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Application of the NeuN Neuronal Marker to Study the Development of the Human Fetal Cortex. / Федосеева, Ксения Николаевна; Романович, Анна Эдуардовна; Егиян, Игорь Викторович.

In: Cell and Tissue Biology, Vol. 19, No. Suppl 1, 19.08.2025, p. S179-S185.

Research output: Contribution to journalArticlepeer-review

Harvard

Федосеева, КН, Романович, АЭ & Егиян, ИВ 2025, 'Application of the NeuN Neuronal Marker to Study the Development of the Human Fetal Cortex', Cell and Tissue Biology, vol. 19, no. Suppl 1, pp. S179-S185. https://doi.org/10.1134/s1990519x25600255

APA

Федосеева, К. Н., Романович, А. Э., & Егиян, И. В. (2025). Application of the NeuN Neuronal Marker to Study the Development of the Human Fetal Cortex. Cell and Tissue Biology, 19(Suppl 1), S179-S185. https://doi.org/10.1134/s1990519x25600255

Vancouver

Федосеева КН, Романович АЭ, Егиян ИВ. Application of the NeuN Neuronal Marker to Study the Development of the Human Fetal Cortex. Cell and Tissue Biology. 2025 Aug 19;19(Suppl 1):S179-S185. https://doi.org/10.1134/s1990519x25600255

Author

Федосеева, Ксения Николаевна ; Романович, Анна Эдуардовна ; Егиян, Игорь Викторович. / Application of the NeuN Neuronal Marker to Study the Development of the Human Fetal Cortex. In: Cell and Tissue Biology. 2025 ; Vol. 19, No. Suppl 1. pp. S179-S185.

BibTeX

@article{7f780e361ed249258e4477a676074548,
title = "Application of the NeuN Neuronal Marker to Study the Development of the Human Fetal Cortex",
abstract = "Abstract—Objective: This study presents a method for separating NeuN-stained neurons and glial cells in the human fetal cerebral cortex using flow cytometry. NeuN neuronal nuclear antigen is widely used as a universal neuron-specific marker. Antibodies against this protein allows to specifically identify neurons, since this protein is not found in glial cells. The application of this marker allows precise determination of the cellular composition in different brain regions. Methods: This study uses protocols NeuN-based immunohistochemical neuronal quantification for flow cytometry to distinguish neurons and glial cells in different regions of human fetal cerebral cortex. Results: Immunohistochemical staining was optimized to establish a validated antibody concentration for subsequent flow cytometry. Then two parahippocampal cortical sample suspensions stained with DAPI and NeuN were analyzed. We acquired three subpopulations: DAPI–/AF488+, DAPI–/AF488–, and DAPI+/AF488– with variable intensities. Fluorescence microscopy validation detected nuclei matching all cytometry subpopulations. Conclusion: Flow cytometric approach offers single-nucleus resolution for detecting rare populations. Along withimmunohistochemical staining, flow cytometry enhances quantitative and qualitative analysis of neural populations and allows to calculate glia-neuron index which is a critical metric for understanding brain organization, development, and plasticity.",
keywords = "immunohistochemistry, flow cytometry, neocortex, prenatal development, human, NeuN, glia-neuron index, NeuN, flow cytometry, glia-neuron index, human, immunohistochemistry, neocortex, prenatal development",
author = "Федосеева, {Ксения Николаевна} and Романович, {Анна Эдуардовна} and Егиян, {Игорь Викторович}",
note = "Fedoseeva K. N., Romanovich A. E., Egiian I. V. Application of the Neun Neuronal Marker to Study the Development of the Human Fetal Cortex// Cell and Tissue Biology. 2025, vol.19, No. 1 suppl.",
year = "2025",
month = aug,
day = "19",
doi = "10.1134/s1990519x25600255",
language = "English",
volume = "19",
pages = "S179--S185",
journal = "Cell and Tissue Biology",
issn = "1990-519X",
publisher = "МАИК {"}Наука/Интерпериодика{"}",
number = "Suppl 1",

}

RIS

TY - JOUR

T1 - Application of the NeuN Neuronal Marker to Study the Development of the Human Fetal Cortex

AU - Федосеева, Ксения Николаевна

AU - Романович, Анна Эдуардовна

AU - Егиян, Игорь Викторович

N1 - Fedoseeva K. N., Romanovich A. E., Egiian I. V. Application of the Neun Neuronal Marker to Study the Development of the Human Fetal Cortex// Cell and Tissue Biology. 2025, vol.19, No. 1 suppl.

PY - 2025/8/19

Y1 - 2025/8/19

N2 - Abstract—Objective: This study presents a method for separating NeuN-stained neurons and glial cells in the human fetal cerebral cortex using flow cytometry. NeuN neuronal nuclear antigen is widely used as a universal neuron-specific marker. Antibodies against this protein allows to specifically identify neurons, since this protein is not found in glial cells. The application of this marker allows precise determination of the cellular composition in different brain regions. Methods: This study uses protocols NeuN-based immunohistochemical neuronal quantification for flow cytometry to distinguish neurons and glial cells in different regions of human fetal cerebral cortex. Results: Immunohistochemical staining was optimized to establish a validated antibody concentration for subsequent flow cytometry. Then two parahippocampal cortical sample suspensions stained with DAPI and NeuN were analyzed. We acquired three subpopulations: DAPI–/AF488+, DAPI–/AF488–, and DAPI+/AF488– with variable intensities. Fluorescence microscopy validation detected nuclei matching all cytometry subpopulations. Conclusion: Flow cytometric approach offers single-nucleus resolution for detecting rare populations. Along withimmunohistochemical staining, flow cytometry enhances quantitative and qualitative analysis of neural populations and allows to calculate glia-neuron index which is a critical metric for understanding brain organization, development, and plasticity.

AB - Abstract—Objective: This study presents a method for separating NeuN-stained neurons and glial cells in the human fetal cerebral cortex using flow cytometry. NeuN neuronal nuclear antigen is widely used as a universal neuron-specific marker. Antibodies against this protein allows to specifically identify neurons, since this protein is not found in glial cells. The application of this marker allows precise determination of the cellular composition in different brain regions. Methods: This study uses protocols NeuN-based immunohistochemical neuronal quantification for flow cytometry to distinguish neurons and glial cells in different regions of human fetal cerebral cortex. Results: Immunohistochemical staining was optimized to establish a validated antibody concentration for subsequent flow cytometry. Then two parahippocampal cortical sample suspensions stained with DAPI and NeuN were analyzed. We acquired three subpopulations: DAPI–/AF488+, DAPI–/AF488–, and DAPI+/AF488– with variable intensities. Fluorescence microscopy validation detected nuclei matching all cytometry subpopulations. Conclusion: Flow cytometric approach offers single-nucleus resolution for detecting rare populations. Along withimmunohistochemical staining, flow cytometry enhances quantitative and qualitative analysis of neural populations and allows to calculate glia-neuron index which is a critical metric for understanding brain organization, development, and plasticity.

KW - immunohistochemistry

KW - flow cytometry

KW - neocortex

KW - prenatal development

KW - human

KW - NeuN

KW - glia-neuron index

KW - NeuN

KW - flow cytometry

KW - glia-neuron index

KW - human

KW - immunohistochemistry

KW - neocortex

KW - prenatal development

UR - https://www.mendeley.com/catalogue/cb9279ef-298d-3b3c-8320-4bc96a5a64de/

U2 - 10.1134/s1990519x25600255

DO - 10.1134/s1990519x25600255

M3 - Article

VL - 19

SP - S179-S185

JO - Cell and Tissue Biology

JF - Cell and Tissue Biology

SN - 1990-519X

IS - Suppl 1

ER -

ID: 140319545