Glutathionylation of the pro-apoptotic protein p53 in alzheimer's disease brain: Implications for AD pathogenesis

Fabio Di Domenico, Giovanna Cenini, Rukhsana Sultana, Marzia Perluigi, Daniela Uberti, Maurizio Memo, D. Allan Butterfield

Research output: Contribution to journalArticlepeer-review

74 Scopus citations

Abstract

Alzheimer's disease (AD) is an age-related neurodegenerative disorder. The exact mechanism for the AD pathogenesis is not clearly understood. However, a number of hypotheses have been proposed to explain the pathogenesis of AD. One the hypotheses is the oxidative stress hypothesis that is supported by a number of studies which reported an increase in the levels of reactive oxygen/reactive nitrogen species and their products with a concomitant decrease in the levels of antioxidant enzymes in AD brain. In the present study, we measured in AD brain the expression levels of different forms (monomer, dimer and tetramer) of the pro-apoptotic protein, p53, and observed greater levels of p53 monomer and dimer in AD brain compared to control. In addition, we also showed the selective glutathionylation of monomeric and dimeric form of p53 in AD brain. We propose that glutathionylation of p53 may prevent the formation of tetramer, an aggregate form required for effective action of p53, and may be involved in oxidative stress conditions and neurodegeneration observed in this dementing disorder.

Original languageEnglish
Pages (from-to)727-733
Number of pages7
JournalNeurochemical Research
Volume34
Issue number4
DOIs
StatePublished - Apr 2009

Bibliographical note

Funding Information:
Acknowledgments This research was supported in part by NIH grants to D.A.B. [AG-05119;AG-10836; AG-029839]. We thank the faculty of the UK ADC Neuropathology Core for providing the AD and control brain specimens used in this study.

Keywords

  • Alzheimer's disease
  • Glutathione
  • Glutathionylation
  • Inferior parietal lobule
  • Oxidative stress
  • P53

ASJC Scopus subject areas

  • Biochemistry
  • Cellular and Molecular Neuroscience

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