この実験研究は、GSMおよびUMTSの携帯電話からのマイクロ波(MW)が幹細胞中のDNA二重鎖切断(DSB)またはDSBの修復に与える影響を、DSBが発生した位置に形成される53BP1 foci(DNA修復foci)の検出により調べた。ヒト初代線維芽細胞と間葉系幹細胞(MSC)に対し、ばく露(GSM905MHz、同915MHz、UMTS1947.4MHz)および擬似ばく露を1、2、3時間与えた。その結果、GSM915MHzとUMTS1947.4MHzはどちらの細胞にも影響した一方、GSM905MHzは分化細胞であるヒト初代線維芽細胞の53BP1 foci形成を阻害せず、幹細胞にはいくらか影響したと報告している。
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To study whether microwaves from GSM or UMTS mobile telephones induce double-strand breaks or affect double-strand break DNA repair in stem cells or fibroblasts.
Heat treatment (41°C) was used as positive control for stress response. Gamma radiation (3 Gy) was used as positive control for genotoxic effects.
The measurement parameter of 53BP1 foci inhibition was used to study double-strand breaks. The authors suggest that inhibition of 53BP1 foci formation might be caused by a decrease in accessibility of double-strand breaks to proteins because of stress-induced chromatin condensation or by inhibition of phosphorylation of the 53BP1 protein that is necessary to activate the protein for DNA repair.
| ばく露 | パラメータ |
|---|---|
|
ばく露1:
915 MHz
ばく露時間:
continuous for 1 h, 2 h or 3 h
GSM 1
|
|
|
ばく露2:
905 MHz
ばく露時間:
continuous for 1 h, 2 h or 3 h
GSM 2
|
|
|
ばく露3:
1,947.4 MHz
ばく露時間:
continuous for 1 h, 2 h or 3 h
|
|
|
ばく露4:
915 MHz
ばく露時間:
continuous for 1 h/day, 5 days/week, for 2 weeks
GSM 1
|
|
|
ばく露5:
905 MHz
ばく露時間:
continuous for 1 h/day, 5 days/week, for 2 weeks
GSM 2
|
|
|
ばく露6:
1,947.4 MHz
ばく露時間:
continuous for 1 h/day, 5 days/week, for 2 weeks
|
| ばく露の発生源/構造 |
|
|---|---|
| Distance between exposed object and exposure source | 1 m |
| Sham exposure | A sham exposure was conducted. |
| ばく露の発生源/構造 |
|
|---|---|
| Distance between exposed object and exposure source | 1 m |
| Sham exposure | A sham exposure was conducted. |
| ばく露の発生源/構造 |
|
|---|---|
| Distance between exposed object and exposure source | 1 m |
| Sham exposure | A sham exposure was conducted. |
| 周波数 | 915 MHz |
|---|---|
| タイプ |
|
| ばく露時間 | continuous for 1 h/day, 5 days/week, for 2 weeks |
| Additional information | GSM 1 |
| ばく露の発生源/構造 |
|
|---|---|
| Distance between exposed object and exposure source | 1 m |
| Sham exposure | A sham exposure was conducted. |
| 周波数 | 905 MHz |
|---|---|
| タイプ |
|
| ばく露時間 | continuous for 1 h/day, 5 days/week, for 2 weeks |
| Additional information | GSM 2 |
| ばく露の発生源/構造 |
|
|---|---|
| Distance between exposed object and exposure source | 1 m |
| Sham exposure | A sham exposure was conducted. |
| 周波数 | 1,947.4 MHz |
|---|---|
| タイプ |
|
| ばく露時間 | continuous for 1 h/day, 5 days/week, for 2 weeks |
| Additional information | UMTS |
| ばく露の発生源/構造 |
|
|---|---|
| Distance between exposed object and exposure source | 1 m |
| Sham exposure | A sham exposure was conducted. |
The data showed that microwave exposure inhibited the formation of 53BP1 foci in human primary fibroblasts and mesenchymal stem cells. The GSM carrier frequency (915 MHz) and UMTS frequency band (1947.4 MHz) were effective for both cell types. Exposure at 905 MHz did not inhibit 53BP1 foci formation in differentiated cells, either fibroblasts or lymphocytes (as found in a previous study, see Belyaev et al. 2009), whereas some effects were seen in stem cells at 905 MHz (statistically not significant trend to foci inhibition). Contrary to fibroblasts, stem cells did not adapt to chronic exposure during two weeks (i.e. foci inhibition was still present).
In conclusion, the data indicate that stem cells are more sensitive to microwave exposure than differentiated human primary fibroblasts (or lymphocytes as shown in the previous study). The fact that stem cells are more sensitive to microwave exposure and react to more frequencies than do differentiated cells may be important for cancer risk assessment and indicate that stem cells are the most relevant cellular model for validating safe mobile communication signals.
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