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197 results on '"Balalaeva, Irina V."'

1. Submicron vaterite particles, loaded with porphyrazine photosensitizer for photodynamic therapy of bladder carcinoma cells

Author

Shestakova, Lydia N., Galochkina, Natalia E., Trushina, Daria B., Klapshina, Larisa G., Lermontova, Svetlana A., Balalaeva, Irina V., and Shilyagina, Natalia Yu.

Subjects
photodynamic therapy, photosensitizer, vaterite, porphyrazine, bladder cancer, Physics, QC1-999
Abstract

Background and Objectives: Bladder cancer is one of the ten most common cancers causing a high mortality rate. Photodynamic therapy (PDT) is one of the promising ways to treat this disease. To increase the effectiveness of PDT it is necessary to ensure selective delivery of photosensitizer to the tumor. Selective delivery systems such as nano- and microparticles of calcium carbonate in the polymorphic modification of vaterite are of great interest to solve this problem. Therefore, the aim of this study was to investigate submicron particles of vaterite as agents for selective delivery of photosensitizer PzBn on human bladder T24 cell culture. Materials and Methods: Calcium carbonate particles were obtained by mixing equimolar solutions of CaCl2 and Na2CO3 salts in the presence of glycerol. PzBn was immobilized by adsorbing the substance on preliminarily synthesized vaterite particles. The loading efficiency was evaluated using the spectrophotometric method. The experiments were carried out on the T24 human bladder carcinoma cell line. Intracellular localization was assessed using fluorescent laser confocal scanning microscopy. The study of the dynamics of PzBnVp accumulation by cells was carried out by spectrophotometry. Dark toxicity and photodynamic activity were analyzed using the MTT test. Results: The efficiency of loading porphyrazine into vaterite particles is over 9%. It has been shown that PzBnVp is characterized by rather rapid accumulation by T24 cells: the maximum accumulation is recorded already 30 minutes after its addition, after which the intensity of the fluorescence signal remains at a constant level for 5 hours of observation. It has been demonstrated that PzBnVp is characterized by low dark toxicity with high photodynamic activity. Conclusion: The possibility of loading vaterite particles with the photodynamic dye porphyrazine has been demonstrated. A high rate of entry of vaterite particles into the cell and the release of the loaded photosensitizer from particles and its subsequent redistribution over subcellular structures have been shown. The preservation of the photodynamic activity of porphyrazine in the composition of vaterite particles and the absence of dark toxicity in the studied concentration range have been demonstrated. Vaterite particles can be considered as promising agents for the selective delivery of porphyrazine to the tumor in order to increase the efficiency of photodynamic therapy.

Published
2023
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4. Developing Chlorin/Arylaminoquinazoline Conjugates with Nanomolar Activity for Targeted Photodynamic Therapy: Design, Synthesis, SAR, and Biological Evaluation.

Author

Krylova, Lubov V., Otvagin, Vasilii F., Gribova, Galina P., Kuzmina, Natalia S., Fedotova, Ekaterina A., Zelepukin, Ivan V., Nyuchev, Alexander V., Kustov, Andrey V., Morshnev, Philipp K., Berezin, Dmitry B., Koifman, Mikhail O., Vatsadze, Sergey Z., Balalaeva, Irina V., and Fedorov, Alexey Yu.

Published
2025
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9. Photodynamic Therapy in Cancer: Principles, State of the Art, and Future Directions.

Author

Krysko, Dmitri V., Balalaeva, Irina V., and Mishchenko, Tatiana A.

Subjects
*CHERENKOV radiation, *ETHER lipids, *SQUAMOUS cell carcinoma, *TUMOR growth, *IMMUNOLOGIC memory, *DEXTRAN
Abstract

The document "Photodynamic Therapy in Cancer: Principles, State of the Art, and Future Directions" published in the journal Pharmaceutics discusses the use of photodynamic therapy (PDT) as a potent strategy for treating various types of cancer. PDT involves photoactive dyes that, when exposed to light, trigger the production of cytotoxic molecules in tumor tissue. Advances in light delivery systems have expanded the applicability of PDT to treat large solid tumors and tumors deep within organs. The document highlights the development of new photoactive molecules, the importance of inducing immunogenic cell death, and the potential of combining PDT with other cancer treatment modalities to enhance efficacy. [Extracted from the article]

Published
2024
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20. Dendritic Cells Pulsed with Tumor Lysates Induced by Tetracyanotetra(aryl)porphyrazines-Based Photodynamic Therapy Effectively Trigger Anti-Tumor Immunity in an Orthotopic Mouse Glioma Model

Author

Redkin, Tikhon S., primary, Sleptsova, Ekaterina E., additional, Turubanova, Victoria D., additional, Saviuk, Mariia O., additional, Lermontova, Svetlana A., additional, Klapshina, Larisa G., additional, Peskova, Nina N., additional, Balalaeva, Irina V., additional, Krysko, Olga, additional, Mishchenko, Tatiana A., additional, Vedunova, Maria V., additional, and Krysko, Dmitri V., additional

Published
2023
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23. Breast Cancer Cell Type and Biomechanical Properties of Decellularized Mouse Organs Drives Tumor Cell Colonization

Author

Pospelov, Anton D., primary, Kutova, Olga M., additional, Efremov, Yuri M., additional, Nekrasova, Albina A., additional, Trushina, Daria B., additional, Gefter, Sofia D., additional, Cherkasova, Elena I., additional, Timofeeva, Lidia B., additional, Timashev, Peter S., additional, Zvyagin, Andrei V., additional, and Balalaeva, Irina V., additional

Published
2023
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24. A First-in-Class β-Glucuronidase Responsive Conjugate for Selective Dual Targeted and Photodynamic Therapy of Bladder Cancer

Author

Otvagin, Vasilii F., primary, Krylova, Lubov V., additional, Peskova, Nina N., additional, Kuzmina, Natalia S., additional, Fedotova, Ekaterina A., additional, Nyuchev, Alexander V., additional, Romanenko, Yuliya V., additional, Koifman, Oscar I., additional, Vatsadze, Sergey Z., additional, Schmalz, Hans-Günther, additional, Balalaeva, Irina V., additional, and Fedorov, Alexey Yu., additional

Published
2023
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27. Physics of Ice Nucleation and Antinucleation: Action of Ice-Binding Proteins.

Author

Melnik, Bogdan S., Glukhova, Ksenia A., Sokolova, Evgeniya A., Balalaeva, Irina V., Garbuzynskiy, Sergiy O., and Finkelstein, Alexei V.

Subjects
ANTIFREEZE proteins, ICE crystals, SPRUCE budworm, NUCLEATION, PHYSICS, ICE
Abstract

Ice-binding proteins are crucial for the adaptation of various organisms to low temperatures. Some of these, called antifreeze proteins, are usually thought to inhibit growth and/or recrystallization of ice crystals. However, prior to these events, ice must somehow appear in the organism, either coming from outside or forming inside it through the nucleation process. Unlike most other works, our paper is focused on ice nucleation and not on the behavior of the already-nucleated ice, its growth, etc. The nucleation kinetics is studied both theoretically and experimentally. In the theoretical section, special attention is paid to surfaces that bind ice stronger than water and thus can be "ice nucleators", potent or relatively weak; but without them, ice cannot be nucleated in any way in calm water at temperatures above −30 °C. For experimental studies, we used: (i) the ice-binding protein mIBP83, which is a previously constructed mutant of a spruce budworm Choristoneura fumiferana antifreeze protein, and (ii) a hyperactive ice-binding antifreeze protein, RmAFP1, from a longhorn beetle Rhagium mordax. We have shown that RmAFP1 (but not mIBP83) definitely decreased the ice nucleation temperature of water in test tubes (where ice originates at much higher temperatures than in bulk water and thus the process is affected by some ice-nucleating surfaces) and, most importantly, that both of the studied ice-binding proteins significantly decreased the ice nucleation temperature that had been significantly raised in the presence of potent ice nucleators (CuO powder and ice-nucleating bacteria Pseudomonas syringae). Additional experiments on human cells have shown that mIBP83 is concentrated in some cell regions of the cooled cells. Thus, the ice-binding protein interacts not only with ice, but also with other sites that act or potentially may act as ice nucleators. Such ice-preventing interaction may be the crucial biological task of ice-binding proteins. [ABSTRACT FROM AUTHOR]

Published
2024
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29. Novel Rigidochromic and Anti-Kasha Dual Emission Fluorophores Based on D-π-A Dyads as the Promising Materials for Potential Applications Ranging from Optoelectronics and Optical Sensing to Biophotonics and Medicine

Author

Lermontova, Svetlana A., primary, Arsenyev, Maxim V., additional, Cherkasov, Anton V., additional, Fukin, Georgy K., additional, Afanasyev, Andrey V., additional, Yudintsev, Andrey V., additional, Grigoryev, Ilya S., additional, Ladilina, Elena Yu., additional, Lyubova, Tatyana S., additional, Shilyagina, Natalia Yu., additional, Balalaeva, Irina V., additional, Klapshina, Larisa G., additional, and Piskunov, Alexandr V., additional

Published
2023
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36. Cyanoarylporphyrazines with High Viscosity Sensitivity: A Step towards Dosimetry-Assisted Photodynamic Cancer Treatment

Author

Balalaeva, Irina V., primary, Mishchenko, Tatiana A., additional, Turubanova, Victoria D., additional, Peskova, Nina N., additional, Shilyagina, Natalia Y., additional, Plekhanov, Vladimir I., additional, Lermontova, Svetlana A., additional, Klapshina, Larisa G., additional, Vedunova, Maria V., additional, and Krysko, Dmitri V., additional

Published
2021
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40. A method of drug delivery to tumors based on rapidly biodegradable drug-loaded containers

Author

Parakhonskiy, Bogdan, V, Shilyagina, Natalia Yu, Gusliakova, Olga, I, Volovetskiy, Artur B., Kostyuk, Alexey B., Balalaeva, Irina, V, Klapshina, Larisa G., Lermontova, Svetlana A., Tolmachev, Vladimir, Orlova, Anna, Gorin, Dmitry A., Sukhorukov, Gleb B., Zvyagin, Andrei, V, Parakhonskiy, Bogdan, V, Shilyagina, Natalia Yu, Gusliakova, Olga, I, Volovetskiy, Artur B., Kostyuk, Alexey B., Balalaeva, Irina, V, Klapshina, Larisa G., Lermontova, Svetlana A., Tolmachev, Vladimir, Orlova, Anna, Gorin, Dmitry A., Sukhorukov, Gleb B., and Zvyagin, Andrei, V

Abstract

To mitigate side effects in systemic administration, anticancer drugs are encapuslated in nanocontainers. The nanocontainers are impermeable through normal vessel walls but can permeate and retain in the tumor, albeit their diffusive transport in the tumor interstitium towards pharmacological targets is drastically hindered by the tumor microenvironment resulting in a compromised therapeutic efficacy. We introduce a new drug delivery concept, which relies on drug container passive accumulation in the tumor vasculature followed by an hours-scale release of small-molecule payload that cross the capillary walls to the tumor interstitium and permeates the tumor parenchyma. To demonstrate this approach, a colloidal solution of geology-inspired sub-micron vaterite particles (VPs) loaded with photosensitiser drug porphyrazine was used to deliver and visualise porphyrazine biodistribution in the tumors in vivo . The tumor uptake of polyethylene-glycol-coated gold nanorods and porphyrazine was enhanced c.a 4-fold and 1.8-fold, respectively, when formulated in VP containers. The tumor uptake of similar to 30%ID/g much higher than the field average was achieved and enabled successful photodynamic therapy.

Published
2021
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43. UCNP-based Photoluminescent Nanomedicines for Targeted Imaging and Theranostics of Cancer

Author

Guryev, Evgenii L., primary, Smyshlyaeva, Anita S., additional, Shilyagina, Natalia Y., additional, Sokolova, Evgeniya A., additional, Shanwar, Samah, additional, Kostyuk, Alexey B., additional, Lyubeshkin, Alexander V., additional, Schulga, Alexey A., additional, Konovalova, Elena V., additional, Lin, Quan, additional, Roy, Indrajit, additional, Balalaeva, Irina V., additional, Deyev, Sergey M., additional, and Zvyagin, Andrei V., additional

Published
2020
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44. Water-Soluble Chlorin/Arylaminoquinazoline Conjugate for Photodynamic and Targeted Therapy

Author

Otvagin, Vasilii F., primary, Kuzmina, Natalia S., additional, Krylova, Lubov V., additional, Volovetsky, Arthur B., additional, Nyuchev, Alexander V., additional, Gavryushin, Andrei E., additional, Meshkov, Ivan N., additional, Gorbunova, Yulia G., additional, Romanenko, Yuliya V., additional, Koifman, Oscar I., additional, Balalaeva, Irina V., additional, and Fedorov, Alexey Yu, additional

Published
2019
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48. Preclinical Study of Biofunctional Polymer-Coated Upconversion Nanoparticles

Author

Guryev, Evgenii L, primary, Shilyagina, Natalia Y, additional, Kostyuk, Alexey B, additional, Sencha, Ludmila M, additional, Balalaeva, Irina V, additional, Vodeneev, Vladimir A, additional, Kutova, Olga M, additional, Lyubeshkin, Alexander V, additional, Yakubovskaya, Raisa I, additional, Pankratov, Andrei A, additional, Ingel, Faina I, additional, Novik, Tamara S, additional, Deyev, Sergey M, additional, Ermilov, Sergey A, additional, and Zvyagin, Andrei V, additional

Published
2019
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49. Cyano-Aryl Porphyrazine Pigments with Polycyclic Substituents as the Promising Agents for Photodynamic Therapy and Potential Sensors of Local Viscosity

Author

Lermontova, Svetlana A., primary, Grigoryev, Ilya S., additional, Peskova, Nina N., additional, Ladilina, Elena Yu., additional, Lyubova, Tatyana S., additional, Plekhanov, Vladimir I., additional, Grishin, Ivan D., additional, Balalaeva, Irina V., additional, and Klapshina, Larisa G., additional

Published
2019
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