Manganese superoxide dismutase-mediated gene expression in radiation-induced adaptive responses

Guozheng Guo; Yan Yan-Sanders; Beverly D. Lyn-Cook; Tieli Wang; Daniel Tamae; Julie Ogi; Alexander Khaletskiy; Zhongkui Li; Christine Weydert; Jeffrey A. Longmate; Ting Ting Huang; Douglas R. Spitz; Larry W. Oberley; Jian-Jian Li

doi:10.1128/MCB.23.7.2362-2378.2003

Manganese superoxide dismutase-mediated gene expression in radiation-induced adaptive responses

Guozheng Guo, Yan Yan-Sanders, Beverly D. Lyn-Cook, Tieli Wang, Daniel Tamae, Julie Ogi, Alexander Khaletskiy, Zhongkui Li, Christine Weydert, Jeffrey A. Longmate, Ting Ting Huang, Douglas R. Spitz, Larry W. Oberley, Jian-Jian Li

Research output: Contribution to journal › Article

226 Scopus citations

Abstract

Antioxidant enzymes are critical in oxidative stress responses. Radioresistant variants isolated from MCF-7 human carcinoma cells following fractionated ionizing radiation (MCF+FIR cells) or overexpression of manganese superoxide dismutase (MCF+SOD cells) demonstrated dose-modifying factors at 10% isosurvival of 1.8 and 2.3, respectively. MCF+FIR and MCF-7 cells (exposed to single-dose radiation) demonstrated 5- to 10-fold increases in MnSOD activity, mRNA, and immunoreactive protein. Radioresistance in MCF+FIR and MCF+SOD cells was reduced following expression of antisense MnSOD. DNA microarray analysis and immunoblotting identified p21, Myc, 14-3-3 zeta, cyclin A, cyclin BI, and GADD153 as genes constitutively overexpressed (2- to 10-fold) in both MCF+FIR and MCF+SOD cells. Radiation-induced expression of these six genes was suppressed in fibroblasts from Sod2 knockout mice (-/-) as well as in MCF+FIR and MCF+SOD cells expressing antisense MnSOD. Inhibiting NF-κB transcriptional activity in MCF+FIR cells, by using mutant IκBα, inhibited radioresistance as well as reducing steady-state levels of MnSOD, 14-3-3 zeta, GADD153, cyclin A, and cyclin B1 tmRNA. In contrast, mutant IκBα was unable to inhibit radioresistance or reduce 14-3-3 zeta, GADD153, cyclin A, and cyclin B1 mRNAs in MCF+SOD cells, where MnSOD overexpression was independent of NF-κB. These results support the hypothesis that NF-κB is capable of regulating the expression of MnSOD, which in turn is capable of increasing the expression of genes that participate in radiation-induced adaptive responses.

Original language	English (US)
Pages (from-to)	2362-2378
Number of pages	17
Journal	Molecular and Cellular Biology
Volume	23
Issue number	7
DOIs	https://doi.org/10.1128/MCB.23.7.2362-2378.2003
State	Published - Apr 2003
Externally published	Yes

ASJC Scopus subject areas

Molecular Biology
Genetics
Cell Biology

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Guo, G., Yan-Sanders, Y., Lyn-Cook, B. D., Wang, T., Tamae, D., Ogi, J., Khaletskiy, A., Li, Z., Weydert, C., Longmate, J. A., Huang, T. T., Spitz, D. R., Oberley, L. W., & Li, J-J. (2003). Manganese superoxide dismutase-mediated gene expression in radiation-induced adaptive responses. Molecular and Cellular Biology, 23(7), 2362-2378. https://doi.org/10.1128/MCB.23.7.2362-2378.2003

Manganese superoxide dismutase-mediated gene expression in radiation-induced adaptive responses. / Guo, Guozheng; Yan-Sanders, Yan; Lyn-Cook, Beverly D.; Wang, Tieli; Tamae, Daniel; Ogi, Julie; Khaletskiy, Alexander; Li, Zhongkui; Weydert, Christine; Longmate, Jeffrey A.; Huang, Ting Ting; Spitz, Douglas R.; Oberley, Larry W.; Li, Jian-Jian.

In: Molecular and Cellular Biology, Vol. 23, No. 7, 04.2003, p. 2362-2378.

Research output: Contribution to journal › Article

Guo, G, Yan-Sanders, Y, Lyn-Cook, BD, Wang, T, Tamae, D, Ogi, J, Khaletskiy, A, Li, Z, Weydert, C, Longmate, JA, Huang, TT, Spitz, DR, Oberley, LW & Li, J-J 2003, 'Manganese superoxide dismutase-mediated gene expression in radiation-induced adaptive responses', Molecular and Cellular Biology, vol. 23, no. 7, pp. 2362-2378. https://doi.org/10.1128/MCB.23.7.2362-2378.2003

Guo, Guozheng ; Yan-Sanders, Yan ; Lyn-Cook, Beverly D. ; Wang, Tieli ; Tamae, Daniel ; Ogi, Julie ; Khaletskiy, Alexander ; Li, Zhongkui ; Weydert, Christine ; Longmate, Jeffrey A. ; Huang, Ting Ting ; Spitz, Douglas R. ; Oberley, Larry W. ; Li, Jian-Jian. / Manganese superoxide dismutase-mediated gene expression in radiation-induced adaptive responses. In: Molecular and Cellular Biology. 2003 ; Vol. 23, No. 7. pp. 2362-2378.

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title = "Manganese superoxide dismutase-mediated gene expression in radiation-induced adaptive responses",

abstract = "Antioxidant enzymes are critical in oxidative stress responses. Radioresistant variants isolated from MCF-7 human carcinoma cells following fractionated ionizing radiation (MCF+FIR cells) or overexpression of manganese superoxide dismutase (MCF+SOD cells) demonstrated dose-modifying factors at 10% isosurvival of 1.8 and 2.3, respectively. MCF+FIR and MCF-7 cells (exposed to single-dose radiation) demonstrated 5- to 10-fold increases in MnSOD activity, mRNA, and immunoreactive protein. Radioresistance in MCF+FIR and MCF+SOD cells was reduced following expression of antisense MnSOD. DNA microarray analysis and immunoblotting identified p21, Myc, 14-3-3 zeta, cyclin A, cyclin BI, and GADD153 as genes constitutively overexpressed (2- to 10-fold) in both MCF+FIR and MCF+SOD cells. Radiation-induced expression of these six genes was suppressed in fibroblasts from Sod2 knockout mice (-/-) as well as in MCF+FIR and MCF+SOD cells expressing antisense MnSOD. Inhibiting NF-κB transcriptional activity in MCF+FIR cells, by using mutant IκBα, inhibited radioresistance as well as reducing steady-state levels of MnSOD, 14-3-3 zeta, GADD153, cyclin A, and cyclin B1 tmRNA. In contrast, mutant IκBα was unable to inhibit radioresistance or reduce 14-3-3 zeta, GADD153, cyclin A, and cyclin B1 mRNAs in MCF+SOD cells, where MnSOD overexpression was independent of NF-κB. These results support the hypothesis that NF-κB is capable of regulating the expression of MnSOD, which in turn is capable of increasing the expression of genes that participate in radiation-induced adaptive responses.",

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AU - Li, Zhongkui

AU - Weydert, Christine

AU - Longmate, Jeffrey A.

AU - Huang, Ting Ting

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