Your search keyword '"Gulnara Gaynanova"' showing total 10 results

1. Mitochondria-Targeted Lipid Nanoparticles Loaded with Rotenone as a New Approach for the Treatment of Oncological Diseases

Author

Leysan Vasileva, Gulnara Gaynanova, Darya Kuznetsova, Farida Valeeva, Anna Lyubina, Syumbelya Amerhanova, Alexandra Voloshina, Guzel Sibgatullina, Dmitry Samigullin, Konstantin Petrov, and Lucia Zakharova

Subjects

mitochondria, cationic surfactant, triphenylphosphonium, imidazolium, liposome, rotenone, Organic chemistry, QD241-441

Abstract

This research is based on the concept that mitochondria are a promising target for anticancer therapy, including thatassociated with the use of oxidative phosphorylation blockers (mitochondrial poisons). Liposomes based on L-α-phosphatidylcholine (PC) and cholesterol (Chol) modified with cationic surfactants with triphenylphosphonium (TPPB-n, where n = 10, 12, 14, and 16) and imidazolium (IA-n(OH), where n = 10, 12, 14, and 16) head groups were obtained. The physicochemical characteristics of liposomes at different surfactant/lipid molar ratios were determined by dynamic/electrophoretic light scattering, transmission electron microscopy, and spectrophotometry. The hydrodynamic diameter of all the systems was within 120 nm with a polydispersity index of no more than 0.24 even after 2 months of storage. It was shown that cationization of liposomes leads to an increase in the internalization of nanocontainers in pancreatic carcinoma (PANC-1) and duodenal adenocarcinoma (HuTu 80) cells compared with unmodified liposomes. Also, using confocal microscopy, it was shown that liposomes modified with TPPB-14 and IA-14(OH) statistically better colocalize with the mitochondria of tumor cells compared with unmodified ones. At the next stage, the mitochondrial poison rotenone (ROT) was loaded into cationic liposomes. It was shown that the optimal loading concentration of ROT is 0.1 mg/mL. The Korsmeyer–Peppas and Higuchi kinetic models were used to describe the release mechanism of ROT from liposomes in vitro. A significant reduction in the IC50 value for the modified liposomes compared with free ROT was shown and, importantly, a higher degree of selectivity for the HuTu 80 cell line compared with the normal cells (SI value is 307 and 113 for PC/Chol/TPPB-14/ROT and PC/Chol/IA-14(OH)/ROT, respectively) occurred. It was shown that the treatment of HuTu 80 cells with ROT-loaded cationic liposomal formulations leads to a dose-dependent decrease in the mitochondrial membrane potential.

Published

2023

2. Synthesis, Properties, and Biomedical Application of Dicationic Gemini Surfactants with Dodecane Spacer and Carbamate Fragments

Author

Leysan Vasileva, Gulnara Gaynanova, Farida Valeeva, Elvira Romanova, Rais Pavlov, Denis Kuznetsov, Grigory Belyaev, Irina Zueva, Anna Lyubina, Alexandra Voloshina, Konstantin Petrov, and Lucia Zakharova

Subjects

gemini surfactant, aggregation, antimicrobial activity, liposome, α-tocopherol, donepezil hydrochloride, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

A synthesis procedure and aggregation properties of a new homologous series of dicationic gemini surfactants with a dodecane spacer and two carbamate fragments (N,N′-dialkyl-N,N′-bis(2-(ethylcarbamoyloxy)ethyl)-N,N′-dimethyldodecan-1,6-diammonium dibromide, n-12-n(Et), where n = 10, 12, 14) were comprehensively described. The critical micelle concentrations of gemini surfactants were obtained using tensiometry, conductometry, spectrophotometry, and fluorimetry. The thermodynamic parameters of adsorption and micellization, i.e., maximum surface excess (Гmax), the surface area per surfactant molecule (Amin), degree of counterion binding (β), and Gibbs free energy of micellization (∆Gmic), were calculated. Functional activity of the surfactants, including the solubilizing capacity toward Orange OT and indomethacin, incorporation into the lipid bilayer, minimum inhibitory concentration, and minimum bactericidal and fungicidal concentrations, was determined. Synthesized gemini surfactants were further used for the modification of liposomes dual-loaded with α-tocopherol and donepezil hydrochloride for intranasal treatment of Alzheimer’s disease. The obtained liposomes have high stability (more than 5 months), a significant positive charge (approximately + 40 mV), and a high degree of encapsulation efficiency toward rhodamine B, α-tocopherol, and donepezil hydrochloride. Korsmeyer-Peppas, Higuchi, and first-order kinetic models were used to process the in vitro release curves of donepezil hydrochloride. Intranasal administration of liposomes loaded with α-tocopherol and donepezil hydrochloride for 21 days prevented memory impairment and decreased the number of Aβ plaques by 37.6%, 40.5%, and 72.6% in the entorhinal cortex, DG, and CA1 areas of the hippocampus of the brain of transgenic mice with Alzheimer’s disease model (APP/PS1) compared with untreated animals.

Published

2023

3. Mitochondria-Targeted Delivery Strategy of Dual-Loaded Liposomes for Alzheimer’s Disease Therapy

Author

Leysan Vasileva, Gulnara Gaynanova, Farida Valeeva, Grigory Belyaev, Irina Zueva, Kseniya Bushmeleva, Guzel Sibgatullina, Dmitry Samigullin, Alexandra Vyshtakalyuk, Konstantin Petrov, Lucia Zakharova, and Oleg Sinyashin

Subjects

liposome, surfactant, α-tocopherol, donepezil hydrochloride, Alzheimer’s disease, mitochondria, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Liposomes modified with tetradecyltriphenylphosphonium bromide with dual loading of α-tocopherol and donepezil hydrochloride were successfully designed for intranasal administration. Physicochemical characteristics of cationic liposomes such as the hydrodynamic diameter, zeta potential, and polydispersity index were within the range from 105 to 115 nm, from +10 to +23 mV, and from 0.1 to 0.2, respectively. In vitro release curves of donepezil hydrochloride were analyzed using the Korsmeyer–Peppas, Higuchi, First-Order, and Zero-Order kinetic models. Nanocontainers modified with cationic surfactant statistically better penetrate into the mitochondria of rat motoneurons. Imaging of rat brain slices revealed the penetration of nanocarriers into the brain. Experiments on transgenic mice with an Alzheimer’s disease model (APP/PS1) demonstrated that the intranasal administration of liposomes within 21 days resulted in enhanced learning abilities and a reduction in the formation rate of Aβ plaques in the entorhinal cortex and hippocampus of the brain.

Published

2023

4. The Formation of Morphologically Stable Lipid Nanocarriers for Glioma Therapy

Author

Rais Pavlov, Elvira Romanova, Denis Kuznetsov, Anna Lyubina, Syumbelya Amerhanova, Alexandra Voloshina, Daina Buzyurova, Vasily Babaev, Irina Zueva, Konstantin Petrov, Svetlana Lukashenko, Gulnara Gaynanova, and Lucia Zakharova

Subjects

liposome, cerasome, blood–brain barrier, Tween 80, paclitaxel, T98G cells, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Cerasomes are a promising modification of liposomes with covalent siloxane networks on the surface that provide outstanding morphological stability while maintaining all the useful traits of liposomes. Herein, thin film hydration and ethanol sol injection methods were utilized to produce cerasomes of various composition, which were then evaluated for the purpose of drug delivery. The most promising nanoparticles obtained by the thin film method were studied closely using MTT assay, flow cytometry and fluorescence microscopy on T98G glioblastoma cell line and modified with surfactants to achieve stability and the ability to bypass the blood–brain barrier. An antitumor agent, paclitaxel, was loaded into cerasomes, which increased its potency and demonstrated increased ability to induce apoptosis in T98G glioblastoma cell culture. Cerasomes loaded with fluorescent dye rhodamine B demonstrated significantly increased fluorescence in brain slices of Wistar rats compared to free rhodamine B. Thin film hydration with Tween 80 addition was established as a more reliable and versatile method for cerasome preparation. Cerasomes increased the antitumor action of paclitaxel toward T98G cancer cells by a factor of 36 and were able to deliver rhodamine B over the blood–brain barrier in rats.

Published

2023

5. Transdermal Delivery of 2-PAM as a Tool to Increase the Effectiveness of Traditional Treatment of Organophosphate Poisoning

Author

Leysan Vasileva, Gulnara Gaynanova, Irina Zueva, Anna Lyubina, Syumbelya Amerhanova, Daina Buzyurova, Vasily Babaev, Alexandra Voloshina, Konstantin Petrov, and Lucia Zakharova

Subjects

transfersome, 2-PAM, alkylpyrrolidinium bromide, organophosphate poisoning, transdermal drug delivery, acetylcholinesterase, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

For the first time, the efficacy of post-exposure treatment of organophosphate (OP) poisoning was increased by transdermal delivery of acetylcholinesterase (AChE) reactivator pyridine-2-aldoxime methochloride (2-PAM) as a preventive countermeasure. By selecting the optimal ratio of components, classical transfersomes (based on soybean phosphatidylcholine and Tween 20) and modified transfersomes (based on soybean phosphatidylcholine, Tween 20 and pyrrolidinium cationic surfactants with different hydrocarbon tail lengths) were obtained for 2-PAM encapsulation. Transfersomes modified with tetradecylpyrrolidinium bromide showed the best results in encapsulation efficiency and sustained release of 2-PAM from vesicles. Using Franz cells, it was found that the incorporation of surfactants into PC liposomes results in a more prolonged release of 2-PAM through the rat skin. Transfersomes containing 2-PAM, after exhaustive physical and chemical characterization, were embedded in a gel based on Carbopol® 940. A significantly high degree of erythrocyte AChE reactivation (23 ± 7%) was shown for 2-PAM in unmodified transfersomes in vivo. Preliminary transdermal administration of 2-PAM 24 h before emergency post-exposure treatment of OP poisoning leads to an increase in the survival rate of rats from 55% to 90%.

Published

2022

6. Supramolecular Tools to Improve Wound Healing and Antioxidant Properties of Abietic Acid: Biocompatible Microemulsions and Emulgels

Author

Alla Mirgorodskaya, Rushana Kushnazarova, Rais Pavlov, Farida Valeeva, Oksana Lenina, Kseniya Bushmeleva, Dmitry Kuryashov, Alexandra Vyshtakalyuk, Gulnara Gaynanova, Konstantin Petrov, and Lucia Zakharova

Subjects

drug delivery systems, emulgel, microemulsion, surfactant, gelating polymer, abietic acid, Organic chemistry, QD241-441

Abstract

Abietic acid, a naturally occurring fir resin compound, that exhibits anti-inflammatory and wound-healing properties, was formulated into biocompatible emulgels based on stable microemulsions with the addition of a carbamate-containing surfactant and Carbopol® 940 gel. Various microemulsion and emulgel formulations were tested for antioxidant and wound-healing properties. The chemiluminescence method has shown that all compositions containing abietic acid have a high antioxidant activity. Using Strat-M® skin-modelling membrane, it was found out that emulgels significantly prolong the release of abietic acid. On Wistar rats, it was shown that microemulsions and emulgels containing 0.5% wt. of abietic acid promote the rapid healing of an incised wound and twofold tissue reinforcement compared to the untreated group, as documented by tensiometric wound suture-rupture assay. The high healing-efficiency is associated with a combination of antibacterial activity of the formulation components and the anti-inflammatory action of abietic acid.

Published

2022

7. Self-Assembling Drug Formulations with Tunable Permeability and Biodegradability

Author

Gulnara Gaynanova, Leysan Vasileva, Ruslan Kashapov, Darya Kuznetsova, Rushana Kushnazarova, Anna Tyryshkina, Elmira Vasilieva, Konstantin Petrov, Lucia Zakharova, and Oleg Sinyashin

Subjects

biological barrier, surfactant, nanocontainer, nanoparticle, micelle, niosome, Organic chemistry, QD241-441

Abstract

This review focuses on key topics in the field of drug delivery related to the design of nanocarriers answering the biomedicine criteria, including biocompatibility, biodegradability, low toxicity, and the ability to overcome biological barriers. For these reasons, much attention is paid to the amphiphile-based carriers composed of natural building blocks, lipids, and their structural analogues and synthetic surfactants that are capable of self-assembly with the formation of a variety of supramolecular aggregates. The latter are dynamic structures that can be used as nanocontainers for hydrophobic drugs to increase their solubility and bioavailability. In this section, biodegradable cationic surfactants bearing cleavable fragments are discussed, with ester- and carbamate-containing analogs, as well as amino acid derivatives received special attention. Drug delivery through the biological barriers is a challenging task, which is highlighted by the example of transdermal method of drug administration. In this paper, nonionic surfactants are primarily discussed, including their application for the fabrication of nanocarriers, their surfactant-skin interactions, the mechanisms of modulating their permeability, and the factors controlling drug encapsulation, release, and targeted delivery. Different types of nanocarriers are covered, including niosomes, transfersomes, invasomes and chitosomes, with their morphological specificity, beneficial characteristics and limitations discussed.

Published

2021

8. Self-Assembly of Amphiphilic Compounds as a Versatile Tool for Construction of Nanoscale Drug Carriers

Author

Ruslan Kashapov, Gulnara Gaynanova, Dinar Gabdrakhmanov, Denis Kuznetsov, Rais Pavlov, Konstantin Petrov, Lucia Zakharova, and Oleg Sinyashin

Subjects

amphiphile, cationic surfactants, drug delivery, liposome, endosomal escape, macrocycle, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

This review focuses on synthetic and natural amphiphilic systems prepared from straight-chain and macrocyclic compounds capable of self-assembly with the formation of nanoscale aggregates of different morphology and their application as drug carriers. Since numerous biological species (lipid membrane, bacterial cell wall, mucous membrane, corneal epithelium, biopolymers, e.g., proteins, nucleic acids) bear negatively charged fragments, much attention is paid to cationic carriers providing high affinity for encapsulated drugs to targeted cells. First part of the review is devoted to self-assembling and functional properties of surfactant systems, with special attention focusing on cationic amphiphiles, including those bearing natural or cleavable fragments. Further, lipid formulations, especially liposomes, are discussed in terms of their fabrication and application for intracellular drug delivery. This section highlights several features of these carriers, including noncovalent modification of lipid formulations by cationic surfactants, pH-responsive properties, endosomal escape, etc. Third part of the review deals with nanocarriers based on macrocyclic compounds, with such important characteristics as mucoadhesive properties emphasized. In this section, different combinations of cyclodextrin platform conjugated with polymers is considered as drug delivery systems with synergetic effect that improves solubility, targeting and biocompatibility of formulations.

Published

2020

9. Recent nanoscale carriers for therapy of Alzheimer's disease: current strategies and perspectives

Author

Lucia Zakharova, Gulnara Gaynanova, Elmira Vasilieva, Leysan Vasileva, Rais Pavlov, Ruslan Kashapov, Konstantin Petrov, and Oleg Sinyashin

Subjects

Pharmacology, Drug Discovery, Organic Chemistry, Molecular Medicine, Biochemistry

Abstract

Abstract: This review covers nanotherapeutic strategies for solving the global problems associated with Alzheimer's disease (AD). The most dramatic factor contributing humanistic, social and economic urgency of the situation is the incurability of the disease, with the drug intervention addressing only AD symptoms and retarding their progress. Key sources behind these challenges are the inability of the early diagnosis of AD, the lack of comprehensive information on the molecular mechanism of the pathogenesis, the bloodbrain barrier obstacles, and the insufficient effectiveness of currently available drugs and therapeutic strategies. The application of nanocarriers allows part of these problems to be solved, together with the improvement of drug bioavailability, prolonged circulation, and overcoming/bypassing the biological barriers. To this date, numerous types and subtypes of nanocarriers are developed and reviewed, the majority of which can be adapted for the treatment of various diseases. Therefore, herein, nanotherapy strategies are specifically categorized in term of the administration routes of AD medicines, with the noninvasive, i.e., transdermal, oral, and intranasal routes emphasized. Further, benefits/ limitations of various nanocarriers are discussed, and perspectives of their application are highlighted.

Published

2022

10. List of Contributors

Author

M. Angela A. Meireles, Mohamed H. Abd El-Salam, Sulaiman O. Aljaloud, Maria S. Anokhina, Anna S. Antipova, Mohd. Aqil, Bojana Balanč, Santanu Basu, Larisa E. Belyakova, Bharat Bhanvase, Bhaswati Bhattacharya, Vladimir I. Binyukov, Natalia G. Bogdanova, Tarik Bor, Branko Bugarski, Gladis Yakeline Cortes-Mazatán, Verica Đorđević, Safinaz El-Shibiny, Alba Nidia Estrada-Ramírez, Bożena Fenert, Eva Fenyvesi, Sergio Enrique Flores-Villaseñor, Sophie Fourmentin, Gulnara Gaynanova, Shailesh Ghodke, Bronisław K. Głód, Alexandru Mihai Grumezescu, Ajai Prakash Gupta, Sumit Gupta, Suphla Gupta, Rabin Gyawali, Daniel Ioan Hădărugă, Nicoleta Gabriela Hădărugă, Salam A. Ibrahim, Anatol Jaworek, Leslie Violeta Vidal Jiménez, Kalpana Joshi, Ana Kalušević, Ruslan Kashapov, Valerii V. Kasparov, Miriana Kfoury, Saima Khan, Nisha Kumari, Manoj Kushwaha, Steva Lević, Daibing Luo, Antonio Martínez-Férez, Elena I. Martirosova, Alla Mirgorodskaya, Satyendra Mishra, Malik Muzafar, Viktor Nedović, Juan Felipe Osorio-Tobón, Nadezhda P. Palmina, Shweta Pandey, Jayamanti Pandit, Tatiana Pashirova, René Darío Peralta-Rodríguez, Sandra Pimentel-Moral, Yurii N. Polikarpov, Nishant Rai, Jorge Carlos Ramirez-Contreras, Purnima Rawat, Paz Robert, Antonio Segura-Carretero, Maria G. Semenova, Harshita Sharma, Eric Keven Silva, Siddhartha Singha, Shirish Sonawane, Yasmin Sultana, Oleg Synyashin, Lajos Szente, Sushama Talegaonkar, Kata Trifković, Prasad S. Variyar, Elmira Vasilieva, Vito Verardo, Liangzhuan Wu, Arvind Kumar Yadav, Lucia Zakharova, Paweł K. Zarzycki, Darya V. Zelikina, Jinfang Zhi, and Yuriy Zuev

Published

2016