Human Genetics

, Volume 120, Issue 4, pp 553–560 | Cite as

Potential effect on cellular response to cadmium of a single-nucleotide A → G polymorphism in the promoter of the human gene for metallothionein IIA

  • Kayoko Kita
  • Nobuhiko Miura
  • Minoru Yoshida
  • Kentaro Yamazaki
  • Takayoshi Ohkubo
  • Yutaka Imai
  • Akira Naganuma
Original Investigation
First Online:
Received:
Accepted:

Abstract

Most people generally ingest cadmium in their food. Cadmium that has accumulated in tissues induces the synthesis of metallothioneins (MTs) which are metal-binding proteins that bind tightly to cadmium to inhibit its renal toxicity. Individuals whose ability to induce the synthesis of MTs is low seem likely to be particularly susceptible to the toxic effects of cadmium. In this study, we analyzed the polymorphism of the promoter region of the gene for MT-IIA, the major species of MT in humans, in 119 adult Japanese subjects. We found that about 18% of the subjects had an A → G single-nucleotide polymorphism in the core region of the promoter near the TATA box. A reporter-gene assay using HEK293 cells showed that replacement of A by G at position −5 reduced the efficiency of the cadmium-induced transcription of the gene for MT-IIA. This single-nucleotide polymorphism inhibited the binding of nuclear proteins to the core promoter region of the gene for MT-IIA. When the promoter region upstream of the TATA box was replaced by a sequence that contained three dioxin-responsive elements, the reporter-gene assay demonstrated that the A → G single-nucleotide polymorphism resulted in a marked reduction in the rate of dioxin-induced transcription. These results suggest that the A → G single-nucleotide polymorphism reduces the efficiency of those aspects of the transcription of the gene for MT-IIA that are controlled by general transcription factors.

Keywords

HEK293 Cell Nuclear Extract Electrophoretic Mobility Shift Assay Core Promoter Region Renal Tubular Dysfunction 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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Notes

Acknowledgments

This work was supported by a Grant-in-Aid for Scientific Research (B) from the Japan Society for the Promotion of Science and by Health and Labour Sciences Research Grants for Research on the Risk of Chemical Substances from the Ministry of Health, Labour and Welfare, Japan.

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Copyright information

© Springer-Verlag 2006

Authors and Affiliations

  • Kayoko Kita
    • 1
    • 2
  • Nobuhiko Miura
    • 1
    • 3
  • Minoru Yoshida
    • 4
  • Kentaro Yamazaki
    • 5
  • Takayoshi Ohkubo
    • 6
    • 8
  • Yutaka Imai
    • 7
    • 8
  • Akira Naganuma
    • 1
    • 8
  1. 1.Laboratory of Molecular and Biochemical Toxicology, Graduate School of Pharmaceutical SciencesTohoku UniversitySendaiJapan
  2. 2.Department of Toxicology, School of Pharmaceutical SciencesTeikyo UniversitySagamiko199-0195Japan
  3. 3.Division of Health Effects ResearchNational Institute of Industrial HealthKawasakiJapan
  4. 4.Faculty of Human Health ScienceHachinohe UniversityHachinoheJapan
  5. 5.Tsukuba Medical Examiner’s OfficeTsukubaJapan
  6. 6.Laboratory of Clinical Pharmacology and Therapeutics, Graduate School of Pharmaceutical SciencesTohoku UniversitySendaiJapan
  7. 7.Laboratory of Planning for Drug Development and Clinical Evaluation, Graduate School of Pharmaceutical SciencesTohoku UniversitySendaiJapan
  8. 8.Tohoku University 21st Century COE Program “Comprehensive Research and Education Center for Planning of Drug Development and Clinical Evaluation”SendaiJapan

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