Gastro Hep Advances (Jan 2022)

Copper Isotope Evidence of Oxidative Stress–Induced Hepatic Breakdown and the Transition to Hepatocellular Carcinoma

  • Philippe Telouk,
  • Marie-Laure Plissonnier,
  • Philippe Merle,
  • Fabien Zoulim,
  • Nadim Fares,
  • Paule Guilloreau,
  • Romain Parent,
  • Justine Bacchetta,
  • Marc Danan,
  • Sergio Carandina,
  • Francis Albarède, PhD

Journal volume & issue
Vol. 1, no. 3
pp. 480 – 486

Abstract

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Background and Aims: Hepatocellular carcinoma (HCC) is the third leading cause of cancer-related death worldwide, and finding a single reliable biomarker to follow liver degradation is a challenging task. To document the relationship between liver failure, hypoxia, and HCC, copper isotope variations (δ65Cu) were evaluated in the serum of HCC-negative and HCC-positive patients as a biomarker of hepatic failure. Methods: We analyzed Cu isotope variations in serum samples from 293 patients with potentially degraded liver functions presenting hepatitis B virus, hepatitis C virus, nonalcoholic steatohepatitis, and alcohol uptake (OH) etiologies and 105 controls. Ninety-five of the patients were diagnosed with HCC. Results: On average, the δ65Cu values of the serum of patients with F3-F4 fibrosis score or HCC-positive are low. The Cu isotope data are strikingly bimodal with well-defined δ65Cu modes which imperfectly reflect etiology. The population with normal values (ca −0.3‰) is progressively replaced by a population with atypical δ65Cu values (ca −0.8‰), which reflects the progressive degradation of hepatic functions. Conclusion: The clear bimodality does not correspond to a progressive shift of the δ65Cu values but to a replacement of one population by another. This bimodality sheds light on the persisting difficulties epitomized by α-fetoprotein in finding high-sensitivity and high-specificity HCC biomarkers. It is interpreted as a switch in the resistance of hepatic tissues to the oxidative stress that eventually leads to HCC oncogenesis.

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