hRev7, putative subunit of hPolzeta, plays a critical role in survival, induction of mutations, and progression through S-phase, of UV((254nm))-irradiated human fibroblasts

doi:10.1016/j.dnarep.2007.12.013

. 2008 Apr 2;7(4):597-604.

doi: 10.1016/j.dnarep.2007.12.013. Epub 2008 Mar 4.

hRev7, putative subunit of hPolzeta, plays a critical role in survival, induction of mutations, and progression through S-phase, of UV((254nm))-irradiated human fibroblasts

Kristin McNally¹, Jessica A Neal, Terrence P McManus, J Justin McCormick, Veronica M Maher

Affiliations

Affiliation

¹ Carcinogenesis Laboratory, Cell and Molecular Biology Program, Department of Microbiology & Molecular Genetics, and Department of Biochemistry &Molecular Biology, Michigan State University, East Lansing, MI 48824-1302, USA.

PMID: 18295554
PMCID: PMC4275125
DOI: 10.1016/j.dnarep.2007.12.013

hRev7, putative subunit of hPolzeta, plays a critical role in survival, induction of mutations, and progression through S-phase, of UV((254nm))-irradiated human fibroblasts

Kristin McNally et al. DNA Repair (Amst). 2008.

. 2008 Apr 2;7(4):597-604.

doi: 10.1016/j.dnarep.2007.12.013. Epub 2008 Mar 4.

Authors

Kristin McNally¹, Jessica A Neal, Terrence P McManus, J Justin McCormick, Veronica M Maher

Affiliation

¹ Carcinogenesis Laboratory, Cell and Molecular Biology Program, Department of Microbiology & Molecular Genetics, and Department of Biochemistry &Molecular Biology, Michigan State University, East Lansing, MI 48824-1302, USA.

PMID: 18295554
PMCID: PMC4275125
DOI: 10.1016/j.dnarep.2007.12.013

Abstract

Translesion synthesis (TLS) refers to mechanisms by which specialized DNA polymerases incorporate nucleotides opposite fork-blocking lesions and extend replication until standard replicative polymerases take over. The first eukaryotic TLS polymerase discovered, S. cerevisiae Polzeta, consists of catalytic subunit Rev3 and non-catalytic subunit Rev7. Human homologs of these two proteins have been identified. Studies by Lawrence, Maher, and colleagues comparing UV((254nm))-irradiated human fibroblast cell strains expressing high levels of hRev3 antisense to their normal parental strains demonstrated that there was no difference in cell survival, but that the frequency of UV-induced mutations in the derivative strains was 10-fold lower than that of the parental strains, indicating that hRev3 plays a critical role in such mutagenesis. To examine the role of hRev7 in TLS, we generated human fibroblasts expressing hRev7 siRNA, identified two derivative cell strains with significantly reduced levels of hRev7, and compared them to their parental strain and a vector control for cell survival, induction of mutations, and ability to traverse the cell cycle following exposure to UV radiation. Cells with reduced hRev7 were approximately 2-times more sensitive to UV-induced cytotoxicity than the controls, indicating that unlike hRev3, hRev7 plays a protective role for cells exposed to UV radiation. When these cell strains were assayed for the frequency of mutations induced by UV in their HPRT gene, cell stains with reduced hRev7 were 5-times less sensitive to UV-induced mutagenesis than control strains. In addition, when these four strains were synchronized at the G1/S border, released from the block, UV-irradiated, and allowed to traverse the cell cycle, the rate of progression through S-phase of the cell strains with reduced hRev7 was significantly slower than that of the control strains. These data strongly support the hypothesis that hRev7 is required for TLS past UV-photoproducts, and together with hRev3, comprise hPolzeta.

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Figures

**Fig. 1**
Western blot analysis of hRev7 protein levels in the cell strains. A polyclonal antibody against hRev7 was used to analyze the level of hRev7 protein in nuclear lysates extracted from the parental (P) cells, the vector control (VC) cells, and two derivative clones expressing a transfected siRNA targeted against *hRev7*, viz., clones 2-2 and 2-6. The arrowhead on the right indicates the location of a 22 kDa marker. Ku80 was used as the loading control.

**Fig. 2**
Effect of reduced expression of hRev7 on the survival of cell strains exposed to UV_(245nm) radiation and on the frequency of UV-induced mutations. (A) Clones 2-2 and 2-6 (closed symbols), which have greatly reduced levels of expression of hRev7 protein, along with their parental strain and a vector control strain (open symbols) were UV-irradiated and assayed for cell survival as determined by colony forming ability. Some data points have been offset slightly to make them visible. The lines represent least squares lines. (B) The frequency of UV-induced mutations in the *HPRT* gene of these four cell strains was determined by resistance to 6-thioguanine. The frequency of 6-thioguanine-resistant cells was calculated using the cloning efficiency of cells at the time of selection, which averaged ~44% for the parent and the vector control cells, and ~25% for clones 2-2 and 2-6. Induced frequencies were calculated by subtracting the background frequencies observed in sham-irradiated populations. For the vector and parental control cells, these values were always <11 x 10⁻⁶. For clone 2-2, they ranged from 0 to 18 x 10⁻⁶, with the majority being 0 to 4 x 10⁻⁶. For clone 2-6, they ranged from 8 to 25 x 10⁻⁶, with the majority being 8 to 11 x 10⁻⁶. Some data points have been offset slightly to make them visible. The lines represent least squares lines.

**Fig. 3**
Flow cytometry analysis of UV-irradiated cells. (A) Cell strains with reduced levels of hRev7 [2-2 and 2-6], their parental strain [P], and a vector control transfectant [VC] were synchronized at the G1/S border as described, and UV-irradiated immediately after release from synchrony. The cell strains were assayed by flow cytometry for DNA content at 0 h, 10 h, and 16 h post-irradiation. (B) These four cell strains were UV-irradiated while growing asynchronously and were assayed by flow cytometry for DNA content at 0 h and 10 h post-irradiation. (C) As a control, clones 2-2, 2-6, and their parental strain were synchronized at the G1/S border, as above, released from synchrony, but not exposed to UV, and analyzed by flow cytometry at 0 h, 4 h, and 6 h after release from the G1/S block.

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References

1. Zhou BB, Elledge SJ. The DNA damage response: putting checkpoints in perspective. Nature. 2000;408:433–439. - PubMed
1. Yang W. Adv Protein Chem. 2004;69:1–384. - PubMed
1. Holmquist GP, Maher VM. Mutat Res. 2002;510 - PubMed
1. Lawrence CW. Cellular functions of DNA polymerase zeta and Rev1 protein. Adv Protein Chem. 2004;69:167–203. - PubMed
1. Ohmori H, Ohashi E, Ogi T. Mammalian Pol kappa: regulation of its expression and lesion substrates. Adv Protein Chem. 2004;69:265–278. - PubMed

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[1] Zhou BB, Elledge SJ. The DNA damage response: putting checkpoints in perspective. Nature. 2000;408:433–439. - PubMed

[2] Zhou BB, Elledge SJ. The DNA damage response: putting checkpoints in perspective. Nature. 2000;408:433–439. - PubMed

[3] Yang W. Adv Protein Chem. 2004;69:1–384. - PubMed

[4] Yang W. Adv Protein Chem. 2004;69:1–384. - PubMed

[5] Holmquist GP, Maher VM. Mutat Res. 2002;510 - PubMed

[6] Holmquist GP, Maher VM. Mutat Res. 2002;510 - PubMed

[7] Lawrence CW. Cellular functions of DNA polymerase zeta and Rev1 protein. Adv Protein Chem. 2004;69:167–203. - PubMed

[8] Lawrence CW. Cellular functions of DNA polymerase zeta and Rev1 protein. Adv Protein Chem. 2004;69:167–203. - PubMed

[9] Ohmori H, Ohashi E, Ogi T. Mammalian Pol kappa: regulation of its expression and lesion substrates. Adv Protein Chem. 2004;69:265–278. - PubMed

[10] Ohmori H, Ohashi E, Ogi T. Mammalian Pol kappa: regulation of its expression and lesion substrates. Adv Protein Chem. 2004;69:265–278. - PubMed

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hRev7, putative subunit of hPolzeta, plays a critical role in survival, induction of mutations, and progression through S-phase, of UV((254nm))-irradiated human fibroblasts

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hRev7, putative subunit of hPolzeta, plays a critical role in survival, induction of mutations, and progression through S-phase, of UV((254nm))-irradiated human fibroblasts

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