eLife (Nov 2021)

Neutrophil-mediated oxidative stress and albumin structural damage predict COVID-19-associated mortality

  • Mohamed A Badawy,
  • Basma A Yasseen,
  • Riem M El-Messiery,
  • Engy A Abdel-Rahman,
  • Aya A Elkhodiry,
  • Azza G Kamel,
  • Hajar El-sayed,
  • Asmaa M Shedra,
  • Rehab Hamdy,
  • Mona Zidan,
  • Diaa Al-Raawi,
  • Mahmoud Hammad,
  • Nahla Elsharkawy,
  • Mohamed El Ansary,
  • Ahmed Al-Halfawy,
  • Alaa Elhadad,
  • Ashraf Hatem,
  • Sherif Abouelnaga,
  • Laura L Dugan,
  • Sameh Saad Ali

DOI
https://doi.org/10.7554/eLife.69417
Journal volume & issue
Vol. 10

Abstract

Read online

Human serum albumin (HSA) is the frontline antioxidant protein in blood with established anti-inflammatory and anticoagulation functions. Here, we report that COVID-19-induced oxidative stress inflicts structural damages to HSA and is linked with mortality outcome in critically ill patients. We recruited 39 patients who were followed up for a median of 12.5 days (1–35 days), among them 23 had died. Analyzing blood samples from patients and healthy individuals (n=11), we provide evidence that neutrophils are major sources of oxidative stress in blood and that hydrogen peroxide is highly accumulated in plasmas of non-survivors. We then analyzed electron paramagnetic resonance spectra of spin-labeled fatty acids (SLFAs) bound with HSA in whole blood of control, survivor, and non-survivor subjects (n=10–11). Non-survivors’ HSA showed dramatically reduced protein packing order parameter, faster SLFA correlational rotational time, and smaller S/W ratio (strong-binding/weak-binding sites within HSA), all reflecting remarkably fluid protein microenvironments. Following loading/unloading of 16-DSA, we show that the transport function of HSA may be impaired in severe patients. Stratified at the means, Kaplan–Meier survival analysis indicated that lower values of S/W ratio and accumulated H2O2 in plasma significantly predicted in-hospital mortality (S/W≤0.15, 81.8% (18/22) vs. S/W>0.15, 18.2% (4/22), p=0.023; plasma [H2O2]>8.6 μM, 65.2% (15/23) vs. 34.8% (8/23), p=0.043). When we combined these two parameters as the ratio ((S/W)/[H2O2]) to derive a risk score, the resultant risk score lower than the mean (<0.019) predicted mortality with high fidelity (95.5% (21/22) vs. 4.5% (1/22), log-rank χ2=12.1, p=4.9×10−4). The derived parameters may provide a surrogate marker to assess new candidates for COVID-19 treatments targeting HSA replacements and/or oxidative stress.

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