers in the range of T = 46–68 K is detected along with a transition in the range of T = 179–196 K, due to its devitrification. The thermodynamic characteristics of the detected transformations are determined and analyzed. The standard thermodynamic functions of the studied dendrimers in the range T → 0 to 560 K and the standard entropy of its formation at T = 298.15 K are calculated using the obtained experimental data. A comparative analysis is performed of the thermodynamic properties of fourth-generation dendrimers that differ in the nature of their molecular skeletons and terminal groups. [ABSTRACT FROM AUTHOR]

Published

2022

8. Promising PEGylated cationic dendrimers for delivery of miRNAs as a possible therapy against HIV-1 infection

Author

E. Royo-Rubio, I. Rodríguez-Izquierdo, M. Moreno-Domene, T. Lozano-Cruz, F. J. de la Mata, R. Gómez, M. A. Muñoz-Fernández, and J. L. Jiménez

Subjects

Carbosilane dendrimers, microRNAs, HIV-1 infection, Delivery, Inhibition, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Background The appearance of resistance against new treatments and the fact that HIV-1 can infect various cell types and develop reservoirs and sanctuaries makes it necessary to develop new therapeutic approaches to overcome those failures. Results Studies of cytotoxicity, genotoxicity, complexes formation, stability, resistance, release and particle size distribution confirmed that G2-SN15-PEG, G3-SN31-PEG, G2-SN15-PEG-FITC and G3-SN31-PEG-FITC dendrimers can form complexes with miRNAs being biocompatible, stable and conferring protection to these nucleic acids. Confocal microscopy and flow cytometry showed effective delivery of these four dendrimers into the target cells, confirming their applicability as delivery systems. Dendriplexes formed with the dendrimers and miRNAs significantly inhibited HIV-1 infection in PBMCs. Conclusions These dendrimers are efficient delivery systems for miRNAs and they specifically and significantly improved the anti-R5-HIV-1 activity of these RNA molecules. Graphic Abstract

Published

2021

9. Interaction of Cationic Carbosilane Dendrimers and Their siRNA Complexes with MCF-7 Cells Cultured in 3D Spheroids.

Author

Białkowska, Kamila, Komorowski, Piotr, Gomez-Ramirez, Rafael, de la Mata, Francisco Javier, Bryszewska, Maria, and Miłowska, Katarzyna

Subjects

*CELL culture, *SMALL interfering RNA, *NUCLEIC acids, *FLOW cytometry, *ANNEXINS, *POLYAMIDOAMINE dendrimers, *CANCER cell culture, *DENDRIMERS

Abstract

Cationic dendrimers are effective carriers for the delivery of siRNA into cells; they can penetrate cell membranes and protect nucleic acids against RNase degradation. Two types of dendrimers (CBD-1 and CBD-2) and their complexes with pro-apoptotic siRNA (Mcl-1 and Bcl-2) were tested on MCF-7 cells cultured as spheroids. Cytotoxicity of dendrimers and dendriplexes was measured using the live–dead test and Annexin V-FITC Apoptosis Detection Kit (flow cytometry). Uptake of dendriplexes was examined using flow cytometry and confocal microscopy. The live–dead test showed that for cells in 3D, CBD-2 is more toxic than CBD-1, contrasting with the data for 2D cultures. Attaching siRNA to a dendrimer molecule did not lead to increased cytotoxic effect in cells, either after 24 or 48 h. Measurements of apoptosis did not show a high increase in the level of the apoptosis marker after 24 h exposure of spheroids to CBD-2 and its dendriplexes. Measurements of the internalization of dendriplexes and microscopy images confirmed that the dendriplexes were transported into cells of the spheroids. Flow cytometry analysis of internalization indicated that CBD-2 transported siRNAs more effectively than CBD-1. Cytotoxic effects were visible after incubation with 3 doses of complexes for CBD-1 and both siRNAs. [ABSTRACT FROM AUTHOR]

Published

2022

10. Approaches to the Functionalization of Organosilicon Dendrones Based on Limonene

Author

Aleksei I. Ryzhkov, Fedor V. Drozdov, Georgij V. Cherkaev, and Aziz M. Muzafarov

Subjects

limonene, carbosilane dendrimers, siloxanes, functionalization, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Previously, we reported the synthesis of carbosilane and carbosilane-siloxane dendrons of various generations based limonene, a natural terpene. Limonene that contains two double bonds, namely cyclohexene and isoprenyl ones, was shown to undergo regioselective hydrosilylation exclusively at its isoprenyl double bond. This finding was used to prepare carbosilane dendrons (CDs) with a limonene moiety at the focal point. In this study, we present variants for the functionalization of the cyclohexene double bond by an epoxidation reaction in order to use the resulting dendrons for the preparation of various macromolecular objects, including Janus dendrimers (JDs), dendronized polymers, and macroinitiators. Moreover, it was shown that dendrons with peripheral azide functions could be obtained. These methods offer both the possibilities of the further growth of branches and the addition of polymers with a different nature by the azide–alkyne cycloaddition reaction.

Published

2023

11. Formation of a Hollow Core in Dendrimers in Solvents.

Author

Markelov, Denis A., Semisalova, Anna S., and Mazo, Mikhail A.

Subjects

*DENDRIMERS, *SOLVENTS, *MATHEMATICAL ability, *MACROMOLECULES, *CHEMICAL structure

Abstract

Dendrimers are perfect tree‐like radially symmetric macromolecules with regular branching. Due to their architecture, dendrimers possess a set of unique properties, including high penetrating ability and a large number of functionalizable terminal groups. Practical use of dendrimers as delivery agents or nanoreactors in many cases involves a free space in a dendrimer interior. The question about presence of a hollow core (a cavity) inside the dendrimer molecule placed in a solvent attracts interest of researchers since the discovery of dendrimers. This review presents a rigorous discussion on the dendrimer structure in solution. The main objective is to draw attention to the difference in the structure of homopolymer and copolymer dendrimers. Theoretical studies typically consider homopolymer dendrimers (with similar inner and terminal segments), whereas experiments often examine dendrimers with massive terminal groups which chemical structure is different from the structure of the dendrimer inner groups. In the latter case, dendrimer is a copolymer macromolecule, and its conformation can depend on additional factors, such as solvent selectivity, or poor compatibility of terminal and core groups. The influence of these factors can lead to the formation of a region with a lower polymer density inside the dendrimer. [ABSTRACT FROM AUTHOR]

Published

2021

12. Promising PEGylated cationic dendrimers for delivery of miRNAs as a possible therapy against HIV-1 infection.

Author

Royo-Rubio, E., Rodríguez-Izquierdo, I., Moreno-Domene, M., Lozano-Cruz, T., de la Mata, F. J., Gómez, R., Muñoz-Fernández, M. A., and Jiménez, J. L.

Subjects

*POLYAMIDOAMINE dendrimers, *HIV, *DENDRIMERS, *MICRORNA, *PARTICLE size distribution, *NUCLEIC acids

Abstract

Background: The appearance of resistance against new treatments and the fact that HIV-1 can infect various cell types and develop reservoirs and sanctuaries makes it necessary to develop new therapeutic approaches to overcome those failures. Results: Studies of cytotoxicity, genotoxicity, complexes formation, stability, resistance, release and particle size distribution confirmed that G2-SN15-PEG, G3-SN31-PEG, G2-SN15-PEG-FITC and G3-SN31-PEG-FITC dendrimers can form complexes with miRNAs being biocompatible, stable and conferring protection to these nucleic acids. Confocal microscopy and flow cytometry showed effective delivery of these four dendrimers into the target cells, confirming their applicability as delivery systems. Dendriplexes formed with the dendrimers and miRNAs significantly inhibited HIV-1 infection in PBMCs. Conclusions: These dendrimers are efficient delivery systems for miRNAs and they specifically and significantly improved the anti-R5-HIV-1 activity of these RNA molecules. [ABSTRACT FROM AUTHOR]

Published

2021

13. Interaction of Cationic Carbosilane Dendrimers and Their siRNA Complexes with MCF-7 Cells Cultured in 3D Spheroids

Author

Kamila Białkowska, Piotr Komorowski, Rafael Gomez-Ramirez, Francisco Javier de la Mata, Maria Bryszewska, and Katarzyna Miłowska

Subjects

siRNA, carbosilane dendrimers, dendriplexes, nanocarriers, 3D cell culture, spheroids, Cytology, QH573-671

Abstract

Cationic dendrimers are effective carriers for the delivery of siRNA into cells; they can penetrate cell membranes and protect nucleic acids against RNase degradation. Two types of dendrimers (CBD-1 and CBD-2) and their complexes with pro-apoptotic siRNA (Mcl-1 and Bcl-2) were tested on MCF-7 cells cultured as spheroids. Cytotoxicity of dendrimers and dendriplexes was measured using the live–dead test and Annexin V-FITC Apoptosis Detection Kit (flow cytometry). Uptake of dendriplexes was examined using flow cytometry and confocal microscopy. The live–dead test showed that for cells in 3D, CBD-2 is more toxic than CBD-1, contrasting with the data for 2D cultures. Attaching siRNA to a dendrimer molecule did not lead to increased cytotoxic effect in cells, either after 24 or 48 h. Measurements of apoptosis did not show a high increase in the level of the apoptosis marker after 24 h exposure of spheroids to CBD-2 and its dendriplexes. Measurements of the internalization of dendriplexes and microscopy images confirmed that the dendriplexes were transported into cells of the spheroids. Flow cytometry analysis of internalization indicated that CBD-2 transported siRNAs more effectively than CBD-1. Cytotoxic effects were visible after incubation with 3 doses of complexes for CBD-1 and both siRNAs.

Published

2022

14. Multiarm Star-Shaped Polydimethylsiloxanes with a Dendritic Branching Center

Author

Pavel A. Tikhonov, Nataliya G. Vasilenko, Marat O. Gallyamov, Georgii V. Cherkaev, Viktor G. Vasil’ev, Nina V. Demchenko, Mikhail I. Buzin, Sergey G. Vasil’ev, and Aziz M. Muzafarov

Subjects

polylithium initiator, multiarm stars, anionic polymerization of hexamethylcyclotrisiloxane, carbosilane dendrimers, Organic chemistry, QD241-441

Abstract

New multiarm stars have been synthesized based on polylithium derivatives of high-generation carbosilane dendrimers. In the synthesis of multiarm stars based on the eighth-generation dendrimer, steric hindrances were observed even during the synthesis of a polylithium initiator. Subsequently, this led to chain transfer reactions between growing arms, as well as other side effects. As a result, dense nanogel formations with a higher tendency of ordering than in classical objects of this type were isolated from the reaction mixture. The study of the rheology of multiarm stars based on sixth-generation dendrimers made it possible to determine the activation energies of viscous flow in these objects, which makes it possible to consider them as objects with a macromolecular nature and a reptation flow mechanism.

Published

2021

15. Carbosilane Dendrimers Loaded with siRNA Targeting Nrf2 as a Tool to Overcome Cisplatin Chemoresistance in Bladder Cancer Cells

Author

Leanne Ambrosio, Monica Argenziano, Marie Angèle Cucci, Margherita Grattarola, Inge A.M. de Graaf, Chiara Dianzani, Giuseppina Barrera, Javier Sánchez Nieves, Rafael Gomez, Roberta Cavalli, and Stefania Pizzimenti

Subjects

carbosilane dendrimers, small interfering RNA (siRNA), nuclear factor erythroid 2-related factor 2 (Nrf2), bladder cancer, cisplatin resistance, non-cancerous HK-2 cells, Therapeutics. Pharmacology, RM1-950

Abstract

The transcription factor nuclear factor erythroid 2-related factor 2 (Nrf2) is considered as the master regulator of antioxidant and cytoprotective gene expressions. Moreover, it plays a pivotal role in cancer progression. Nrf2 mediates the adaptive response which contributes to the resistance to chemotherapeutic pro-oxidant drugs, such as cisplatin (CDDP), in various tumors, including bladder cancers. For this reason, Nrf2 could be a promising target to overcome chemoresistance. There are several known Nrf2 pharmacological inhibitors; however, most of them are not specific. The use of a specific small interfering RNA (siRNA) targeting the Nrf2 gene (siNrf2) loaded into nanovehicles is an attractive alternative, since it can increase specificity. This study aimed to evaluate the biological activity of siNrf2 loaded on guanidine-terminated carbosilane dendrimers (GCDs) in overcoming CDDP resistance in bladder cancer cells with a high level of Nrf2. Parameters such as viability, proliferation, apoptosis, migration, and oxidative stress level were taken into account. Results demonstrated that siNrf2-GCD treatment sensitized CDDP-resistant cells to CDDP treatment. Moreover, data obtained by treating the non-cancerous human kidney HK-2 cell line strongly suggest a good safety profile of the carbosilane dendrimers loaded with siNrf2. In conclusion, we suggest that siNrf2-GCD is a promising drug delivery system for gene therapy to be used in vivo; and it may represent an important tool in the therapy of CDDP-resistant cancer.

Published

2020

16. In Vitro Activity of Carbosilane Cationic Dendritic Molecules on Prevention and Treatment of Candida Albicans Biofilms

Author

Irene Heredero-Bermejo, Natalia Gómez-Casanova, Sara Quintana, Juan Soliveri, Francisco Javier de la Mata, Jorge Pérez-Serrano, Javier Sánchez-Nieves, and José Luis Copa-Patiño

Subjects

Candida, antifungal drugs, Candida albicans, biofilm, biocides, carbosilane dendrimers, Pharmacy and materia medica, RS1-441

Abstract

Candida spp. are one of the most common fungal pathogens. Biofilms formed by Candidaalbicans offer resistance mechanisms against most antifungal agents. Therefore, development of new molecules effective against these microorganisms, alone or in combination with antifungal drugs, is extremely necessary. In the present work, we carried out a screening process of different cationic carbosilane dendritic molecules against C. albicans. In vitro activity against biofilm formation and biofilms was tested in both Colección Española de Cultivos Tipo (CECT) 1002 and clinical C. albicans strains. Cytotoxicity was studied in human cell lines, and biofilm alterations were observed by scanning electron microscopy (SEM). Antifungal activity of the carbosilane dendritic molecules was assessed by monitoring cell viability using both established and novel cell viability assays. One out of 14 dendritic molecules tested, named BDSQ024, showed the highest activity with a minimum biofilm inhibitory concentration (MBIC) for biofilm formation and a minimum biofilm damaging concentration (MBDC) for existing biofilm of 16–32 and 16 mg/L, respectively. Synergy with amphotericin (AmB) and caspofungin (CSF) at non-cytotoxic concentrations was found. Therefore, dendritic compounds are exciting new antifungals effective at preventing Candida biofilm formation and represent a potential novel therapeutic agent for treatment of C. albicans infection in combination with existing clinical antifungals.

Published

2020

17. Antioxidant and Antibacterial Properties of Carbosilane Dendrimers Functionalized with Polyphenolic Moieties

Author

Natalia Sanz del Olmo, Cornelia E. Peña González, Jose Daniel Rojas, Rafael Gómez, Paula Ortega, Alberto Escarpa, and Francisco Javier de la Mata

Subjects

antioxidants, polyphenols, carbosilane dendrimers, antibacterial, Pharmacy and materia medica, RS1-441

Abstract

A new family of polyphenolic carbosilane dendrimers functionalized with ferulic, caffeic, and gallic acids has been obtained through a straightforward amidation reaction. Their antioxidant activity has been studied by different techniques such as DPPH (2,2′-diphenyl-1-picrylhydrazyl) radical scavenging assay, FRAP assay (ferric reducing antioxidant power), and cyclic voltammetry. The antioxidant analysis showed that polyphenolic dendrimers exhibited higher activities than free polyphenols in all cases. The first-generation dendrimer decorated with gallic acid stood out as the best antioxidant compound, displaying a correlation between the number of hydroxyl groups in the polyphenol structure and the antioxidant activity of the compounds. Moreover, the antibacterial capacity of these new systems has been screened against Gram-positive (+) and Gram-negative (−) bacteria, and we observed that polyphenolic dendrimers functionalized with caffeic and gallic acids were capable of decreasing bacterial growth. In contrast, ferulic carbosilane dendrimers and free polyphenols showed no effect, establishing a correlation between antioxidant activity and antibacterial capacity. Finally, a viability assay in human skin fibroblasts cells (HFF-1) allowed for corroborating the nontoxicity of the polyphenolic dendrimers at their active antibacterial concentration.

Published

2020

18. Cancer

Author

Šebestík, Jaroslav, Reiniš, Milan, Ježek, Jan, Sebestik, Jaroslav, Reinis, Milan, and Jezek, Jan

Published

2012

19. Carbosilane dendritic nanostructures, highly versatile platforms for pharmaceutical applications

Author

Francisco Javier de la Mata, Rafael Gómez, Jesús Cano, Javier Sánchez‐Nieves, Paula Ortega, Sandra García Gallego, and Universidad de Alcalá. Departamento de Química Orgánica y Química Inorgánica

Subjects

biomedical applications, Chemistry, anticancer activity, antimicrobial properties, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, nanodendritic systems, carbosilane dendrimers, Química

Abstract

Dendrimers are multifunctional molecules with well-defined size and structure due to the step-by-step synthetic procedures required in their preparation. Dendritic constructs based on carbosilane scaffolds present carbon-carbon and carbon-silicon bonds, which results in stable, lipophilic, inert, and flexible structures. These properties are highly appreciated in different areas, including the pharmaceutical field, as they can increase the interaction with cell membranes and improve the therapeutic action. This article summarizes the most recent advances in the pharmaceutical applications of carbosilane dendritic molecules, from therapeutics to diagnostics and prevention tools. Dendrimers decorated with cationic, anionic, or other moieties, including metallodendrimers; supramolecular assemblies; dendronized nanoparticles and surfaces; as well as dendritic networks like hydrogels are described. The collected examples confirm the potential of carbosilane dendrimers and dendritic materials as antiviral or antibacterial agents; in therapy against cancer, neurodegenerative disease, or oxidative stress; or many other biomedical applications.This article is categorized under:Nanotechnology Approaches to Biology > Nanoscale Systems in BiologyTherapeutic Approaches and Drug Discovery > Nanomedicine for Infectious DiseaseTherapeutic Approaches and Drug Discovery > Nanomedicine for Oncologic Disease, Ministerio de Economía y Competitividad, Comunidad de Madrid, Junta de Comunidades de Castilla-La Mancha, Universidad de Alcalá

Published

2022

20. Heterogenization of Homogeneous Catalysts on Dendrimers

Author

Yazerski, Vital A., Gebbink, Robertus J. M. Klein, Barbaro, Pierluigi, editor, and Liguori, Francesca, editor

Published

2010

21. Evaluation of toxicological and teratogenic effects of carbosilane glucose glycodendrimers in zebrafish embryos and model rodent cell lines.

Author

Liegertová, Michaela, Wrobel, Dominika, Herma, Regina, Müllerová, Monika, Šťastná, Lucie Červenková, Cuřínová, Petra, Strašák, Tomáš, Malý, Marek, Čermák, Jan, Smejkal, Jiří, Štofik, Marcel, and Maly, Jan

Subjects

*CELL-mediated cytotoxicity, *CYTOTOXINS, *CELL lines, *DRUG development, *NANOPARTICLES

Abstract

Glycodendrimers (Glyco-DDMs) represent a rapidly growing class of nanoparticles with promising properties for biomedical applications but concerns regarding the impact on human health and environment are still justified. Here we report, for the first time, the comparative study of in vivo developmental toxicity of carbosilane Glyco-DDMs and their cytotoxicity in vitro. Carbosilane Glyco-DDMs (generation 1-3) containing 4, 8, and 16 β-d-glucopyranosyl units at the periphery (DDM1Glu, DDM2Glu, and DDM3Glu) were synthesized and characterized by 1H, 13C and 29Si NMR, mass spectrometry, dynamic light scattering, atomic force microscopy (AFM), and computer modeling. In vitro cytotoxicity assay (MTT) of DDM1-3Glu was performed on three different rodent cell lines (Cricetulus griseus) - B14 (ATCC, CCL-14.1), BRL 3A (ATCC, CRL-1442), and NRK 52E (ATCC, CRL-1571). Overall, very low cytotoxicity was observed with calculated IC50 in mM range with slight difference between each cell line and DDM generation investigated. Modified fish embryo test (FET) was further used for DDM3Glu developmental toxicity testing on zebrafish (Danio rerio) embryos. While seemingly harmless to intact embryos, adverse effects of DDMs on the embryonic development become evident after chorion removal (LD50=2.78 µM at 96 hpe). We summarized that the modified FET test showed a two to three orders of magnitude difference between the in vitro cytotoxicity and in vivo developmental toxicity of DDM3Glu. While, in general, the Glyco-DDMs show great promises as efficient vectors in targeted drug delivery or as therapeutic molecules itself, we suggest that their developmental toxicity should be thoroughly investigated to exclude safety risks associated with their potential biomedical use. [ABSTRACT FROM AUTHOR]

Published

2018

22. ESI‐TOF mass spectrometry of cationic carbosilane dendrimers: A potent tool for characterization of structural defects.

Author

Cuřínová, Petra, Krupková, Alena, Červenková Šťastná, Lucie, Müllerová, Monika, Čermák, Jan, and Strašák, Tomáš

Subjects

*MASS spectrometry, *DENDRIMERS, *POLYELECTROLYTES, *ELECTROSPRAY ionization mass spectrometry, *MOLECULAR structure, *MACROMOLECULES, *MOLECULAR biology

Abstract

Macromolecular polyelectrolytes are gaining considerable attention for the application in medicine that implies their detailed characterization. We have successfully applied electrospray ionization mass spectrometry (ESI MS) to the analysis of defects in the structure of three generations of polycationic carbosilane dendrimers bearing series of quarternary phosphonium groups at their periphery. Besides expected defects caused by incomplete conversion of particular reaction steps during the synthesis of dendritic scaffold and subsequent peripheral functionalization, also, several products of side reactions were observed together with defects created in the course of measurement (particularly ion exchange products). Defective molecules can be to some extent separated by means of gel permeation chromatography that proves that they are not products of in source fragmentation processes. Within the reaction sequence used for the synthesis of dendrimers under study, hydrosilylation was the source of most defects; the effectivity of quarternization depends on the type of phosphine. Results confirm high sensitivity of ESI MS towards defects, stability of the carbosilane skeleton towards fragmentation under the conditions of ESI ionization, and capability to detect both lower‐ and higher‐molecular weight impurities arising from the synthetic sequence in the same m/z range as the target dendrimer, thus providing valuable view of the polydispersity. [ABSTRACT FROM AUTHOR]

Published

2018

23. An unprecedented jump in the viscosity of high-generation carbosilane dendrimer melts.

Author

Vasil'ev, Viktor G., Kramarenko, Elena Yu., Tatarinova, Elena A., Milenin, Sergey A., Kalinina, Alexandra A., Papkov, Vladimir S., and Muzafarov, Aziz M.

Subjects

*DENDRIMERS, *NEWTONIAN fluids, *YIELD stress, *STRESS-strain curves, *POLYAMIDES

Abstract

Rheological melt behavior of carbosilane dendrimers from the 3rd up to the 8th generation has been studied experimentally under steady shear, creep and dynamic oscillatory shear. Six orders of magnitude jump in viscosity was found between the 5th and the 6th generations. While the low-generation dendrimer melts demonstrate Newtonian behavior in a wide temperature range of 20÷80 °C, starting from the 6 t h generation, the dendrimer melts lose their ability to freely flow and acquire properties of a material with a well-pronounced yield stress. The storage modulus of high-generation dendrimer melts by far exceeds the loss modulus, furthermore, its value increases with temperature. It is demonstrated that the high-generation carbosilane dendrimers in bulk can be considered a polymer material with unique properties and as that, could find new applications in high-tech areas, in particular, as matrices for sensors. [ABSTRACT FROM AUTHOR]

Published

2018

24. Ammonium and guanidine carbosilane dendrimers and dendrons as microbicides.

Author

Heredero-Bermejo, Irene, Hernández-Ros, José M., Sánchez-García, Leticia, Maly, Marek, Verdú-Expósito, Cristina, Soliveri, Juan, Javier de la Mata, F., Copa-Patiño, José L., Pérez-Serrano, Jorge, Sánchez-Nieves, Javier, and Gómez, Rafael

Subjects

*AMMONIUM compounds, *GUANIDINES, *DENDRIMERS, *BACTERICIDES, *ESCHERICHIA coli

Abstract

Carbosilane dendrimers (generations 1–3) and dendrons (generations 2–3) functionalized with guanidine functions (GU) have been synthesized from corresponding ammonium (–NH 3 + ) derivatives with good yield. These dendritic molecules were tested as microbicides against Escherichia coli (Gram-negative), Staphylococcus aureus (Gram-positive) and methicillin resistant S. aureus (MRSA) bacteria; and against Acanthomoeba polyphaga in both stages, trophozoites and cysts. The best results were obtained for lower generation dendrimers and dendrons, with no remarkable influence of the peripheral moieties against bacteria but with better amoebicide activity for –NH 3 + systems. Moreover, the activity values of first generation dendrimers and second generation dendrons were below their cytotoxicity against eukaryote cells. Molecular dynamics study of interactions between selected dendrimers and anionic phospholipid bilayers indicates possible connections between the antibacterial activity and interaction modes. [ABSTRACT FROM AUTHOR]

Published

2018

25. Thermodynamic Properties of a First-Generation Carbosilane Dendrimer with Terminal Phenylethyl Groups.

Author

Sologubov, S. S., Markin, A. V., Smirnova, N. N., Novozhilova, N. A., Tatarinova, E. A., and Muzafarov, A. M.

Abstract

The heat capacity of a first-generation carbosilane dendrimer with terminal phenylethyl groups as a function of temperature in the range from 6 to 520 K is studied for the first time via precision adiabatic vacuum calorimetry and differential scanning calorimetry. Physical transformations, such as low-temperature structural anomaly and glass transition are detected in the above-mentioned range of temperatures and their standard thermodynamic characteristics are determined and analyzed. The standard thermodynamic functions of the studied dendrimer in the range of T → 0 to 520 K are calculated from the experimental data, as is the standard entropy in the devitrified state at T = 298.15 K. The standard thermodynamic characteristics of the carbosilane dendrimers studied in this work and earlier are compared. [ABSTRACT FROM AUTHOR]

Published

2018

26. Organometallic Silicon-Containing Dendrimers and Their Electrochemical Applications

Author

Cuadrado, Isabel, Matisons, Janis, editor, Dvornic, Petar R., editor, and Owen, Michael J., editor

Published

2009

27. Carbosilane Dendrimers: Molecular Supports and Containers for Homogeneous Catalysis and Organic Synthesis

Author

Wander, Maaike, Gebbink, Robertus J.M. Klein, van Koten, Gerard, Matisons, Janis, editor, Dvornic, Petar R., editor, and Owen, Michael J., editor

Published

2009

28. Silyl Ether Containing Dendrimers with Cyclic Siloxane Cores

Author

Kim, Chungkyun, Matisons, Janis, editor, Dvornic, Petar R., editor, and Owen, Michael J., editor

Published

2009

29. Hyperbranched Polycarbosilanes and Polycarbosiloxanes via Hydrosilylation Polymerization

Author

Schüle, Hanna, Frey, Holger, Matisons, Janis, editor, Dvornic, Petar R., editor, and Owen, Michael J., editor

Published

2009

30. Liquid Crystalline Silicon-Containing Dendrimers with Terminal Mesogenic Groups

Author

Shibaev, V., Boiko, N., Matisons, Janis, editor, Dvornic, Petar R., editor, and Owen, Michael J., editor

Published

2009

31. Functionalised (Poly)silsesquioxanes and Silicon-Containing Dendrimers

Author

Marciniec, Bogdan, Matisons, Janis, editor, and Marciniec, Bogdan, editor

Published

2009

32. Organosilicon – Organic Hybrid Polymers and Materials

Author

Marciniec, Bogdan, Matisons, Janis, editor, and Marciniec, Bogdan, editor

Published

2009

33. PAMAM Dendrimers as Nanoscale Oral Drug Delivery Systems

Author

Kitchens, Kelly M., Ghandehari, Hamidreza, de Villiers, Melgardt M., editor, Aramwit, Pornanong, editor, and Kwon, Glen S., editor

Published

2009

34. Nanomaterials and Biocompatibility: BioMEMS and Dendrimers

Author

Zuckerman, Sean T., Kao, Weiyuan John, de Villiers, Melgardt M., editor, Aramwit, Pornanong, editor, and Kwon, Glen S., editor

Published

2009

35. Organosilicon Dendrimers : Molecules with Many Possibilities

Author

Krska, Shane W., Son, David Y., Seyferth, Dietmar, Jones, Richard G., editor, Ando, Wataru, editor, and Chojnowski, Julian, editor

Published

2000

36. The Antibacterial Effect of PEGylated Carbosilane Dendrimers on P. aeruginosa Alone and in Combination with Phage-Derived Endolysin

Author

Sara Quintana-Sanchez, Natalia Gómez-Casanova, Javier Sánchez-Nieves, Rafael Gómez, Jarosław Rachuna, Sławomir Wąsik, Jacek Semaniak, Barbara Maciejewska, Zuzanna Drulis-Kawa, Karol Ciepluch, F. Javier de la Mata, and Michał Arabski

Subjects

bacteriophages, QH301-705.5, Organic Chemistry, General Medicine, carbosilane dendrimers, Pseudomonas aeruginosa, polyethylene glycol, biofilm, endolysin, laser interferometry, Catalysis, Computer Science Applications, Inorganic Chemistry, Chemistry, Physical and Theoretical Chemistry, Biology (General), Molecular Biology, QD1-999, Spectroscopy

Abstract

The search for new microbicide compounds is of an urgent need, especially against difficult-to-eradicate biofilm-forming bacteria. One attractive option is the application of cationic multivalent dendrimers as antibacterials and also as carriers of active molecules. These compounds require an adequate hydrophilic/hydrophobic structural balance to maximize the effect. Herein, we evaluated the antimicrobial activity of cationic carbosilane (CBS) dendrimers unmodified or modified with polyethylene glycol (PEG) units, against planktonic and biofilm-forming P. aeruginosa culture. Our study revealed that the presence of PEG destabilized the hydrophilic/hydrophobic balance but reduced the antibacterial activity measured by microbiological cultivation methods, laser interferometry and fluorescence microscopy. On the other hand, the activity can be improved by the combination of the CBS dendrimers with endolysin, a bacteriophage-encoded peptidoglycan hydrolase. This enzyme applied in the absence of the cationic CBS dendrimers is ineffective against Gram-negative bacteria because of the protective outer membrane shield. However, the endolysin—CBS dendrimer mixture enables the penetration through the membrane and then deterioration of the peptidoglycan layer, providing a synergic antimicrobial effect.

Published

2022

37. Carbosilane dendritic nanostructures, highly versatile platforms for pharmaceutical applications.

Author

de la Mata FJ, Gómez R, Cano J, Sánchez-Nieves J, Ortega P, and Gallego SG

Subjects

Humans, Pharmaceutical Preparations, Dendrimers, Neurodegenerative Diseases, Nanostructures

Abstract

Dendrimers are multifunctional molecules with well-defined size and structure due to the step-by-step synthetic procedures required in their preparation. Dendritic constructs based on carbosilane scaffolds present carbon-carbon and carbon-silicon bonds, which results in stable, lipophilic, inert, and flexible structures. These properties are highly appreciated in different areas, including the pharmaceutical field, as they can increase the interaction with cell membranes and improve the therapeutic action. This article summarizes the most recent advances in the pharmaceutical applications of carbosilane dendritic molecules, from therapeutics to diagnostics and prevention tools. Dendrimers decorated with cationic, anionic, or other moieties, including metallodendrimers; supramolecular assemblies; dendronized nanoparticles and surfaces; as well as dendritic networks like hydrogels are described. The collected examples confirm the potential of carbosilane dendrimers and dendritic materials as antiviral or antibacterial agents; in therapy against cancer, neurodegenerative disease, or oxidative stress; or many other biomedical applications. This article is categorized under: Nanotechnology Approaches to Biology > Nanoscale Systems in Biology Therapeutic Approaches and Drug Discovery > Nanomedicine for Infectious Disease Therapeutic Approaches and Drug Discovery > Nanomedicine for Oncologic Disease., (© 2022 The Authors. WIREs Nanomedicine and Nanobiotechnology published by Wiley Periodicals LLC.)

Published

2023

38. The effect of polyethylene glycol-modified lipids on the interaction of HIV-1 derived peptide–dendrimer complexes with lipid membranes.

Author

Melikishvili, Sophie, Poturnayova, Alexandra, Ionov, Maksim, Bryszewska, Maria, Vary, Tomáš, Cirak, Julius, Muñoz-Fernández, María Ángeles, Gomez-Ramirez, Rafael, de la Mata, Francisco Javier, and Hianik, Tibor

Subjects

*POLYETHYLENE glycol, *PROTEIN-lipid interactions, *DENDRIMERS, *BILAYER lipid membranes, *ZWITTERIONS

Abstract

In this study, dendrimers have been purposed as an alternative approach for delivery of HIV peptides to dendritic cells. We have investigated the interaction of dendriplexes formed from polyanionic HIV peptide Nef and cationic carbosilane dendrimer (CBD) with model lipid membranes — large unilamellar vesicles (LUVs), Langmuir monolayers and supported lipid membranes (sBLMs) containing various molar ratio of zwitterionic 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) and 1,2-distearoyl-sn-glycero-3-phosphoethanolamine-N-[methoxy (polyethylene glycol)-2000] (DSPE-PEG 2000 ). In our experiments, the lipid membranes represented the model of the plasma membrane of the cell. PEGylated lipids were used in order to model glycocalyx which constitutes the outer leaflet of cellular membranes. The presence of PEGylated lipids resulted in an increase of the phase transition temperature of the lipid bilayer of LUVs, in a decrease of specific volume and adiabatic compressibility. Fluorescence anisotropy study suggests that PEGylated LUVs possessed higher lipid order and decreased fluidity when compared to zwitterionic DMPC vesicles. The interaction of dendriplexes with monolayers was accompanied by the formation of the aggregates as revealed by BAM experiments. This conclusion has been confirmed also by AFM imaging of sBLMs. We have demonstrated that dendriplexes interact with lipid membranes for all types of lipid composition. Moreover, the stronger interaction of cationic dendrimer/peptide complexes with lipid monolayers, vesicles and sBLMs was observed for membranes composed of zwitterionic lipids than for PEGylated lipid membranes. Increased concentration of PEGylated lipids made this interaction weaker. [ABSTRACT FROM AUTHOR]

Published

2016

39. Synthesis of degradable cationic carbosilane dendrimers based on Si–O or ester bonds.

Author

Rodríguez-Prieto, Tamara, Barrios-Gumiel, Andrea, de la Mata, F. Javier, Sánchez-Nieves, Javier, and Gómez, Rafael

Subjects

*DENDRIMERS, *CHEMICAL synthesis, *AMINES, *ESTERIFICATION, *ESTERS, *CHEMICAL bonds, *CHEMICAL stability

Abstract

Several cationic carbosilane dendrimers have been synthesized containing two different types of degradable bonds: Si–O and ester bonds. The first type of systems was prepared by reacting carbosilane dendrimers containing peripheral Si–Cl bonds with first generation dendrons presenting a –OH function at the focal point and amine peripheral functions. The second type of systems was prepared by esterification between a dendrimer containing acid groups and an alcoholamine. The stability in water of both types of cationic systems was evaluated. [ABSTRACT FROM AUTHOR]

Published

2016

40. Calorimetric study of carbosilane dendrimers of the third and sixth generations with phenylethyl terminal groups.

Author

Sologubov, Semen, Markin, Alexey, Smirnova, Natalia, Rybakova, Yuliya, Novozhilova, Natalia, Tatarinova, Elena, and Muzafarov, Aziz

Subjects

*DENDRIMERS, *SILANE, *HEAT capacity, *TEMPERATURE effect, *CALORIMETRY, *THERMODYNAMICS

Abstract

In the present work, temperature dependences of heat capacities of carbosilane dendrimers of the third and sixth generations with phenylethyl terminal groups, denoted as G3[CHCHCH] and G6[CHCHCH], were measured for the first time in the temperature range from 6 to 520 K by precision adiabatic calorimetry and differential scanning calorimetry. In the above temperature range, physical transformations, such as the low-temperature anomaly (for dendrimer G3[CHCHCH]), the glass transition (for both dendrimers), and the high-temperature relaxation transition (for dendrimer G6[CHCHCH]), were detected, and the standard thermodynamic characteristics of the revealed transformations were determined and analyzed. The standard thermodynamic functions, heat capacity $$ C_{\text{p}}^{\text{o}} (T) $$ , enthalpy H°( T) − H°(0), entropy S°( T) − S°(0), and Gibbs energy G°( T) − H°(0) for the range from T → 0 to 520 K, and the standard entropies of formation $$ \Delta S_{\text{f}}^{\text{o}} $$ of the investigated dendrimers in the devitrified state at T = 298.15 K were calculated per mole of the notional structural unit. The standard thermodynamic properties of dendrimers under study were discussed and compared with the literature data for carbosilane dendrimers with different functional terminal groups. [ABSTRACT FROM AUTHOR]

Published

2016

41. In vitro anti-Acanthamoeba synergistic effect of chlorhexidine and cationic carbosilane dendrimers against both trophozoite and cyst forms.

Author

Heredero-Bermejo, I., Sánchez-Nieves, J., Soliveri, J., Gómez, R., de la Mata, F.J., Copa-Patiño, J.L., and Pérez-Serrano, J.

Subjects

*CHLORHEXIDINE, *DENDRIMERS in medicine, *ACANTHAMOEBA keratitis, *TROPHOZOITES, *TREATMENT of encephalitis, *DRUG efficacy, *THERAPEUTICS

Abstract

Acanthamoeba sp. are the causative agents of severe illnesses in humans such as Acanthamoeba keratitis (AK) and granulomatous amoebic encephalitis (GAE). Medical therapy is not yet well established. Treatments of AK last for several months and generate toxicity, resistances appear due to the cysts stage and recurrences can occur. In this study has been demonstrated that the combination of chlorhexidine digluconate (CLX) and carbosilane dendrimers containing ammonium or guanidine moieties has in vitro synergistic effect against Acanthamoeba polyphaga . This synergy provokes an important reduction in the minimal trophozoite amoebicidal concentration (MTAC) of CLX, which means a reduction of their toxic effects on human cells. Moreover, some CLX/dendrimer combinations show important activity against the cyst resistance stage. [ABSTRACT FROM AUTHOR]

Published

2016

42. Synthesis of Carbosilane and Carbosilane-Siloxane Dendrons Based on Limonene

Author

Aleksei Ryzhkov, Fedor Drozdov, Georgij Cherkaev, and Aziz Muzafarov

Subjects

Polymers and Plastics, limonene, carbosilane dendrimers, siloxanes, hydrosilylation, General Chemistry

Abstract

In this work, carbosilane dendrons of the first, second, and third generations were obtained on the basis of a natural terpenoid, limonene. Previously, we have shown the possibility of selective hydrosilylation and hydrothiolation of limonene. It is proved that during hydrosilylation, only the isoprenyl double bond reacts, while the cyclohexene double bond does not undergo into the hydrosilylation reaction. However, the cyclohexene double bond reacts by hydrothiolation. This selectivity makes it possible to use limonene as a dendron growth center, while maintaining a useful function—a double bond at the focal point. Thus, the sequence of hydrosilylation and Grignard reactions based on limonene formed carbosilane dendrons. After that, the end groups were blocked by heptamethyltrisiloxane or butyllithium. The obtained substances were characterized using NMR spectroscopy, elemental analysis and GPC. Thus, the proposed methodology for the synthesis of carbosilane dendrons based on the natural terpenoid limonene opens up wide possibilities for obtaining various macromolecules: dendrimers, Janus dendrimers, dendronized polymers, and macroinitiators.

Published

2022

43. Dendritic maleimide-thiol adducts carrying pendant glycosides as high-affinity ligands.

Author

Matsushita, Takahiko, Toda, Naomichi, Koyama, Tetsuo, Hatano, Ken, and Matsuoka, Koji

Subjects

*FLUORESCENCE quenching, *WHEAT germ, *LIGANDS (Chemistry), *DENDRIMERS

Abstract

[Display omitted] • A maleimide-terminated hexavalent carbosilane dendrimer was synthesized. • Thiol–maleimide reactions produced GlcNAc–dendrimer conjugates. • The glycodendrimers quenched the tryptophan fluorescence of WGA. • High binding affinities with nanomolar K D values were observed. We synthesized N -acetylglucosamine-terminated hexavalent carbosilane dendrimers and investigated their binding to wheat germ agglutinin (WGA). The glycodendrimers were prepared by the conjugation of 3-mercaptopropyl, 4-mercaptobutyl, or 5‑mercaptopentyl glycosides to maleimide-terminated hexavalent carbosilane dendrimers. Titration of WGA with the glycodendrimers yielded quenching of tryptophan fluorescence. All of the glycodendrimers exhibited high affinity with nanomolar dissociation constants (K D values). The best dendrimers were 1a and 1b with K D values of 6.5 ± 1.7 and 5.3 ± 1.7 nM, respectively. The magnitude of fluorescence quenching increased with decrease in the length of the thioalkyl spacer. Maleimide-pendant carbosilane dendrimers provide ready access to multivalent ligands with high-affinity potential. [ABSTRACT FROM AUTHOR]

Published

2022

44. Promising PEGylated cationic dendrimers for delivery of miRNAs as a possible therapy against HIV-1 infection

Author

Ignacio Rodriguez-Izquierdo, E. Royo-Rubio, M. A. Muñoz-Fernández, Tania Lozano-Cruz, M. Moreno-Domene, F. J. de la Mata, Rafael Gómez, and Jose L. Jimenez

Subjects

Dendrimers, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), HIV Infections, Bioengineering, HIV-1 infection, Applied Microbiology and Biotechnology, Cell Line, Polyethylene Glycols, Flow cytometry, law.invention, Drug Delivery Systems, Confocal microscopy, law, Cations, Nucleic Acids, Dendrimer, microRNA, Medical technology, medicine, Humans, Particle Size, R855-855.5, Cytotoxicity, Inhibition, medicine.diagnostic_test, Chemistry, Research, RNA, Molecular medicine, microRNAs, Cell biology, HIV-1, Leukocytes, Mononuclear, Nucleic acid, Molecular Medicine, Carbosilane dendrimers, Delivery, TP248.13-248.65, Biotechnology

Abstract

Background The appearance of resistance against new treatments and the fact that HIV-1 can infect various cell types and develop reservoirs and sanctuaries makes it necessary to develop new therapeutic approaches to overcome those failures. Results Studies of cytotoxicity, genotoxicity, complexes formation, stability, resistance, release and particle size distribution confirmed that G2-SN15-PEG, G3-SN31-PEG, G2-SN15-PEG-FITC and G3-SN31-PEG-FITC dendrimers can form complexes with miRNAs being biocompatible, stable and conferring protection to these nucleic acids. Confocal microscopy and flow cytometry showed effective delivery of these four dendrimers into the target cells, confirming their applicability as delivery systems. Dendriplexes formed with the dendrimers and miRNAs significantly inhibited HIV-1 infection in PBMCs. Conclusions These dendrimers are efficient delivery systems for miRNAs and they specifically and significantly improved the anti-R5-HIV-1 activity of these RNA molecules. Graphic Abstract

Published

2021

45. Calorimetric and infrared studies of carbosilane dendrimers of the third generation with ethyleneoxide terminal groups.

Author

Markin, A.V., Sologubov, S.S., Smirnova, N.N., Knyazev, A.V., Mączka, M., Ptak, M., Novozhilova, N.A., Tatarinova, E.A., and Muzafarov, A.M.

Subjects

*DENDRIMERS, *SILANE compounds, *ETHYLENE oxide, *CALORIMETRY, *INFRARED spectroscopy, *HEAT capacity, *THERMODYNAMICS, *GLASS transitions

Abstract

In the present work, temperature dependences of heat capacities of carbosilane dendrimers of the third generation with ethyleneoxide terminal groups, denoted as G3[(OCH 2 CH 2 ) 1 OCH 3 ] 32 and G3[(OCH 2 CH 2 ) 3 OCH 3 ] 32 , have been measured in the temperature ranges from T = 6 to 520 K by precision adiabatic calorimetry (AC) and differential scanning calorimetry (DSC). In the above temperature range the physical transformations, such as glass transition and anomalies, have been detected, and their standard thermodynamic characteristics have been determined and analyzed. Complementary temperature-dependent infrared (IR) studies of carbosilane dendrimer G3[(OCH 2 CH 2 ) 1 OCH 3 ] 32 have been performed in the range from T = 4 to 298 K in order to study the nature of the revealed transformations. The standard thermodynamic functions of dendrimers under study, namely, heat capacity C p 0 ( T ) , enthalpy H °( T ) − H °(0), entropy S °( T ) − S °(0), and Gibbs energy G °( T ) − H °(0) have been calculated for the range from T → 0 to 520 K. The standard thermodynamic properties of the investigated dendrimers have been discussed and compared with literature data for carbosilane dendrimers with different functional terminal groups. [ABSTRACT FROM AUTHOR]

Published

2015

46. Carbosilane dendrimers inhibit α-synuclein fibrillation and prevent cells from rotenone-induced damage.

Author

Milowska, Katarzyna, Szwed, Aleksandra, Mutrynowska, Marta, Gomez-Ramirez, Rafael, de la Mata, Francisco Javier, Gabryelak, Teresa, and Bryszewska, Maria

Subjects

*DENDRIMERS, *ENZYME inhibitors, *SYNUCLEINS, *ROTENONE, *REACTIVE oxygen species, *CELL survival

Abstract

This study investigates the role of carbosilane dendrimers in fibrillation of α-synuclein and prevention of the mouse hippocampal cell (mHippoE-18) from rotenone-induced damage. Examining the interaction between carbosilane dendrimers and α-synuclein, we found that the dendrimers inhibit fibril formation. We also investigated cell viability, the production of reactive oxygen species (ROS), and mitochondrial membrane potential. mHippoE-18 cells were preincubated with carbosilane dendrimers before rotenone was added. All the dendrimers possess potential protection activity. Preincubation with dendrimers contributed to: increased viability, higher mitochondrial membrane potential, and reduced ROS level in cells. The probable mechanism of cell protection lies in the ability of dendrimers to capture rotenone by encapsulating or binding to its surface groups. The fact that dendrimers have prevention potential is important in the search for new pharmacological strategies against neurodegenerative disorders. [ABSTRACT FROM AUTHOR]

Published

2015

47. Evaluation of the activity of new cationic carbosilane dendrimers on trophozoites and cysts of Acanthamoeba polyphaga.

Author

Heredero-Bermejo, Irene, Copa-Patiño, Jose, Soliveri, Juan, Fuentes-Paniagua, Elena, Mata, Francisco, Gomez, Rafael, and Perez-Serrano, Jorge

Subjects

*DENDRIMERS, *TROPHOZOITES, *ACANTHAMOEBA polyphaga, *ANTI-infective agents, *NANOCARRIERS, *ACANTHAMOEBA keratitis

Abstract

Dendrimers are repetitively branched molecules with a broad spectrum of applications, mainly for their antimicrobial properties and as nanocarriers for other molecules. Recently, our research group have synthesized and studied their activity against Acanthamoeba sp., causative agent of a severe ocular disease in humans: Acanthamoeba keratitis. New cationic carbosilane dendrimers were tested against the protozoa forms at different concentrations and for different incubation times. Trophozoite viability was determined by manual counting and cyst viability by observing excystment in microplates with fresh culture medium. Cytotoxicity was checked on HeLa cells using the microculture tetrazolium assay. Alterations were observed by optical microscopy and by flow cytometry staining with propidium iodide. Six out of the 18 dendrimers tested were non-cytotoxic and effective against the trophozoite form, having one of them (dendrimer 14 with an IC of 2.4 + 0.1 mg/L) a similar activity to chlorhexidine digluconate (IC 1.7 + 0.1 mg/L). This dendrimer has a polyphenoxo core and a sulphur atom close to the six −NH3+ terminal groups. On the other hand, only two dendrimers showed some effect against cysts (dendrimers 14 and 17). However, their minimum cysticidal concentrations were cytotoxic and less effective than the control drug. The alterations on the amoeba morphology produced by the treatment with dendrimers were size reduction, increased complexity, loss of acanthopodia and cell membrane disruption. In conclusion, these results suggest that some dendrimers may be studied in animal models to test their effect and that new dendrimers with similar features should be synthesized. [ABSTRACT FROM AUTHOR]

Published

2015

48. Carbosilane dendrimers as gene delivery agents for the treatment of HIV infection.

Author

Perisé-Barrios, Ana Judith, Jiménez, José Luis, Domínguez-Soto, Angeles, de la Mata, F. Javier, Corbí, Angel L., Gomez, Rafael, and Muñoz-Fernandez, María Ángeles

Subjects

*DENDRIMERS in medicine, *HIV infections, *THERAPEUTICS, *GENE delivery techniques, *GENE therapy, *VIRAL replication, *T cells, *MACROPHAGES

Abstract

Abstract: Despite the use of siRNA in the downregulation of HIV-1 replication which has been reported, CD4 T lymphocytes are difficult to transfect with non-viral vectors. We determined whether second generation carbosilane dendrimers (2G-NN16 and 2G-03NN24) may be efficient transfectants in CD4 T lymphocytes. Dendrimers were also tested on macrophages to determine whether they can modify macrophage phenotype and induce an inflammatory response. The nanoconjugate formed by 2G-03NN24/siRNA-Nef presents the highest inhibition of HIV-1 replication. Dendrimers presented safety properties because they did not induce proliferation on CD4 T lymphocytes and decrease the release of TNFα and IL-12p40 by macrophages. Both dendrimers also decrease the phagocytosis activity. Additionally, 2G-03NN24 dendrimer decreases the CCL2 and CCR2 expression in macrophages. Carbosilane dendrimers 2G-NN16 and 2G-03NN24 can be used as efficient non-viral vectors for gene therapy applications, mainly in the treatment of HIV infection. [Copyright &y& Elsevier]

Published

2014

49. Thermodynamic properties of carbosilane dendrimers of the third and sixth generations with ethyleneoxide terminal groups.

Author

Smirnova, N., Markin, A., Letyanina, I., Sologubov, S., Novozhilova, N., Tatarinova, E., and Muzafarov, A.

Abstract

The temperature dependences of the heat capacities of carbosilane dendrimers of the third and sixth generations with ethyleneoxide terminal groups are examined for the first time by means of precision adiabatic vacuum calorimetry at temperatures between 6.5 and 350 K. In this temperature range, physical transformations are observed and their standard thermodynamic characteristics are determined and discussed. The standard thermodynamic functions are calculated per nominal mole of a chosen unit using the obtained experimental data: C°( T), H°( T) - H°(0), S°( T) - S°(0), and G°( T) - H°(0) in the interval T → 0 to 350 K, and the standard entropies of formation at T = 298.15 K. The low-temperature ( T ≤ 50 K) heat capacity is analyzed using the Debye theory of specific heat and a multifractal model. The values of fractal dimension D are also determined, and conclusions on the investigated structures' topology are drawn. The corresponding thermodynamic properties of the studied dendrimers are compared as well. [ABSTRACT FROM AUTHOR]

Published

2014

50. Carbosilane Dendrimers Loaded with siRNA Targeting Nrf2 as a Tool to Overcome Cisplatin Chemoresistance in Bladder Cancer Cells

Author

Monica Argenziano, Giuseppina Barrera, Marie Angele Cucci, Javier Sánchez Nieves, Roberta Cavalli, Rafael Gómez, Inge A. M. de Graaf, Chiara Dianzani, Stefania Pizzimenti, Margherita Grattarola, Leanne Ambrosio, and Faculty of Science and Engineering

Subjects

0301 basic medicine, non‐cancerous HK‐2 cells, Small interfering RNA, Physiology, Genetic enhancement, Clinical Biochemistry, nuclear factor erythroid 2‐related factor 2 (Nrf2), carbosilane dendrimers, Biochemistry, digestive system, environment and public health, Article, 03 medical and health sciences, 0302 clinical medicine, In vivo, nuclear factor erythroid 2-related factor 2 (Nrf2), medicine, Molecular Biology, Transcription factor, Cisplatin, Bladder cancer, Carbosilane dendrimers, Cisplatin resistance, Non-cancerous HK-2 cells, Nuclear factor erythroid 2-related factor 2 (Nrf2), Small interfering RNA (siRNA), Chemistry, small interfering RNA (siRNA), lcsh:RM1-950, Cancer, Cell Biology, non-cancerous HK-2 cells, respiratory system, medicine.disease, 030104 developmental biology, lcsh:Therapeutics. Pharmacology, 030220 oncology & carcinogenesis, Drug delivery, Cancer research, bladder cancer, cisplatin resistance, medicine.drug

Abstract

The transcription factor nuclear factor erythroid 2-related factor 2 (Nrf2) is considered as the master regulator of antioxidant and cytoprotective gene expressions. Moreover, it plays a pivotal role in cancer progression. Nrf2 mediates the adaptive response which contributes to the resistance to chemotherapeutic pro-oxidant drugs, such as cisplatin (CDDP), in various tumors, including bladder cancers. For this reason, Nrf2 could be a promising target to overcome chemoresistance. There are several known Nrf2 pharmacological inhibitors, however, most of them are not specific. The use of a specific small interfering RNA (siRNA) targeting the Nrf2 gene (siNrf2) loaded into nanovehicles is an attractive alternative, since it can increase specificity. This study aimed to evaluate the biological activity of siNrf2 loaded on guanidine-terminated carbosilane dendrimers (GCDs) in overcoming CDDP resistance in bladder cancer cells with a high level of Nrf2. Parameters such as viability, proliferation, apoptosis, migration, and oxidative stress level were taken into account. Results demonstrated that siNrf2-GCD treatment sensitized CDDP-resistant cells to CDDP treatment. Moreover, data obtained by treating the non-cancerous human kidney HK-2 cell line strongly suggest a good safety profile of the carbosilane dendrimers loaded with siNrf2. In conclusion, we suggest that siNrf2-GCD is a promising drug delivery system for gene therapy to be used in vivo, and it may represent an important tool in the therapy of CDDP-resistant cancer.

Published

2020