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Вид документа : Статья из журнала
Шифр издания :
Автор(ы) : Belyanina I. V., Zamay T. N., Zamay G. S., Zamay S. S., Kolovskaya, Olga S., Ivanchenko, Tatiana I., Denisenko, Valery V., Kirichenko, Andrey K., Glazyrin, Yury E., Garanzha, Irina V., Grigorieva, Valentina V., Shabanov A. V., Veprintsev, Dmitry V., Sokolov A. E., Sadovskii, Vladimir M., Gargaun, Ana, Berezovski M. V., Kichkailo, Anna S.
Заглавие : In vivo cancer cells elimination guided by aptamer-functionalized gold-coated magnetic nanoparticles and controlled with low frequency alternating magnetic field
Коллективы : Russian Scientific Fund [14-15-00805]
Место публикации : Theranostics. - 2017. - Vol. 7, Is. 13. - P.3326-3337. - ISSN 1838-7640, DOI 10.7150/thno.17089
Примечания : Cited References:35. - The authors are grateful to George Y. Vorogeikin, Yuri I. Vorogeikin and "OKB ART". Andrey Barinov and "OPTEC Group" for help with 3D laser scanning imaging. Microscopic analyses using Carl Zeiss LSM 800 were done in the "Center for bioassay, nanotechnology and nanomaterials safety" ("Biotest-Nano") (Multiple-Access Center, Tomsk State University, Tomsk, Russia). Toxicity studies have been performed in Multiple-Access Center, Central Scientific Research Laboratory in Krasnoyarsk State Medical University named after prof. V.F. Voino-Yasenecky. This work was supported by the Russian Scientific Fund (grant #14-15-00805).
Предметные рубрики: PHOTOTHERMAL THERAPY
INTEGRIN ACTIVATION
FIBRONECTIN
STIMULATION
Ключевые слова (''Своб.индексиров.''): cancer therapy--gold coated magnetic nanoparticles--dna aptamers--low--frequency alternating magnetic field--fibronectin--integrin--apoptosis--necrosis
Аннотация: Biomedical applications of magnetic nanoparticles under the influence of a magnetic field have been proved useful beyond expectations in cancer therapy. Magnetic nanoparticles are effective heat mediators, drug nanocarriers, and contrast agents; various strategies have been suggested to selectively target tumor cancer cells. Our study presents magnetodynamic nanotherapy using DNA aptamer-functionalized 50 nm gold-coated magnetic nanoparticles exposed to a low frequency alternating magnetic field for selective elimination of tumor cells in vivo. The cell specific DNA aptamer AS-14 binds to the fibronectin protein in Ehrlich carcinoma hence helps deliver the gold-coated magnetic nanoparticles to the mouse tumor. Applying an alternating magnetic field of 50 Hz at the tumor site causes the nanoparticles to oscillate and pull the fibronectin proteins and integrins to the surface of the cell membrane. This results in apoptosis followed by necrosis of tumor cells without heating the tumor, adjacent healthy cells and tissues. The aptamer-guided nanoparticles and the low frequency alternating magnetic field demonstrates a unique non-invasive nanoscalpel technology for precise cancer surgery at the single cell level.
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Вид документа : Статья из журнала
Шифр издания :
Автор(ы) : Semina P. N., Isaev I. L., Komogortsev S. V., Klyuchantsev A. B., Kostyukov A. S., Blagodatova A. V., Khrennikov D. E., Kichkailo A. S., Zamay T. N., Lapin I. N., Sokolov A. Е., Polyutov S. P., Karpov S. V.
Заглавие : Towards understanding the triggering of the malignant cell death in high-efficiency magneto-mechanical anticancer therapy
Место публикации : J. Phys. D. - 2023. - Vol. 56, Is. 6. - Ст.065401. - ISSN 00223727 (ISSN), DOI 10.1088/1361-6463/acb0dd. - ISSN 13616463 (eISSN)
Примечания : Cited References: 146. - P N S, A S K, D E K, S P P, S V K acknowledge the support by the Ministry of Science and High Education of Russian Federation (Project No. FSRZ-2020-0008). Experimental analyses were funded by the Ministry of Science and Higher Education of the Russian Federation (Project FWES-2022-0005) – A S K, T N Z. The authors thank Dr S V Saikova for providing the TEM image in figure (b)
Аннотация: The paper discusses schemes for the implementation of magneto-mechanical anticancer therapy and the most probable scenarios of damaging mechanical eﬀects on the membranes of malignant cells by targeted magnetic nanoparticles selectively bound to membrane mechanoreceptors employing aptamers. The conditions for selective triggering of the malignant cell apoptosis in a low-frequency non-heating alternating magnetic ﬁeld, corresponding to the exceeding threshold value of the force acting on the membrane and its mechanoreceptors, are established using a nanoparticle dynamic simulation. The requirements for the functionality of magnetic nanoparticles and their suitability for biomedical applications are analysed. Attention is paid to the possibility of the formation of magnetite nanoparticle aggregates in an external magnetic ﬁeld and their localization near tumor cell membranes. It is shown that the scenario involving the process of aggregation of magnetite nanoparticles provides a suﬃcient magneto-mechanical impact to achieve a therapeutic eﬀect. A possible explanation for the experimentally established fact of successful application of magneto-mechanical therapy using magnetite nanoparticles is presented, in which complete suppression of the Ehrlich carcinoma in an alternating magnetic ﬁeld as a response to a magnetome-chanical stimulus was demonstrated. This result conﬁrmed the possibility of using the method for high eﬃciency treatment of malignant neoplasms. The paper is provided with an extensive review of key publications and the state of art in this area.
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Вид документа : Статья из журнала
Шифр издания :
Автор(ы) : Zamay, Tatiana, Zamay, Sergey, Luzan, Natalia, Fedotovskaya, Victoriya, Masyugin, Albert, Zelenov F., Koshmanova, Anastasia, Nikolaeva, Elena, Kirichenko, Daria, Veprintsev, Dmitry, Kolovskaya, Olga, Shchugoreva, Irina, Zamay, Galina, Lapin I. N., Lukyanenko A. V., Borus, Andrey, Sukhachev A. L., Volochaev M. N., Lukyanenko, Kirill, Shabanov, Alexandr, Zabluda V. N., Zhizhchenko, Alexey, Kuchmizhak, Aleksandr, Sokolov A. Е., Narodov, Andrey, Prokopenko, Vladimir, Galeev, Rinat, Svetlichnyi, Valery, Kichkailo, Anna
Заглавие : Magnetic nanoscalpel for the effective treatment of ascites tumors
Место публикации : J. Funct. Biomater. - 2023. - Vol. 14, Is. 4. - Ст.179. - ISSN 20794983 (eISSN), DOI 10.3390/jfb14040179
Примечания : Cited References: 36. - This research was funded by the Regional State Autonomous Institution “Krasnoyarsk Regional Fund for Support of Scientific and Scientific and Technical Activities”, Competition of scientific, technical, and innovative projects in the interests of the first world-class climate scientific and educational center “Yenisei Siberia”, grant “Carrying out applied research and development aimed at creating technologies for the production of nanoscalpels based on magnetic nanodisks for microsurgery of glial brain tumors” No. 2022060108781 and with the support of a partner company JSC «NPP «Radiosviaz»
Аннотация: One of the promising novel methods for radical tumor resection at a single-cell level is magneto-mechanical microsurgery (MMM) with magnetic nano- or microdisks modified with cancer-recognizing molecules. A low-frequency alternating magnetic field (AMF) remotely drives and controls the procedure. Here, we present characterization and application of magnetic nanodisks (MNDs) as a surgical instrument (“smart nanoscalpel”) at a single-cell level. MNDs with a quasi-dipole three-layer structure (Au/Ni/Au) and DNA aptamer AS42 (AS42-MNDs) on the surface converted magnetic moment into mechanical and destroyed tumor cells. The effectiveness of MMM was analyzed on Ehrlich ascites carcinoma (EAC) cells in vitro and in vivo using sine and square-shaped AMF with frequencies from 1 to 50 Hz with 0.1 to 1 duty-cycle parameters. MMM with the “Nanoscalpel” in a sine-shaped 20 Hz AMF, a rectangular-shaped 10 Hz AMF, and a 0.5 duty cycle was the most effective. A sine-shaped field caused apoptosis, whereas a rectangular-shaped field caused necrosis. Four sessions of MMM with AS42-MNDs significantly reduced the number of cells in the tumor. In contrast, ascites tumors continued to grow in groups of mice and mice treated with MNDs with nonspecific oligonucleotide NO-MND. Thus, applying a “smart nanoscalpel” is practical for the microsurgery of malignant neoplasms.
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