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@INPROCEEDINGS{Unverricht:841303,
author = {Unverricht, Marcus and Boldt, Sonja and Giesen, Ulrich and
Pomplun, Ekkehard and Wolkenhauer, Olaf and Kriehuber, Ralf},
title = {{WHOLE} {GENOME} {EXPRESSION} {ANALYSIS} {IN} {HUMAN}
{JURKAT} {CELLS} {AFTER} {EXPOSURE} {TO}
{I}-123-{IODODEOXYURIDINE}, γ-{RAYS} {AND} α-{PARTICLES}},
reportid = {FZJ-2017-08393},
year = {2011},
abstract = {Introduction: In order to develop a gene expression
profile-based method for biodosimetry purposes we used the
human p53-deficient T-lymphoma Jurkat cell line to study
whether gene signatures exist allowing the discrimination of
radiation quality as well.Methods: Equi-effect doses, i.e.
radiation doses and exposure conditions causing the same
biological effect level, were determined with regard to
micronucleus formation, γ-H2AX foci intensity and apoptosis
induction for the radiation qualities of γ-rays (Cs-137)
and α-particles (Am-241) as well as for the Auger electron
emitter I-123. Prior to the DNA-microarray based gene
expression experiments, Jurkat cells were either irradiated
with 0.8 and 5 Gy γ-rays, respectively with 0.1 and 0.5 Gy
α-particles or were exposed to 4 - 200 kBq
I-123-iododeoxyuridine (I-123-UdR) per 10E6 cells. I-123-UdR
was incorporated into the DNA of synchronized cells for 20
h. After quantification of the cellular uptake the
accumulated decays were calculated and the absorbed
radiation dose was assessed after 3-D geometry analysis of
the cells. RNA-isolation was performed always 6 h
post-exposure. Whole human genome DNA-microarrays (Agilent)
were processed and expression profiles were analyzed. Genes
showing significant expression changes after irradiation
were identified by one-way ANOVA and Tukey-HSD post-hoc
testing. The biological functions of significantly regulated
genes were further investigated.Results: Preliminary results
of the gene expression analysis after exposure to the three
investigated radiation qualities indicate that the
expression of more and different genes is significantly
altered after exposure to I-123-UdR when compared to γ- and
α-irradiation. The functional analysis of significantly
changed genes reveals that apoptosis relevant genes are
enriched after exposure to I-123-UdR in comparison to γ-
and α-irradiation. Conclusions: I-123-UdR induces
pronounced alterations in gene expression when compared to
γ-rays and α-particles. Changes in the gene expression of
p53-dependent apoptosis-related genes were observed after
I-123-UdR exposure suggesting p53-independent back-up
pathways for apoptosis signalling in Jurkat cells.Funded by
Kompetenzverbund Strahlenforschung (KVSF), Bundesministerium
für Bildung und Forschung (BMBF), Project No.: 02NUK005A
and 02NUK005D},
month = {Sep},
date = {2011-09-13},
organization = {14. Jahrestagung der Gesellschaft für
biologische Strahlenforschung,
Rheinbach (Germany), 13 Sep 2011 - 16
Sep 2011},
subtyp = {After Call},
cin = {S-US},
cid = {I:(DE-Juel1)S-US-20090406},
pnm = {899 - ohne Topic (POF3-899)},
pid = {G:(DE-HGF)POF3-899},
typ = {PUB:(DE-HGF)24},
url = {https://juser.fz-juelich.de/record/841303},
}
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