Isolation of antibodies to hypochlorite-modified low-density lipoproteins from human serum and study of their specificity

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Abstract

BACKGROUND: Modified low-density lipoproteins have immunogenic properties and induce the production of antibodies. In this case, HOCl promotes the formation of subsequent active halogen-containing compounds interacting with proteins and lipid parts of low-density lipoproteins, which leads to their modification and the production of antibodies to them.

AIM: The aim of this work is to isolate antibodies to hypochlorite modified low-density lipoproteins from human blood sera and study their specificity.

MATERIALS AND METHODS: Malondialdehyde, acetic anhydride and sodium hypochlorite were used to obtain modified low-density lipoproteins. IgG antibodies to hypochlorite modified low-density lipoproteins were isolated by affinity chromatography. The total IgG fraction antibodies was previously isolated from human blood serum using MabSelect Xtra. The specific antibodies to hypochlorite modified low-density lipoproteins were isolated from this IgG pool by affinity chromatography. CNBr-Sepharose 4B conjugated with human serum albumin modified with NaOCl was used as a sorbent. The specificity of antibodies against hypochlorite modified low-density lipoproteins was tested using a competitive enzyme-linked immunosorbent assay. The competitors were hypochlorite modified low-density lipoproteins, acetic anhydride modified low-density lipoproteins and malondialdehyde modified low-density lipoproteins in concentrations (1–250 μg/ml).

RESULTS: IgG antibodies against hypochlorite-modified proteins that interact with hypochlorite modified low-density lipoproteins were detected in human blood. According to ELISA date the binding of the isolated antibodies to hypochlorite modified low-density lipoproteins was almost completely inhibited only by appropriately modified low-density lipoproteins, that is, hypochlorite modified low-density lipoproteins, but not native low-density lipoproteins or acetic anhydride modified low-density lipoproteins. Malondialdehyde modified low-density lipoproteins also showed some competitive activity, but much weaker than hypochlorite modified low-density lipoproteins. Hypochlorite modified low-density lipoproteins itself and, to a lesser extent, malondialdehyde modified low-density lipoproteins competed for binding with antibodies of human serum to hypochlorite modified low-density lipoproteins. Acetic anhydride modified low-density lipoproteins and native low-density lipoproteins did not reduce the efficiency of antibody binding to their antigen.

CONCLUSIONS: Hypochlorite modified low-density lipoproteins forms epitopes independent of other low-density lipoproteins modifications studied. These epitopes are responsible for the formation of specific antibodies.

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About the authors

Ksenia N. Grigoryeva

Peter the Great Saint Petersburg Polytechnic University; Institute of Experimental Medicine

Email: ks_grigorieva24@mail.ru
ORCID iD: 0009-0005-3818-9835

Student

Russian Federation, Saint Petersburg; Saint Petersburg

Alexandra A. Dmitrieva

Institute of Experimental Medicine

Email: aleksandra-2001@mail.ru
ORCID iD: 0000-0003-2680-4069
SPIN-code: 3009-2698

Junior Researcher of the Department of Biochemistry

Russian Federation, Saint Petersburg

Anna A. Ivanova

Institute of Experimental Medicine

Author for correspondence.
Email: anna.ivantcova@gmail.com
ORCID iD: 0000-0002-8673-9628
SPIN-code: 5306-1995

Junior Researcher of the Department of Biochemistry

Russian Federation, Saint Petersburg

Alexander D. Denisenko

Institute of Experimental Medicine

Email: add@iem.sp.ru
ORCID iD: 0000-0003-1613-0654
SPIN-code: 7496-1449

MD, Dr. Sci. (Medicine), Professor, Head of the Laboratory of Regulation of Lipid Metabolism

Russian Federation, Saint Petersburg

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Supplementary files

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2. Fig. 1. Binding of IgG human serum antibodies to hypochlorite-LDL with hypochlorite-LDL in the presence of increasing concentrations of competitors: hypochlorite-LDL, MDA-LDL, acet-LDL, and LDL

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3. Fig. 2. The efficiency of human serum antibodies binding to hypochlorite-LDL, depending on the modification degree of antigen

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4. Fig. 3. Competition between hypochlorite-modified LDL and HSA for binding to human antibodies

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5. Fig. 4. Binding of IgG antibodies to hypochlorite-LDL from human serum with various antigens (а). Binding of IgG antibodies to hypochlorite-LDL from human serum with hypochlorite-LDL in the presence of increasing concentrations of competitors: hypoclorite-LDL, MDA-LDL, acet-LDL, and LDL (b)

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