TY - JOUR
T1 - Metaphase Cells Enrichment for Efficient Use in the Dicentric Chromosome Assay
AU - Platkov, Max
AU - Hadad, Uzi
AU - Burg, Ariela
AU - Levitsky, Inna
AU - Zagatzki, Michael
AU - Damri, Omer
AU - Weiss, Aryeh
AU - Lauber, Yair
AU - Amar, Shirly
AU - Carmel, Lior
AU - Gonen, Raphael
N1 - Funding Information:
We thank the Israeli Defense Forces (IDF) for granting this research No. 4441061216. We also thank Eden Maharabani for her useful technical assistance, the Genetics Institute of the Soroka Academic Hospital, the Ilse Katz Institute for Nanoscale Science and Technology of Ben-Gurion University of the Negev, and the Sami Shamoon Academic College of Engineering and to the Nuclear Research Center Negev for their cooperation.
Publisher Copyright:
© 2022, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
PY - 2022/12/1
Y1 - 2022/12/1
N2 - The dicentric chromosome assay (DCA), is considered the ‘gold standard’ for radiation biodosimetry. Yet, DCA, as currently implemented, may be impractical for emergency response applications, especially when time is of the essence, owing to its labor-intensive and time-consuming nature. The growth of a primary lymphocyte culture for 48 h in vitro is required for DCA, and manual scoring of dicentric chromosomes (DCs) requires an additional 24–48 h, resulting in an overall processing time of 72–96 h for dose estimation. In order to improve this timing. we introduce a protocol that will detect the metaphase cells in a population of cells, and then will harvest only those metaphase cells. Our metaphase enrichment approach is based on fixed human lymphocytes incubated with monoclonal, anti-phosphorylated H3 histone (ser 10). Antibodies against this histone have been shown to be specific for mitotic cells. Colcemid is used to arrest the mitotic cells in metaphase. Following that, a flow-cytometric sorting apparatus isolates the mitotic fraction from a large population of cells, in a few minutes. These mitotic cells are then spread onto a slide and treated with our C-Banding procedure [Gonen et al. 2022], to visualize the centromeres with DAPI. This reduces the chemical processing time to ~2 h. This reduces the time required for the DCA and makes it practical for a much wider set of applications, such as emergency response following exposure of a large population to ionizing radiation.
AB - The dicentric chromosome assay (DCA), is considered the ‘gold standard’ for radiation biodosimetry. Yet, DCA, as currently implemented, may be impractical for emergency response applications, especially when time is of the essence, owing to its labor-intensive and time-consuming nature. The growth of a primary lymphocyte culture for 48 h in vitro is required for DCA, and manual scoring of dicentric chromosomes (DCs) requires an additional 24–48 h, resulting in an overall processing time of 72–96 h for dose estimation. In order to improve this timing. we introduce a protocol that will detect the metaphase cells in a population of cells, and then will harvest only those metaphase cells. Our metaphase enrichment approach is based on fixed human lymphocytes incubated with monoclonal, anti-phosphorylated H3 histone (ser 10). Antibodies against this histone have been shown to be specific for mitotic cells. Colcemid is used to arrest the mitotic cells in metaphase. Following that, a flow-cytometric sorting apparatus isolates the mitotic fraction from a large population of cells, in a few minutes. These mitotic cells are then spread onto a slide and treated with our C-Banding procedure [Gonen et al. 2022], to visualize the centromeres with DAPI. This reduces the chemical processing time to ~2 h. This reduces the time required for the DCA and makes it practical for a much wider set of applications, such as emergency response following exposure of a large population to ionizing radiation.
KW - DAPI
KW - Dicentrics
KW - Flow cytometry
KW - Metaphase enrichment
UR - http://www.scopus.com/inward/record.url?scp=85139656860&partnerID=8YFLogxK
U2 - 10.1007/s12013-022-01106-z
DO - 10.1007/s12013-022-01106-z
M3 - Article
C2 - 36216973
AN - SCOPUS:85139656860
SN - 1085-9195
VL - 80
SP - 647
EP - 656
JO - Cell Biochemistry and Biophysics
JF - Cell Biochemistry and Biophysics
IS - 4
ER -