Catalase Activity of IgG and κκ-IgG, λλ-IgG, and κλ-IgG Subfractions in HIV-Infected Patients and Healthy Donors.

BACKGROUND: Human immunodeficiency virus (HIV) infection is associated with pronounced oxidative stress, leading to the development of various virus-associated pathologies. A wealth of evidence suggests that, along with canonical enzymes of reactive oxygen species regulation, human blood contains antibodies with peroxidase, superoxide dismutase, and catalase activities. Here we show that the catalase activity of IgGs and their κκ-IgG, λλ-IgG, and κλ-IgG subfractions of HIV-infected individuals is significantly different compared to the healthy donors. METHODS: Protein G-Sepharose sorbent was used to resolve IgG from blood of healthy donors and HIV-infected patients by affinity chromatography. Subfractions of κκ-IgG, λλ-IgG, and κλ-IgG were separated from IgGs samples of each group by affinity chromatography on sorbents containing immobilized antibodies to κ or λ light human chains. The IgG catalase activity level was measured spectrophotometrically by evaluating the decrease in optical density (A240) due to hydrogen peroxide decomposition. RESULTS: The relative catalase activity of antibodies from HIV-infected patients (kcat = (1.41 ± 0.92) × 103 min-1, 95% CI: [1.01-1.81]) was statistically significant, 1.6 times higher (p = 0.014) compared to apparently healthy donors ((0.86 ± 0.49) × 103, 95% CI: [0.69-1.03]). The activity level of κκ-IgG HIV-infected patients ((0.44 ± 0.04) × 103 min-1) was 1.4 times higher than that of λλ-IgGs ((0.31 ± 0.025) × 103 min-1); the opposite was observed for κκ-IgGs from apparently healthy donors, which activity ((0.17 ± 0.015) × 103 min-1) was 3.1 times lower compared to λλ-IgGs ((0.53 ± 0.045) × 103 min-1). CONCLUSIONS: Thus, the data obtained may indicate that IgG with increased catalase activity may prevent harmful processes arising from oxidative stress in HIV-infected patients, acting as an additional natural molecular mechanism of regulation of hydrogen peroxide level.

Catalase Activity of IgGs of Patients Infected with SARS-CoV-2.

Coronavirus disease (COVID-19), caused by the SARS-CoV-2 coronavirus, leads to various manifestations of the post-COVID syndrome, including diabetes, heart and kidney disease, thrombosis, neurological and autoimmune diseases and, therefore, remains, so far, a significant public health problem. In addition, SARS-CoV-2 infection can lead to the hyperproduction of reactive oxygen species (ROS), causing adverse effects on oxygen transfer efficiency, iron homeostasis, and erythrocytes deformation, contributing to thrombus formation. In this work, the relative catalase activity of the serum IgGs of patients recovered from COVID-19, healthy volunteers vaccinated with Sputnik V, vaccinated with Sputnik V after recovering from COVID-19, and conditionally healthy donors were analyzed for the first time. Previous reports show that along with canonical antioxidant enzymes, the antibodies of mammals with superoxide dismutase, peroxidase, and catalase activities are involved in controlling reactive oxygen species levels. We here show that the IgGs from patients who recovered from COVID-19 had the highest catalase activity, and this was statistically significantly higher each compared to the healthy donors (1.9-fold), healthy volunteers vaccinated with Sputnik V (1.4-fold), and patients vaccinated after recovering from COVID-19 (2.1-fold). These data indicate that COVID-19 infection may stimulate the production of antibodies that degrade hydrogen peroxide, which is harmful at elevated concentrations.