Scientific Reports (Nov 2023)

Comparing P53 expression and genome-wide transcriptome profiling to Comet assay in lymphocytes from melanoma patients and healthy controls

  • Mojgan Najafzadeh,
  • Parisa Naeem,
  • Nader Ghaderi,
  • Shohreh Jafarinejad,
  • Zahra Karimi,
  • Mehran Ghaderi,
  • Pouria Akhbari,
  • Rojan Ghaderi,
  • Pedram Farsi,
  • Andrew Wright,
  • Diana Anderson

DOI
https://doi.org/10.1038/s41598-023-44965-z
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 12

Abstract

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Abstract This study compared the expression of TP53 in lymphocytes from malignant melanoma (MM) patients with positive sentinel nodes to healthy controls (HCs) following exposure to various doses of UVA radiation. The Lymphocyte Genome Sensitivity (LGS) assay indicated significant differences in DNA damage in lymphocytes between MM patients and HCs. qPCR data demonstrated an overall 3.4-fold increase in TP53 expression in lymphocytes from MM patients compared to healthy controls, following treatment with 0.5 mW/cm2 UVA radiation. Western blotting confirmed that p53 expression was increased in MM lymphocytes following UVA exposure compared to healthy individuals. Genome transcriptome profiling data displayed differences in gene expression between UVA-treated lymphocytes from MM patients and HCs. Peripheral lymphocytes from MM patients are more susceptible to the genotoxic effects of UVA compared to healthy individuals. Our previous studies showed that UVA exposure of various intensities caused significant differences in the levels of DNA damage between lymphocytes from cancer patients compared to HCs through the LGS assay. The present study’s results provide further credibility to the LGS assay as a screening test for cancer detection. Peripheral lymphocytes could be a promising blood biopsy biomarker for staging of carcinomas and prevention of carcinoma progression at early stages.