Olga D. Zakharova scite author profile

IgG abzymes (Abzs) with different catalytic activities are a distinctive feature of various autoimmune (AI) diseases. At the same time, data concerning IgMs with catalytic activities are very limited. Electrophoretically and immunologically homogeneous IgMs were isolated from the sera of acquired immunodeficiency syndrome (AIDS) patients by chromatography on several affinity sorbents. Several rigid criteria have been applied to show that the integrase (IN)-hydrolyzing activity is an intrinsic property of IgMs from HIV-infected patients but not from healthy donors. We present evidence showing that 22 of 24 (91.7%) IgMs purified from the sera of HIV-infected patients specifically hydrolyze only HIV IN but not many other tested proteins. Usually, proteolytic antibodies of AI patients are serine protease-like or metal dependent. Only 30% of IN-hydrolyzing IgMs were inhibited by specific inhibitors of serine proteases and 60% by inhibitors of metal-dependent proteases. Unusually, a significant reduction of the activity by specific inhibitors of acidic (in 20% of IgM preparations) and thiol proteases (in 100% of IgM preparations) was observed. Although HIV infection leads to formation of antibodies to many viral and human antigens, possible biological roles for most of them are unknown. Since anti-IN IgG can efficiently hydrolyze IN, a positive role of Abzs in counteracting the infection cannot be excluded. In addition, detection of IN-hydrolyzing activity can be useful for diagnostic purposes and for assessment of the immune status in AIDS patients.

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Dynamic, Thermodynamic, and Kinetic Basis for Recognition and Transformation of DNA by Human Immunodeficiency Virus Type 1 Integrase

Bugreev

Баранова

Zakharova

et al. 2003

Biochemistry

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Specific interactions between retroviral integrase (IN) and long terminal repeats are required for insertion of viral DNA into the host genome. To characterize quantitatively the determinants of substrate specificity, we used a method based on a stepwise increase in ligand complexity. This allowed an estimation of the relative contributions of each nucleotide from oligonucleotides to the total affinity for IN. The interaction of HIV-1 integrase with specific (containing sequences from the LTR) or nonspecific oligonucleotides was analyzed using a thermodynamic model. Integrase interacted with oligonucleotides through a superposition of weak contacts with their bases, and more importantly, with the internucleotide phosphate groups. All these structural components contributed in a combined way to the free energy of binding with the major contribution made by the conserved 3'-terminal GT, and after its removal, by the CA dinucleotide. In contrast to nonspecific oligonucleotides that inhibited the reaction catalyzed by IN, specific oligonucleotides enhanced the activity, probably owing to the effect of sequence-specific ligands on the dynamic equilibrium between the oligomeric forms of IN. However, after preactivation of IN by incubation with Mn(2+), the specific oligonucleotides were also able to inhibit the processing reaction. We found that nonspecific interactions of IN with DNA provide approximately 8 orders of magnitude in the affinity (Delta G degrees approximately equal to -10.3 kcal/mol), while the relative contribution of specific nucleotides of the substrate corresponds to approximately 1.5 orders of magnitude (Delta G degrees approximately equal to - 2.0 kcal/mol). Formation of the Michaelis complex between IN and specific DNA cannot by itself account for the major contribution of enzyme specificity, which lies in the k(cat) term; the rate is increased by more than 5 orders of magnitude upon transition from nonspecific to specific oligonucleotides.

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Synthesis and biological evaluation of novel tyrosyl-DNA phosphodiesterase 1 inhibitors with a benzopentathiepine moiety

Zakharenko

Khomenko

Zhukova

et al. 2015

Bioorganic & Medicinal Chemistry

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Novel tyrosyl-DNA phosphodiesterase 1 inhibitors enhance the therapeutic impact of topoteсan on in vivo tumor models

Zakharenko

Luzina

Sokolov

et al. 2019

European Journal of Medicinal Chemistry

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Antibodies to HIV integrase catalyze site-specific degradation of their antigen

Odintsova

Баранова

Dmitrenok

et al. 2011

International Immunology

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HIV-1 integrase (IN) catalyzes integration of a DNA copy of the viral genome into the host genome. In contrast to canonical proteases (trypsin, chymotrypsin and proteinase K), IgGs and IgMs isolated from HIV-infected patients by affinity chromatography on immobilized IN specifically hydrolyzed only IN but not many other tested intact globular proteins. The sites of IN cleavage determined by MALDI mass spectrometry were localized mainly within seven known immunodominant regions of IN. Thin layer chromatography analysis has shown that the abzymes (Abzs) could also cleave 17 to 22-mer oligopeptides (OPs) corresponding to the immunodominant regions of IN sequence with a much higher rate than non-specific long peptides or three- and tetrapeptides of various sequence. Therefore, a prolonged incubation of IN with AIDS IgGs and IgMs having high catalytic activity usually produces many OPs of different length. Since anti-IN IgGs and IgMs can efficiently hydrolyze IN, a positive role of the Abzs in counteracting the infection is possible.

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Design of protein homocystamides with enhanced tumor uptake properties for 19F magnetic resonance imaging

Chubarov

Zakharova

Koval

et al. 2015

Bioorganic & Medicinal Chemistry

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High affinity interaction of HIV‐1 integrase with specific and non‐specific single‐stranded short oligonucleotides

Caumont¹,

Jamieson²,

Soultrait³

et al. 1999

FEBS Letters

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Retroviral integrase (IN) catalyzes the integration of double-stranded viral DNA into the host cell genome. The reaction can be divided in two steps: 3P P-end processing and DNA strand transfer. Here we studied the effect of short oligonucleotides (ODNs) on human immunodeficiency virus type 1 (HIV-1) IN. ODNs were either specific, with sequences representing the extreme termini of the viral long terminal repeats, or nonspecific. All ODNs were found to competitively inhibit the processing reaction with K i values in the nM range for the best inhibitors. Our studies on the interaction of IN with ODNs also showed that: (i) besides the 3P P-terminal GT, the interaction of IN with the remaining nucleotides of the 21-mer specific sequence was also important for an effective interaction of the enzyme with the substrate; (ii) in the presence of specific ODNs the activity of the enzyme was enhanced, a result which suggests an ODNinduced conformational change of HIV-1 IN.z 1999 Federation of European Biochemical Societies.

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New inhibitors of tyrosyl-DNA phosphodiesterase I (Tdp 1) combining 7-hydroxycoumarin and monoterpenoid moieties

Khomenko

Zakharenko

Odarchenko

et al. 2016

Bioorganic & Medicinal Chemistry

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Olga D. Zakharova

HIV-1 integrase-hydrolyzing IgM antibodies from sera of HIV-infected patients

Dynamic, Thermodynamic, and Kinetic Basis for Recognition and Transformation of DNA by Human Immunodeficiency Virus Type 1 Integrase

Synthesis and biological evaluation of novel tyrosyl-DNA phosphodiesterase 1 inhibitors with a benzopentathiepine moiety

Novel tyrosyl-DNA phosphodiesterase 1 inhibitors enhance the therapeutic impact of topoteсan on in vivo tumor models

Antibodies to HIV integrase catalyze site-specific degradation of their antigen

Design of protein homocystamides with enhanced tumor uptake properties for 19F magnetic resonance imaging

High affinity interaction of HIV‐1 integrase with specific and non‐specific single‐stranded short oligonucleotides

New inhibitors of tyrosyl-DNA phosphodiesterase I (Tdp 1) combining 7-hydroxycoumarin and monoterpenoid moieties

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