Frontiers in Genetics (Nov 2020)

Xeroderma Pigmentosum C (XPC) Mutations in Primary Fibroblasts Impair Base Excision Repair Pathway and Increase Oxidative DNA Damage

  • Nour Fayyad,
  • Farah Kobaisi,
  • Farah Kobaisi,
  • Farah Kobaisi,
  • David Beal,
  • Walid Mahfouf,
  • Cécile Ged,
  • Cécile Ged,
  • Fanny Morice-Picard,
  • Mohammad Fayyad-Kazan,
  • Hussein Fayyad-Kazan,
  • Bassam Badran,
  • Hamid R. Rezvani,
  • Hamid R. Rezvani,
  • Walid Rachidi,
  • Walid Rachidi

DOI
https://doi.org/10.3389/fgene.2020.561687
Journal volume & issue
Vol. 11

Abstract

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Xeroderma Pigmentosum C (XPC) is a multi-functional protein that is involved not only in the repair of bulky lesions, post-irradiation, via nucleotide excision repair (NER) per se but also in oxidative DNA damage mending. Since base excision repair (BER) is the primary regulator of oxidative DNA damage, we characterized, post-Ultraviolet B-rays (UVB)-irradiation, the detailed effect of three different XPC mutations in primary fibroblasts derived from XP-C patients on mRNA, protein expression and activity of different BER factors. We found that XP-C fibroblasts are characterized by downregulated expression of different BER factors including OGG1, MYH, APE1, LIG3, XRCC1, and Polβ. Such a downregulation was also observed at OGG1, MYH, and APE1 protein levels. This was accompanied with an increase in DNA oxidative lesions, as evidenced by 8-oxoguanine levels, immediately post-UVB-irradiation. Unlike in normal control cells, these oxidative lesions persisted over time in XP-C cells having lower excision repair capacities. Taken together, our results indicated that an impaired BER pathway in XP-C fibroblasts leads to longer persistence and delayed repair of oxidative DNA damage. This might explain the diverse clinical phenotypes in XP-C patients suffering from cancer in both photo-protected and photo-exposed areas. Therapeutic strategies based on reinforcement of BER pathway might therefore represent an innovative path for limiting the drawbacks of NER-based diseases, as in XP-C case.

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