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DNA-Binding Proteins and Passenger Proteins in Plasma DNA–Protein Complexes: Imprint of Parental Cells or Key Mediators of Carcinogenesis Processes? / Tutanov, Oleg; Shefer, Aleksei; Shefer, Evgenii и др.

в: International Journal of Molecular Sciences, Том 25, № 10, 5165, 09.05.2024.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Tutanov, O, Shefer, A, Shefer, E, Ruzankin, P, Tsentalovich, Y & Tamkovich, S 2024, 'DNA-Binding Proteins and Passenger Proteins in Plasma DNA–Protein Complexes: Imprint of Parental Cells or Key Mediators of Carcinogenesis Processes?', International Journal of Molecular Sciences, Том. 25, № 10, 5165. https://doi.org/10.3390/ijms25105165

APA

Tutanov, O., Shefer, A., Shefer, E., Ruzankin, P., Tsentalovich, Y., & Tamkovich, S. (2024). DNA-Binding Proteins and Passenger Proteins in Plasma DNA–Protein Complexes: Imprint of Parental Cells or Key Mediators of Carcinogenesis Processes? International Journal of Molecular Sciences, 25(10), [5165]. https://doi.org/10.3390/ijms25105165

Vancouver

Tutanov O, Shefer A, Shefer E, Ruzankin P, Tsentalovich Y, Tamkovich S. DNA-Binding Proteins and Passenger Proteins in Plasma DNA–Protein Complexes: Imprint of Parental Cells or Key Mediators of Carcinogenesis Processes? International Journal of Molecular Sciences. 2024 май 9;25(10):5165. doi: 10.3390/ijms25105165

Author

Tutanov, Oleg ; Shefer, Aleksei ; Shefer, Evgenii и др. / DNA-Binding Proteins and Passenger Proteins in Plasma DNA–Protein Complexes: Imprint of Parental Cells or Key Mediators of Carcinogenesis Processes?. в: International Journal of Molecular Sciences. 2024 ; Том 25, № 10.

BibTeX

@article{a015a1e58a404322a8d3cc873112d04f,
title = "DNA-Binding Proteins and Passenger Proteins in Plasma DNA–Protein Complexes: Imprint of Parental Cells or Key Mediators of Carcinogenesis Processes?",
abstract = "Knowledge of the composition of proteins that interact with plasma DNA will provide a better understanding of the homeostasis of circulating nucleic acids and the various modes of interaction with target cells, which may be useful in the development of gene targeted therapy approaches. The goal of the present study is to shed light on the composition and architecture of histone-containing nucleoprotein complexes (NPCs) from the blood plasma of healthy females (HFs) and breast cancer patients (BCPs) and to explore the relationship of proteins with crucial steps of tumor progression: epithelial–mesenchymal transition (EMT), cell proliferation, invasion, cell migration, stimulation of angiogenesis, and immune response. MALDI-TOF mass spectrometric analysis of NPCs isolated from blood samples using affine chromatography was performed. Bioinformatics analysis showed that the shares of DNA-binding proteins in the compositions of NPCs in normal and cancer patients are comparable and amount to 40% and 33%, respectively; in total, we identified 38 types of DNA-binding motifs. Functional enrichment analysis using FunRich 3.13 showed that, in BCP blood, the share of DNA-binding proteins involved in nucleic acid metabolism increased, while the proportion of proteins involved in intercellular communication and signal transduction decreased. The representation of NPC passenger proteins in breast cancer also changes: the proportion of proteins involved in transport increases and the share of proteins involved in energy biological pathways decreases. Moreover, in the HF blood, proteins involved in the processes of apoptosis were more represented in the composition of NPCs and in the BCP blood—in the processes of active secretion. For the first time, bioinformatics approaches were used to visualize the architecture of circulating NPCs in the blood and to show that breast cancer has an increased representation of passenger proteins involved in EMT, cell proliferation, invasion, cell migration, and immune response. Using breast cancer protein data from the Human Protein Atlas (HPA) and DEPC, we found that 86% of NPC proteins in the blood of BCPs were not previously annotated in these databases. The obtained data may indirectly indicate directed protein sorting in NPCs, which, along with extracellular vesicles, can not only be diagnostically significant molecules for liquid biopsy, but can also carry out the directed transfer of genetic material from donor cells to recipient cells.",
keywords = "DNA-binding motifs, MALDI-TOF mass spectrometry, bioinformatics analysis, breast cancer, cancer proteins, nucleoprotein complexes, plasma DNA, Breast Neoplasms/blood, DNA/metabolism, Cell Proliferation, Humans, Carcinogenesis/metabolism, Computational Biology/methods, DNA-Binding Proteins/metabolism, Nucleoproteins/metabolism, Epithelial-Mesenchymal Transition, Female, Cell Movement",
author = "Oleg Tutanov and Aleksei Shefer and Evgenii Shefer and Pavel Ruzankin and Yuri Tsentalovich and Svetlana Tamkovich",
note = "S. Tamkovich was supported by the Russian state budget project via the ICBFM SB RAS: 121030200173-6 “Diagnostics and therapy of oncological diseases”. The study of P. Ruzankin and E. Shefer was supported by the Mathematical Center in Akademgorodok under agreement No. 075-15-2022-281 with the Ministry of Science and Higher Education of the Russian Federation. The funders had no role in study design, data acquisition and analysis, decision to publish, nor preparation of the manuscript.",
year = "2024",
month = may,
day = "9",
doi = "10.3390/ijms25105165",
language = "English",
volume = "25",
journal = "International Journal of Molecular Sciences",
issn = "1661-6596",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "10",

}

RIS

TY - JOUR

T1 - DNA-Binding Proteins and Passenger Proteins in Plasma DNA–Protein Complexes: Imprint of Parental Cells or Key Mediators of Carcinogenesis Processes?

AU - Tutanov, Oleg

AU - Shefer, Aleksei

AU - Shefer, Evgenii

AU - Ruzankin, Pavel

AU - Tsentalovich, Yuri

AU - Tamkovich, Svetlana

N1 - S. Tamkovich was supported by the Russian state budget project via the ICBFM SB RAS: 121030200173-6 “Diagnostics and therapy of oncological diseases”. The study of P. Ruzankin and E. Shefer was supported by the Mathematical Center in Akademgorodok under agreement No. 075-15-2022-281 with the Ministry of Science and Higher Education of the Russian Federation. The funders had no role in study design, data acquisition and analysis, decision to publish, nor preparation of the manuscript.

PY - 2024/5/9

Y1 - 2024/5/9

N2 - Knowledge of the composition of proteins that interact with plasma DNA will provide a better understanding of the homeostasis of circulating nucleic acids and the various modes of interaction with target cells, which may be useful in the development of gene targeted therapy approaches. The goal of the present study is to shed light on the composition and architecture of histone-containing nucleoprotein complexes (NPCs) from the blood plasma of healthy females (HFs) and breast cancer patients (BCPs) and to explore the relationship of proteins with crucial steps of tumor progression: epithelial–mesenchymal transition (EMT), cell proliferation, invasion, cell migration, stimulation of angiogenesis, and immune response. MALDI-TOF mass spectrometric analysis of NPCs isolated from blood samples using affine chromatography was performed. Bioinformatics analysis showed that the shares of DNA-binding proteins in the compositions of NPCs in normal and cancer patients are comparable and amount to 40% and 33%, respectively; in total, we identified 38 types of DNA-binding motifs. Functional enrichment analysis using FunRich 3.13 showed that, in BCP blood, the share of DNA-binding proteins involved in nucleic acid metabolism increased, while the proportion of proteins involved in intercellular communication and signal transduction decreased. The representation of NPC passenger proteins in breast cancer also changes: the proportion of proteins involved in transport increases and the share of proteins involved in energy biological pathways decreases. Moreover, in the HF blood, proteins involved in the processes of apoptosis were more represented in the composition of NPCs and in the BCP blood—in the processes of active secretion. For the first time, bioinformatics approaches were used to visualize the architecture of circulating NPCs in the blood and to show that breast cancer has an increased representation of passenger proteins involved in EMT, cell proliferation, invasion, cell migration, and immune response. Using breast cancer protein data from the Human Protein Atlas (HPA) and DEPC, we found that 86% of NPC proteins in the blood of BCPs were not previously annotated in these databases. The obtained data may indirectly indicate directed protein sorting in NPCs, which, along with extracellular vesicles, can not only be diagnostically significant molecules for liquid biopsy, but can also carry out the directed transfer of genetic material from donor cells to recipient cells.

AB - Knowledge of the composition of proteins that interact with plasma DNA will provide a better understanding of the homeostasis of circulating nucleic acids and the various modes of interaction with target cells, which may be useful in the development of gene targeted therapy approaches. The goal of the present study is to shed light on the composition and architecture of histone-containing nucleoprotein complexes (NPCs) from the blood plasma of healthy females (HFs) and breast cancer patients (BCPs) and to explore the relationship of proteins with crucial steps of tumor progression: epithelial–mesenchymal transition (EMT), cell proliferation, invasion, cell migration, stimulation of angiogenesis, and immune response. MALDI-TOF mass spectrometric analysis of NPCs isolated from blood samples using affine chromatography was performed. Bioinformatics analysis showed that the shares of DNA-binding proteins in the compositions of NPCs in normal and cancer patients are comparable and amount to 40% and 33%, respectively; in total, we identified 38 types of DNA-binding motifs. Functional enrichment analysis using FunRich 3.13 showed that, in BCP blood, the share of DNA-binding proteins involved in nucleic acid metabolism increased, while the proportion of proteins involved in intercellular communication and signal transduction decreased. The representation of NPC passenger proteins in breast cancer also changes: the proportion of proteins involved in transport increases and the share of proteins involved in energy biological pathways decreases. Moreover, in the HF blood, proteins involved in the processes of apoptosis were more represented in the composition of NPCs and in the BCP blood—in the processes of active secretion. For the first time, bioinformatics approaches were used to visualize the architecture of circulating NPCs in the blood and to show that breast cancer has an increased representation of passenger proteins involved in EMT, cell proliferation, invasion, cell migration, and immune response. Using breast cancer protein data from the Human Protein Atlas (HPA) and DEPC, we found that 86% of NPC proteins in the blood of BCPs were not previously annotated in these databases. The obtained data may indirectly indicate directed protein sorting in NPCs, which, along with extracellular vesicles, can not only be diagnostically significant molecules for liquid biopsy, but can also carry out the directed transfer of genetic material from donor cells to recipient cells.

KW - DNA-binding motifs

KW - MALDI-TOF mass spectrometry

KW - bioinformatics analysis

KW - breast cancer

KW - cancer proteins

KW - nucleoprotein complexes

KW - plasma DNA

KW - Breast Neoplasms/blood

KW - DNA/metabolism

KW - Cell Proliferation

KW - Humans

KW - Carcinogenesis/metabolism

KW - Computational Biology/methods

KW - DNA-Binding Proteins/metabolism

KW - Nucleoproteins/metabolism

KW - Epithelial-Mesenchymal Transition

KW - Female

KW - Cell Movement

UR - https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85194219903&origin=inward

UR - https://www.mendeley.com/catalogue/bfc0c3fa-9997-3324-9a99-8efe2ad117e4/

U2 - 10.3390/ijms25105165

DO - 10.3390/ijms25105165

M3 - Article

C2 - 38791202

VL - 25

JO - International Journal of Molecular Sciences

JF - International Journal of Molecular Sciences

SN - 1661-6596

IS - 10

M1 - 5165

ER -

ID: 60535389