Luiza Garaeva scite author profile

Extracellular vesicles (EVs) are membrane-enclosed vesicles which play important role for cell communication and physiology. EVs are found in many human biological fluids, including blood, breast milk, urine, cerebrospinal fluid (CSF), ejaculate, saliva etc. These nanosized vesicles contain proteins, mRNAs, microRNAs, non-coding RNAs and lipids that are derived from producing cells. EVs deliver complex sets of biological information to recipient cells thereby modulating their behaviors by their molecular cargo. In this way EVs are involved in the pathological development and progression of many human disorders, including neurodegenerative diseases. In this study EVs purified by ultracentrifugation from CSF of patients with Parkinson's disease (PD) and individuals of the comparison group were characterized using nanoparticle tracking analysis, flow cytometry and cryo-electron microscopy. Vesicular size and the presence of exosomal marker CD9 on the surface provided evidence that most of the EVs were exosome-like vesicles. Cryo-electron microscopy allowed us to visualize a large spectrum of extracellular vesicles of various size and morphology with lipid bilayers and vesicular internal structures. Thus, we described the diversity and new characteristics of the vesicles from CSF suggesting that subpopulations of EVs with different and specific functions may exist.

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Delivery of functional exogenous proteins by plant-derived vesicles to human cells in vitro

Garaeva

Kamyshinsky

Kil

et al. 2021

Sci Rep

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Plant-derived extracellular vesicles (EVs) gain more and more attention as promising carriers of exogenous bioactive molecules to the human cells. Derived from various edible sources, these EVs are remarkably biocompatible, biodegradable and highly abundant from plants. In this work, EVs from grapefruit juice were isolated by differential centrifugation followed by characterization of their size, quantity and morphology by nanoparticle tracking analysis, dynamic light scattering, atomic force microscopy and cryo-electron microscopy (Cryo-EM). In Cryo-EM experiments, we visualized grapefruit EVs with the average size of 41 ± 13 nm, confirmed their round-shaped morphology and estimated the thickness of their lipid bilayer as 5.3 ± 0.8 nm. Further, using cell culture models, we have successfully demonstrated that native grapefruit-derived extracellular vesicles (GF-EVs) are highly efficient carriers for the delivery of the exogenous Alexa Fluor 647 labeled bovine serum albumin (BSA) and heat shock protein 70 (HSP70) into both human peripheral blood mononuclear cells and colon cancer cells. Interestingly, loading to plant EVs significantly ameliorated the uptake of exogenous proteins by human cells compared to the same proteins without EVs. Most importantly, we have confirmed the functional activity of human recombinant HSP70 in the colon cancer cell culture upon delivery by GF-EVs. Analysis of the biodistribution of GF-EVs loaded with 125I-labeled BSA in mice demonstrated a significant uptake of the grapefruit-derived extracellular vesicles by the majority of organs. The results of our study indicate that native plant EVs might be safe and effective carriers of exogenous proteins into human cells.

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Oligomeric α-synuclein and glucocerebrosidase activity levels in GBA-associated Parkinson’s disease

Pchelina

Anton

Baydakova³

et al. 2017

Neuroscience Letters

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Proteome of Glioblastoma-Derived Exosomes as a Source of Biomarkers

et al. 2020

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Extracellular vesicles (EV) are involved in important processes of glioblastoma multiforme (GBM), including malignancy and invasion. EV secreted by glioblastoma cells may cross the hematoencephalic barrier and carry molecular cargo derived from the tumor into the peripheral circulation. Therefore, the determination of the molecular composition of exosomes released by glioblastoma cells seems to be a promising approach for the development of non-invasive methods of the detection of the specific exosomal protein markers in the peripheral blood. The present study aimed to determine the common exosomal proteins presented in preparations from different cell lines and search potential glioblastoma biomarkers in exosomes. We have performed proteomics analysis of exosomes obtained from the conditioned culture medium of five glioblastoma cell lines. A list of 133 proteins common for all these samples was generated. Based on the data obtained, virtual two-dimensional electrophoresis (2DE) maps of proteins presented in exosomes of glioblastoma cells were constructed and the gene ontology (GO) analysis of exosome proteins was performed. A correlation between overexpressed in glial cell proteins and their presence in exosomes have been found. Thus, the existence of many potential glioblastoma biomarkers in exosomes was confirmed.

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Hsp70-containing extracellular vesicles are capable of activating of adaptive immunity in models of mouse melanoma and colon carcinoma

Комарова

Суезов

Nikotina

et al. 2021

Sci Rep

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The release of Hsp70 chaperone from tumor cells is found to trigger the full-scale anti-cancer immune response. Such release and the proper immune reaction can be induced by the delivery of recombinant Hsp70 to a tumor and we sought to explore how the endogenous Hsp70 can be transported to extracellular space leading to the burst of anti-cancer activity. Hsp70 transport mechanisms were studied by analyzing its intracellular tracks with Rab proteins as well as by using specific inhibitors of membrane domains. To study Hsp70 forms released from cells we employed the assay consisting of two affinity chromatography methods. Hsp70 content in culture medium and extracellular vesicles (EVs) was measured with the aid of ELISA. The properties and composition of EVs were assessed using nanoparticle tracking analysis and immunoblotting. The activity of immune cells was studied using an assay of cytotoxic lymphocytes, and for in vivo studies we employed methods of affinity separation of lymphocyte fractions. Analyzing B16 melanoma cells treated with recombinant Hsp70 we found that the chaperone triggered extracellular transport of its endogenous analog in soluble and enclosed in EVs forms; both species efficiently penetrated adjacent cells and this secondary transport was corroborated with the strong increase of Natural Killer (NK) cell toxicity towards melanoma. When B16 and CT-26 colon cancer cells before their injection in animals were treated with Hsp70-enriched EVs, a powerful anti-cancer effect was observed as shown by a two-fold reduction in tumor growth rate and elevation of life span. We found that the immunomodulatory effect was due to the enhancement of the CD8-positive response and anti-tumor cytokine accumulation; supporting this there was no delay in CT-26 tumor growth when Hsp70-enriched EVs were grafted in nude mice. Importantly, pre-treatment of B16 cells with Hsp70-bearing EVs resulted in a decline of arginase-1-positive macrophages, showing no generation of tumor-associated macrophages. In conclusion, Hsp70-containing EVs generated by specifically treated cancer cells give a full-scale and effective pattern of anti-tumor immune responses.

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Evaluation of immune and chemical precipitation methods for plasma exosome isolation

et al. 2020

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Exosomes are a type of extracellular vesicles (EVs) secreted by multiple mammalian cell types and involved in intercellular communication. Numerous studies have explored the diagnostic and therapeutic potential of exosomes. The key challenge is the lack of efficient and standard techniques for isolation and downstream analysis of nanovesicles. Conventional isolation methods, such as ultracentrifugation, precipitation, filtration, chromatography, and immune-affinity-based approaches, rely on specific physical properties or on surface biomarkers. However, any of the existing methods has its limitations. Various parameters, such as efficacy, specificity, labor input, cost and scalability, and standardization options, must be considered for the correct choice of appropriate approach. The isolation of exosomes from biological fluids is especially challenged by the complex nature and variability of these liquids. Here, we present a comparison of five protocols for exosome isolation from human plasma: two chemical affinity precipitation methods (lectin-based purification and SubX™ technology), immunoaffinity precipitation, and reference ultracentrifugation-based exosome isolation method in two modifications. An approach for the isolation of exosomes based on the phenomenon of binding and aggregation of these particles via clusters of outer membrane phosphate groups in the presence of SubX™ molecules has been put forward in the present study. The isolated EVs were characterized based upon size, quantity, and protein content.

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SNCA variants and alpha-synuclein level in CD45+ blood cells in Parkinson’s disease

Anton

Kulabukhova

Garaeva

et al. 2018

Journal of the Neurological Sciences

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Radiosensitizing Effect of Boron Enhances the Effectiveness of Proton Therapy in Vitro

Лебедев¹,

Garaeva²,

Burdakov³

et al. 2020

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Proton therapy is used today to treat many cancers and is particularly appropriate in situations where surgery options are limited, and conventional radiotherapy presents unacceptable risks to patients. A few years ago, it was suggested that an increase of up to a factor of two of the doses at the proton Bragg peak could be achieved if boron is accumulated in the tumor tissues. The mechanism responsible for a higher dose was suggested to be related to proton-boron fusion reactions, leading to the production of high Linear Energy Transfer (LET) α-particles. Nowadays there are single works showing the effectiveness of proton beam irradiation boron-11-containing cancer cells. A limited number of the studies devoted to the application of 11B(p,3a) nuclear reaction in proton therapy and lack of consistency in their results do not allow to judge about the prospects of the boron-containing drugs utilization in proton therapy to increase its antitumor efficacy. In this work, we experimentally test the possibility to enhance proton biological effectiveness in boron-11-containing cancer cells in vitro. Human glioblastoma cells were preincubated with boron compound (Na2B4O7, sodium tetraborate) and irradiated with increasing doses 2-8 Gy at the proton Bragg peak. To test whether the physical nuclear reaction 11B(p,3a) results in an enhancement of the cancer cell death by high-energy proton beam irradiation, cell lines were also irradiated with graded doses 2-8 Gy using γ-ray source. The ability of boron compound to activate the cancer cell death with protons at the Bragg peak irradiation was shown in vitro. At the same time, weaker similar effect was determined for gamma-irradiation that may indicate not only the physical nature of influence boron at irradiated cancer cell viability but a specific biological effect. The data suggest that the combined effect of proton therapy with 11 B on glioma cells increases their sensitivity to proton irradiation with low toxicity of the boron compound for cells of normal morphology.

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Luiza Garaeva

Cryo-electron microscopy of extracellular vesicles from cerebrospinal fluid

Delivery of functional exogenous proteins by plant-derived vesicles to human cells in vitro

Oligomeric α-synuclein and glucocerebrosidase activity levels in GBA-associated Parkinson’s disease

Proteome of Glioblastoma-Derived Exosomes as a Source of Biomarkers

Hsp70-containing extracellular vesicles are capable of activating of adaptive immunity in models of mouse melanoma and colon carcinoma

Evaluation of immune and chemical precipitation methods for plasma exosome isolation

SNCA variants and alpha-synuclein level in CD45+ blood cells in Parkinson’s disease

Radiosensitizing Effect of Boron Enhances the Effectiveness of Proton Therapy in Vitro

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