Development of the technology for obtaining PLGA and dipropoxybateriopurpurinimide-based nanoparticles. Evaluation of physicochemical and biological properties of the obtained delivery system

Development of the technology for obtaining PLGA and dipropoxybateriopurpurinimide-based nanoparticles. Evaluation of physicochemical and biological properties of the obtained delivery system

The article describes the process of developing a technology for producing nanoparticles based on a copolymer of lactic and glycolic acids (PLGA) containing dipropoxybacteriopurpurinimide (DPBPI) for photodynamic therapy of malignant tumors of various origins. Technological parameters for optimizing...

Full description

Bibliographic Details
Main Authors: M. D. Sapelnikov, E. D. Nikolskaya, N. B. Morozova, E. A. Plotnikova, A. V. Efremenko, A. V. Panov, M. A. Grin, R. I. Yakubovskaya
Format: Article
Language:Russian
Published: Non-profit partnership for development of domestic photodynamic therapy and photodiagnosis "Russian Photodynamic Association" 2019-04-01
Series:Biomedical Photonics
Subjects:
photodynamic therapy
nanoparticles
plga
photosensitizer
photoinduced activity
photoinduced antitumor efficacy
dipropoxybacteriopurpurinimide
Online Access:https://www.pdt-journal.com/jour/article/view/288
id doaj-00b82731ba19487da84c9b1013af01fc
record_format Article
spelling doaj-00b82731ba19487da84c9b1013af01fc2021-07-29T08:06:59ZrusNon-profit partnership for development of domestic photodynamic therapy and photodiagnosis "Russian Photodynamic Association"Biomedical Photonics2413-94322019-04-018141710.24931/2413-9432-2019-8-1-4-17156Development of the technology for obtaining PLGA and dipropoxybateriopurpurinimide-based nanoparticles. Evaluation of physicochemical and biological properties of the obtained delivery systemM. D. Sapelnikov0E. D. Nikolskaya1N. B. Morozova2E. A. Plotnikova3A. V. Efremenko4A. V. Panov5M. A. Grin6R. I. Yakubovskaya7Federal State Budget Educational Institution of Higher Education “MIREA – Moscow Technological University”, MoscowRussian research center for molecular diagnostics and therapy (RCMDT), MoscowP.A. Herzen Moscow Oncology Research Center – branch of FSBI NMRRC of the Ministry of Health of Russia, MoscowP.A. Herzen Moscow Oncology Research Center – branch of FSBI NMRRC of the Ministry of Health of Russia, MoscowShemyakin & Ovchinnikov Institute of Bioorganic Chemistry of the Russian Academy of Sciences, Moscow; Lomonosov Moscow State University, MoscowFederal State Budget Educational Institution of Higher Education “MIREA – Moscow Technological University”, Moscow; ZAO “Institute of pharmaceutical technologies”, MoscowFederal State Budget Educational Institution of Higher Education “MIREA – Moscow Technological University”, MoscowP.A. Herzen Moscow Oncology Research Center – branch of FSBI NMRRC of the Ministry of Health of Russia, MoscowThe article describes the process of developing a technology for producing nanoparticles based on a copolymer of lactic and glycolic acids (PLGA) containing dipropoxybacteriopurpurinimide (DPBPI) for photodynamic therapy of malignant tumors of various origins. Technological parameters for optimizing the method in order to obtain nanoparticles with specified characteristics are presented in this paper. As a result, the nanoparticles sample with an average particle diameter of 222.6±2.8 nm; ξ-potential 26.3±4.61 mV; polydispersity index 0.144; the total content of DPBPI in PLGA-DPBPI nanoparticles 13.6% were obtained. In accordance with the developed technique, the batch of PLGA-DPBPI nanoparticles was developed for further biological studies. In vitro experiments on A549 human non-small cell lung carcinoma for DPBPI, delivered as a part of PLGA-DPBPI nanoparticles, and an EL cremophor-based emulsion (CrEL-DPBPI) showed a similar intracellular distribution (concentrated in vesicular cell structures and diffusely distributed in cytoplasm), as well as high photo induced activity and the absence of dark cytotoxicity in case of PLGA-DPBPI nanoparticles. The study of the PLGA-DPBPI nanoparticles specific activity in vivo on the S37 mouse soft tissue sarcoma model showed the selective accumulation of DPBPI in tumor tissue and the almost complete elimination of DPBPI from the body within 48 hours, as well as significant antitumor efficacy in PDT.https://www.pdt-journal.com/jour/article/view/288photodynamic therapynanoparticlesplgaphotosensitizerphotoinduced activityphotoinduced antitumor efficacydipropoxybacteriopurpurinimide
collection DOAJ
language Russian
format Article
sources DOAJ
author M. D. Sapelnikov
E. D. Nikolskaya
N. B. Morozova
E. A. Plotnikova
A. V. Efremenko
A. V. Panov
M. A. Grin
R. I. Yakubovskaya
spellingShingle M. D. Sapelnikov
E. D. Nikolskaya
N. B. Morozova
E. A. Plotnikova
A. V. Efremenko
A. V. Panov
M. A. Grin
R. I. Yakubovskaya
Development of the technology for obtaining PLGA and dipropoxybateriopurpurinimide-based nanoparticles. Evaluation of physicochemical and biological properties of the obtained delivery system
Biomedical Photonics
photodynamic therapy
nanoparticles
plga
photosensitizer
photoinduced activity
photoinduced antitumor efficacy
dipropoxybacteriopurpurinimide
author_facet M. D. Sapelnikov
E. D. Nikolskaya
N. B. Morozova
E. A. Plotnikova
A. V. Efremenko
A. V. Panov
M. A. Grin
R. I. Yakubovskaya
author_sort M. D. Sapelnikov
title Development of the technology for obtaining PLGA and dipropoxybateriopurpurinimide-based nanoparticles. Evaluation of physicochemical and biological properties of the obtained delivery system
title_short Development of the technology for obtaining PLGA and dipropoxybateriopurpurinimide-based nanoparticles. Evaluation of physicochemical and biological properties of the obtained delivery system
title_full Development of the technology for obtaining PLGA and dipropoxybateriopurpurinimide-based nanoparticles. Evaluation of physicochemical and biological properties of the obtained delivery system
title_fullStr Development of the technology for obtaining PLGA and dipropoxybateriopurpurinimide-based nanoparticles. Evaluation of physicochemical and biological properties of the obtained delivery system
title_full_unstemmed Development of the technology for obtaining PLGA and dipropoxybateriopurpurinimide-based nanoparticles. Evaluation of physicochemical and biological properties of the obtained delivery system
title_sort development of the technology for obtaining plga and dipropoxybateriopurpurinimide-based nanoparticles. evaluation of physicochemical and biological properties of the obtained delivery system
publisher Non-profit partnership for development of domestic photodynamic therapy and photodiagnosis "Russian Photodynamic Association"
series Biomedical Photonics
issn 2413-9432
publishDate 2019-04-01
description The article describes the process of developing a technology for producing nanoparticles based on a copolymer of lactic and glycolic acids (PLGA) containing dipropoxybacteriopurpurinimide (DPBPI) for photodynamic therapy of malignant tumors of various origins. Technological parameters for optimizing the method in order to obtain nanoparticles with specified characteristics are presented in this paper. As a result, the nanoparticles sample with an average particle diameter of 222.6±2.8 nm; ξ-potential 26.3±4.61 mV; polydispersity index 0.144; the total content of DPBPI in PLGA-DPBPI nanoparticles 13.6% were obtained. In accordance with the developed technique, the batch of PLGA-DPBPI nanoparticles was developed for further biological studies. In vitro experiments on A549 human non-small cell lung carcinoma for DPBPI, delivered as a part of PLGA-DPBPI nanoparticles, and an EL cremophor-based emulsion (CrEL-DPBPI) showed a similar intracellular distribution (concentrated in vesicular cell structures and diffusely distributed in cytoplasm), as well as high photo induced activity and the absence of dark cytotoxicity in case of PLGA-DPBPI nanoparticles. The study of the PLGA-DPBPI nanoparticles specific activity in vivo on the S37 mouse soft tissue sarcoma model showed the selective accumulation of DPBPI in tumor tissue and the almost complete elimination of DPBPI from the body within 48 hours, as well as significant antitumor efficacy in PDT.
topic photodynamic therapy
nanoparticles
plga
photosensitizer
photoinduced activity
photoinduced antitumor efficacy
dipropoxybacteriopurpurinimide
url https://www.pdt-journal.com/jour/article/view/288
work_keys_str_mv AT mdsapelnikov developmentofthetechnologyforobtainingplgaanddipropoxybateriopurpurinimidebasednanoparticlesevaluationofphysicochemicalandbiologicalpropertiesoftheobtaineddeliverysystem
AT ednikolskaya developmentofthetechnologyforobtainingplgaanddipropoxybateriopurpurinimidebasednanoparticlesevaluationofphysicochemicalandbiologicalpropertiesoftheobtaineddeliverysystem
AT nbmorozova developmentofthetechnologyforobtainingplgaanddipropoxybateriopurpurinimidebasednanoparticlesevaluationofphysicochemicalandbiologicalpropertiesoftheobtaineddeliverysystem
AT eaplotnikova developmentofthetechnologyforobtainingplgaanddipropoxybateriopurpurinimidebasednanoparticlesevaluationofphysicochemicalandbiologicalpropertiesoftheobtaineddeliverysystem
AT avefremenko developmentofthetechnologyforobtainingplgaanddipropoxybateriopurpurinimidebasednanoparticlesevaluationofphysicochemicalandbiologicalpropertiesoftheobtaineddeliverysystem
AT avpanov developmentofthetechnologyforobtainingplgaanddipropoxybateriopurpurinimidebasednanoparticlesevaluationofphysicochemicalandbiologicalpropertiesoftheobtaineddeliverysystem
AT magrin developmentofthetechnologyforobtainingplgaanddipropoxybateriopurpurinimidebasednanoparticlesevaluationofphysicochemicalandbiologicalpropertiesoftheobtaineddeliverysystem
AT riyakubovskaya developmentofthetechnologyforobtainingplgaanddipropoxybateriopurpurinimidebasednanoparticlesevaluationofphysicochemicalandbiologicalpropertiesoftheobtaineddeliverysystem
_version_ 1721257852913319936

Similar Items