Your search keyword '"Petrova DV"' showing total 13 results

1. Methylation and hydroxymethylation of cytosine alter activity and fidelity of translesion DNA polymerases.

Author

Shilkin ES, Petrova DV, Novikova AA, Boldinova EO, Zharkov DO, and Makarova AV

Subjects

Humans, DNA Repair, DNA Damage, Nucleotidyltransferases metabolism, Nucleotidyltransferases genetics, DNA Polymerase iota, DNA metabolism, Multifunctional Enzymes metabolism, DNA Replication, 8-Hydroxy-2'-Deoxyguanosine metabolism, DNA-Directed DNA Polymerase metabolism, DNA Methylation, Cytosine metabolism, Cytosine analogs & derivatives, 5-Methylcytosine metabolism, 5-Methylcytosine analogs & derivatives

Abstract

Epigenetic cytosine methylation covers most of genomic CpG dinucleotides in human cells. In addition to common deamination-mediated mutagenesis at CpG sites, an alternative deamination-independent pathway associated with DNA polymerase activity was previously described. This mutagenesis is characterized by the TCG→TTG mutational signature and is believed to arise from dAMP misincorporation opposite 5-methylcytosine (mC) or its oxidized derivative 5-hydroxymethylcytosine (hmC) by B-family replicative DNA polymerases with disrupted proofreading 3→5'-exonuclease activity. In addition to being less stable and pro-mutagenic themselves, cytosine modifications also increase the risk of adjacent nucleotides damage, including the formation of 8-oxo-2'-deoxyguanosine (8-oxoG), a well-known mutagenic lesion. The effect of cytosine methylation on error-prone DNA polymerases lacking proofreading activity and involved in repair and DNA translesion synthesis remains unexplored. Here we analyze the efficiency and fidelity of translesion Y-family polymerases (Pol κ, Pol η, Pol ι and REV1) and primase-polymerase PrimPol opposite mC and hmC as well as opposite 8-oxoG adjacent to mC in the TCG context. We demonstrate that epigenetic cytosine modifications suppress Pol ι and REV1 activities and lead to increasing dAMP misincorporation by PrimPol, Pol κ and Pol ι in vitro. Cytosine methylation also increases misincorporation of dAMP opposite the adjacent 8-oxoG by PrimPol, decreases the TLS activity of Pol η opposite the lesion but increases dCMP incorporation opposite 8-oxoG by REV1. Altogether, these data suggest that methylation and hydroxymethylation of cytosine alter activity and fidelity of translesion DNA polymerases., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

2. Repair and DNA Polymerase Bypass of Clickable Pyrimidine Nucleotides.

Author

Endutkin AV, Yudkina AV, Zharkov TD, Barmatov AE, Petrova DV, Kim DV, and Zharkov DO

Subjects

Humans, DNA-Directed DNA Polymerase metabolism, Deoxyuridine analogs & derivatives, Deoxyuridine chemistry, Deoxyuridine metabolism, DNA metabolism, DNA chemistry, DNA genetics, DNA Replication, Uracil-DNA Glycosidase metabolism, DNA Repair, Pyrimidine Nucleotides chemistry, Pyrimidine Nucleotides metabolism, Click Chemistry

Abstract

Clickable nucleosides, most often 5-ethynyl-2'-deoxyuridine (EtU), are widely used in studies of DNA replication in living cells and in DNA functionalization for bionanotechology applications. Although clickable dNTPs are easily incorporated by DNA polymerases into the growing chain, afterwards they might become targets for DNA repair systems or interfere with faithful nucleotide insertion. Little is known about the possibility and mechanisms of these post-synthetic events. Here, we investigated the repair and (mis)coding properties of EtU and two bulkier clickable pyrimidine nucleosides, 5-(octa-1,7-diyn-1-yl)-U (C8-AlkU) and 5-(octa-1,7-diyn-1-yl)-C (C8-AlkC). In vitro, EtU and C8-AlkU, but not C8-AlkC, were excised by SMUG1 and MBD4, two DNA glycosylases from the base excision repair pathway. However, when placed into a plasmid encoding a fluorescent reporter inactivated by repair in human cells, EtU and C8-AlkU persisted for much longer than uracil or its poorly repairable phosphorothioate-flanked derivative. DNA polymerases from four different structural families preferentially bypassed EtU, C8-AlkU and C8-AlkC in an error-free manner, but a certain degree of misincorporation was also observed, especially evident for DNA polymerase β. Overall, clickable pyrimidine nucleotides could undergo repair and be a source of mutations, but the frequency of such events in the cell is unlikely to be considerable.

Published

2024

3. Base Excision DNA Repair in Plants: Arabidopsis and Beyond.

Author

Grin IR, Petrova DV, Endutkin AV, Ma C, Yu B, Li H, and Zharkov DO

Subjects

Humans, Escherichia coli metabolism, DNA Repair, DNA Damage, DNA, Plant genetics, DNA, Plant metabolism, Arabidopsis metabolism

Abstract

Base excision DNA repair (BER) is a key pathway safeguarding the genome of all living organisms from damage caused by both intrinsic and environmental factors. Most present knowledge about BER comes from studies of human cells, E. coli , and yeast. Plants may be under an even heavier DNA damage threat from abiotic stress, reactive oxygen species leaking from the photosynthetic system, and reactive secondary metabolites. In general, BER in plant species is similar to that in humans and model organisms, but several important details are specific to plants. Here, we review the current state of knowledge about BER in plants, with special attention paid to its unique features, such as the existence of active epigenetic demethylation based on the BER machinery, the unexplained diversity of alkylation damage repair enzymes, and the differences in the processing of abasic sites that appear either spontaneously or are generated as BER intermediates. Understanding the biochemistry of plant DNA repair, especially in species other than the Arabidopsis model, is important for future efforts to develop new crop varieties.

Published

2023

4. [Alternative Mechanisms of Mutagenesis at mCpG Sites during Replication and Repair].

Author

Shilkin ES, Petrova DV, Zharkov DO, and Makarova AV

Subjects

Humans, CpG Islands, Mutagenesis, Carcinogenesis, DNA Methylation, DNA Repair genetics, Epigenesis, Genetic

Abstract

5-Methyl-2'-deoxycytidine (mC) at CpG sites plays a key role in the epigenetic gene regulation, cell differentiation, and carcinogenesis. Despite the importance of mC for normal cell function, CpG dinucleotides are known as mutagenesis hotspots. Deamination of mC yields T, causing C→T transitions. However, several recent studies demonstrated the effect of epigenetic modifications of C on the fidelity and efficiency of DNA polymerases and excision repair enzymes. The review summarizes the available data that indicate the existence of deamination-independent mechanisms of mutagenesis at CpG sites.

Published

2023

5. Characterization of demethylating DNA glycosylase ROS1 from Nicotiana tabacum L.

Author

Petrova DV, Permyakova NV, Grin IR, and Zharkov DO

Abstract

One of the main mechanisms of epigenetic regulation in higher eukaryotes is based on the methylation of cytosine at the C5 position with the formation of 5-methylcytosine (mC), which is further recognized by regulatory proteins. In mammals, methylation mainly occurs in CG dinucleotides, while in plants it targets CG, CHG, and CHH sequences (H is any base but G). Correct maintenance of the DNA methylation status is based on the balance of methylation, passive demethylation, and active demethylation. While in mammals active demethylation is based on targeted regulated damage to mC in DNA followed by the action of repair enzymes, demethylation in plants is performed by specialized DNA glycosylases that hydrolyze the N-glycosidic bond of mC nucleotides. The genome of the model plant Arabidopsis thaliana encodes four paralogous proteins, two of which, DEMETER (DME) and REPRESSOR OF SILENCING 1 (ROS1), possess 5-methylcytosine-DNA glycosylase activity and are necessary for the regulation of development, response to infections and abiotic stress and silencing of transgenes and mobile elements. Homologues of DME and ROS1 are present in all plant groups; however, outside A. thaliana, they are poorly studied. Here we report the properties of a recombinant fragment of the ROS1 protein from Nicotiana tabacum (NtROS1), which contains all main structural domains required for catalytic activity. Using homologous modeling, we have constructed a structural model of NtROS1, which revealed folding characteristic of DNA glycosylases of the helix- hairpin-helix structural superfamily. The recombinant NtROS1 protein was able to remove mC bases from DNA, and the enzyme activity was barely affected by the methylation status of CG dinucleotides in the opposite strand. The enzyme removed 5-hydroxymethylcytosine (hmC) from DNA with a lower eff iciency, showing minimal activity in the presence of mC in the opposite strand. Expression of the NtROS1 gene in cultured human cells resulted in a global decrease in the level of genomic DNA methylation. In general, it can be said that the NtROS1 protein and other homologues of DME and ROS1 represent a promising scaffold for engineering enzymes to analyze the status of epigenetic methylation and to control gene activity., (Copyright © AUTHORS.)

Published

2022

6. [Template Properties of 5-Methyl-2'-Deoxycytidine and 5-Hydroxymethyl-2'-Deoxycytidine in Reactions with Human Translesion and Reparative DNA Polymerases].

Author

Shilkin ES, Petrova DV, Poltorachenko VA, Boldinova EO, Zharkov DO, and Makarova AV

Subjects

DNA Primase, Deoxycytidine analogs & derivatives, Humans, Multifunctional Enzymes, DNA-Directed DNA Polymerase genetics, DNA-Directed DNA Polymerase metabolism, Epigenesis, Genetic

Abstract

5-Methyl-2'-deoxycytidine (mC) and the product of its controlled oxidation, 5-hydroxymethyl-2'-cytidine (hmC), play a key role in the epigenetic regulation of gene expression, the cell differentiation, and the carcinogenesis. Due to spontaneious deamination, genomic CpG sites containing mC and hmC serve as mutagenesis hotspots. In addition, error-prone translesion and reparative DNA polymerases may serve as additional source of mutations in the lesion-containing regions with CpG sites. In the present work, we performed in vitro analysis of the accuracy of nucleotide incorporation opposite to mC and hmC by human DNA polymerases Polβ, Polλ, Polη, Polι, PoIκ and primase polymerase PrimPol. The results of the study show a high accuracy of copying mC and hmC by the reparative DNA polymerases polymerases Polβ and Polλ, while Polη, Polι, PoIκ, and PrimPol copied mC and hmC with less accuracy evident by incorporation of dAMP and dTMP. The same spectrum of error-prone dNMP incorporation was also noted at sites with unmodified cytosines.

Published

2021

7. Photoinduced inhibition of DNA repair enzymes and the possible mechanism of photochemical transformations of the ruthenium nitrosyl complex [RuNO(β-Pic) 2 (NO 2 ) 2 OH].

Author

Mikhailov AA, Khantakova DV, Nichiporenko VA, Glebov EM, Grivin VP, Plyusnin VF, Yanshole VV, Petrova DV, Kostin GA, and Grin IR

Subjects

DNA Glycosylases chemistry, DNA Repair Enzymes chemistry, Deoxyribonuclease (Pyrimidine Dimer) chemistry, Deoxyribonuclease (Pyrimidine Dimer) metabolism, Enzyme Activation radiation effects, Escherichia coli Proteins chemistry, Escherichia coli Proteins metabolism, Mass Spectrometry methods, Photochemical Processes radiation effects, Photolysis radiation effects, Spectrophotometry methods, DNA Glycosylases metabolism, DNA Repair Enzymes metabolism, Nitric Oxide chemistry, Ruthenium chemistry

Abstract

In this work we have demonstrated that the ruthenium nitrosyl complex [RuNO(β-Pic)2(NO2)2OH] is suitable for investigation of the inactivation of DNA repair enzymes in vitro. Photoinduced inhibition of DNA glycosylases such as E. coli Endo III, plant NtROS1, mammalian mNEIL1 and hNEIL2 occurs to an extent of ≥90% after irradiation with the ruthenium complex. The photophysical and photochemical processes of [RuNO(β-Pic)2(NO2)2OH] were investigated using stationary and time-resolved spectroscopy, and mass spectrometry. A possible mechanism of the photo-processes was proposed from the combined spectroscopic study and DTF calculations, which reveal that the photolysis is multistage. The primary and secondary photolysis stages are the photo-induced cleavage of the Ru-NO bond with the formation of a free nitric oxide and RuIII complex followed by ligand exchange with solvent. For E. coli Endo III, covalent interaction with the photolysis product was confirmed by UV-vis and mass spectrometric methods.

Published

2019

8. Oxidative damage to epigenetically methylated sites affects DNA stability, dynamics and enzymatic demethylation.

Author

Gruber DR, Toner JJ, Miears HL, Shernyukov AV, Kiryutin AS, Lomzov AA, Endutkin AV, Grin IR, Petrova DV, Kupryushkin MS, Yurkovskaya AV, Johnson EC, Okon M, Bagryanskaya EG, Zharkov DO, and Smirnov SL

Subjects

Arabidopsis Proteins metabolism, CpG Islands genetics, DNA chemistry, Enzymes chemistry, Genome, Guanine analogs & derivatives, Guanine chemistry, Humans, Magnetic Resonance Spectroscopy, Methylation, Molecular Dynamics Simulation, Nuclear Proteins metabolism, Protein Conformation, Protein-Tyrosine Kinases metabolism, Proto-Oncogene Proteins metabolism, Temperature, Thermodynamics, DNA genetics, DNA Methylation, Epigenesis, Genetic, Oxidative Stress

Abstract

DNA damage can affect various regulatory elements of the genome, with the consequences for DNA structure, dynamics, and interaction with proteins remaining largely unexplored. We used solution NMR spectroscopy, restrained and free molecular dynamics to obtain the structures and investigate dominant motions for a set of DNA duplexes containing CpG sites permuted with combinations of 5-methylcytosine (mC), the primary epigenetic base, and 8-oxoguanine (oxoG), an abundant DNA lesion. Guanine oxidation significantly changed the motion in both hemimethylated and fully methylated DNA, increased base pair breathing, induced BI→BII transition in the backbone 3' to the oxoG and reduced the variability of shift and tilt helical parameters. UV melting experiments corroborated the NMR and molecular dynamics results, showing significant destabilization of all methylated contexts by oxoG. Notably, some dynamic and thermodynamic effects were not additive in the fully methylated oxidized CpG, indicating that the introduced modifications interact with each other. Finally, we show that the presence of oxoG biases the recognition of methylated CpG dinucleotides by ROS1, a plant enzyme involved in epigenetic DNA demethylation, in favor of the oxidized DNA strand. Thus, the conformational and dynamic effects of spurious DNA oxidation in the regulatory CpG dinucleotide can have far-reaching biological consequences.

Published

2018

9. Delayed effects of accelerated heavy ions on the induction of HPRT mutations in V79 hamster cells.

Author

Bláha P, Koshlan NA, Koshlan IV, Petrova DV, Bogdanova YV, Govorun RD, Múčka V, and Krasavin EA

Subjects

Animals, Cell Line, Cricetinae, Cricetulus, Dose-Response Relationship, Radiation, Fibroblasts radiation effects, Genomic Instability radiation effects, Linear Energy Transfer, Gamma Rays, Heavy Ions adverse effects, Hypoxanthine Phosphoribosyltransferase genetics, Mutation

Abstract

Fundamental research on the harmful effects of ionizing radiation on living cells continues to be of great interest. Recently, priority has been given to the study of high-charge and high-energy (HZE) ions that comprise a substantial part of the galactic cosmic ray (GCR) spectra that would be encountered during long-term space flights. Moreover, predictions of the delayed genetic effects of high linear energy transfer (LET) exposure is becoming more important as heavy ion therapy use is increasing. This work focuses mainly on the basic research on the delayed effects of HZE ions on V79 Chinese hamster cells, with emphasis on the induction of HPRT mutations after prolonged expression times (ET). The research was conducted under various irradiation conditions with accelerated ions 18 O (E=35.2MeV/n), 20 Ne (E=47.7MeV/n and 51.8MeV/n), and 11 B (E=32.4MeV/n), with LET in the range from 49 to 149 keV/μm and with 60 Co γ-rays. The HPRT mutant fractions (MF) were detected in irradiated cells in regular intervals during every cell culture recultivation (every 3days) up to approximately 40days (70-80 generations) after irradiation. The MF maximum was reached at different ET depending on ionizing radiation characteristics. The position of the maximum was shifting towards longer ET with increasing LET. We speculate that the delayed mutations are created de novo and that they are the manifestation of genomic instability. Although the exact mechanisms involved in genomic instability initiation are yet to be identified, we hypothesize that differences in induction of delayed mutations by radiations with various LET values are related to variations in energy deposition along the particle track. A dose dependence of mutation yield is discussed as well., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

10. Immune Cell Subsets Evaluation as a Predictive Tool for Hepatitis B Infection Outcome and Treatment Responsiveness.

Author

Kandilarova SM, Georgieva AI, Mihaylova AP, Baleva MP, Atanasova VK, Petrova DV, Popov GT, and Naumova EJ

Subjects

Acute Disease, Adolescent, Adult, Aged, Antiviral Agents therapeutic use, Case-Control Studies, Disease Progression, Female, Flow Cytometry, Hepatitis B immunology, Hepatitis B, Chronic drug therapy, Humans, Immunophenotyping, Interferon-alpha therapeutic use, Male, Middle Aged, Natural Killer T-Cells immunology, Polyethylene Glycols therapeutic use, Recombinant Proteins therapeutic use, Remission, Spontaneous, T-Lymphocytes, Cytotoxic immunology, T-Lymphocytes, Helper-Inducer immunology, Treatment Outcome, Young Adult, B-Lymphocyte Subsets immunology, Hepatitis B, Chronic immunology, T-Lymphocyte Subsets immunology

Abstract

Background: The patient's immune response is one of the major factors influencing HBV eradication or chronification, and it is thought to be responsible for the treatment success., Aim: Our study aimed to investigate whether cellular defense mechanisms are associated with the course of HBV infection (spontaneous recovery [SR] or chronification [CHB]) and with the therapeutic approach., Patients and Methods: A total of 139 patients (118 with CHB, 21 SR) and 29 healthy individuals (HI) were immunophenotyped by flowcytometry. Fifty-six patients were treatment-naïve, 20 were treated with interferons and 42 with nucleoside/ nucleotide analogues., Results: Deficiency of T lymphocytes, helper-inducer (CD3+CD4+), suppressorcytotoxic (CD8+CD3+) and cytotoxic (CD8+CD11b-, CD8+CD28+) subsets, activated T cells (CD3+HLA-DR+, CD8+CD38+) and increased CD57+CD8- cells, elevated percentages of B lymphocytes and NKT cells were observed in CHB patients compared with HI. In SR patients, elevated CD8+CD11b+, NKT and activated T cells were found in comparison with controls. The higher values of T cells and their subsets in SR patients than in CHB patients reflect a recovery of cellular immunity in resolved HBV infection individuals. In both groups of treated patients, reduced T lymphocytes, CD3+CD4+ and CD8+CD38+ subsets were found in comparison with HI. Higher proportions of cytotoxic subsets were observed in treated patients compared with treatment-naïve CHB patients, more pronounced in the group with interferon therapy., Conclusion: Our data demonstrate that cellular immune profiles may be of prognostic value in predicting the clinical course of HBV infection, and the determination of the therapeutic response.

Published

2017

11. 8-Oxoguanine Affects DNA Backbone Conformation in the EcoRI Recognition Site and Inhibits Its Cleavage by the Enzyme.

Author

Hoppins JJ, Gruber DR, Miears HL, Kiryutin AS, Kasymov RD, Petrova DV, Endutkin AV, Popov AV, Yurkovskaya AV, Fedechkin SO, Brockerman JA, Zharkov DO, and Smirnov SL

Subjects

Base Sequence, Binding Sites, DNA chemistry, DNA Cleavage, DNA Damage, Guanine chemistry, Guanine metabolism, Kinetics, Magnetic Resonance Spectroscopy, Molecular Dynamics Simulation, Nucleic Acid Conformation, Protein Structure, Tertiary, Substrate Specificity, DNA metabolism, Deoxyribonuclease EcoRI metabolism, Guanine analogs & derivatives

Abstract

8-oxoguanine is one of the most abundant and impactful oxidative DNA lesions. However, the reasons underlying its effects, especially those not directly explained by the altered base pairing ability, are poorly understood. We report the effect of the lesion on the action of EcoRI, a widely used restriction endonuclease. Introduction of 8-oxoguanine inside, or adjacent to, the GAATTC recognition site embedded within the Drew-Dickerson dodecamer sequence notably reduced the EcoRI activity. Solution NMR revealed that 8-oxoguanine in the DNA duplex causes substantial alterations in the sugar-phosphate backbone conformation, inducing a BI→BII transition. Moreover, molecular dynamics of the complex suggested that 8-oxoguanine, although does not disrupt the sequence-specific contacts formed by the enzyme with DNA, shifts the distribution of BI/BII backbone conformers. Based on our data, we propose that the disruption of enzymatic cleavage can be linked with the altered backbone conformation and dynamics in the free oxidized DNA substrate and, possibly, at the protein-DNA interface., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

12. [Clinical features of systemic scleroderma with lesions in respiratory organs].

Author

Petrova DV, Shoĭkhet IaN, Berestov SA, and Dorokhov AE

Subjects

Adult, Anti-Inflammatory Agents, Non-Steroidal therapeutic use, Diagnostic Techniques, Digestive System, Female, Glucocorticoids therapeutic use, Heart Function Tests methods, Humans, Immunosuppressive Agents therapeutic use, Lung physiopathology, Male, Middle Aged, Monitoring, Immunologic, Radiography, Respiratory Function Tests methods, Retrospective Studies, Lung Diseases, Interstitial diagnostic imaging, Lung Diseases, Interstitial etiology, Scleroderma, Systemic blood, Scleroderma, Systemic complications, Scleroderma, Systemic diagnosis, Scleroderma, Systemic drug therapy, Scleroderma, Systemic physiopathology

Abstract

This retrospective study included 64 patients divided into 2 groups. Group 1 was comprised of 34 patients with systemic scleroderma and signs of interstitial lung lesions (X-ray diagnostics), the control group included 30 patients with scleroderma alone. They were examined by general clinical, biochemical and immunological methods, ECG, Echo-CG, capillaroscopy, standard chest X-ray, spirometry, ultrasound studies of internal organs, oesophageal, gastric and duodenal endoscopy. It was shown that systemic scleroderma with signs of interstitial lung lesions is more frequently accompanied by clinical (cough, dyspnea, bilateral inspirational crepitation) and functional (reduced lung vital capacity) pulmonary disorders. Also, these patients have "pursed mouth" appearance, their skeletal muscles and blood circulatory system are involved in the pathological process which accounts for arterial hypertension and mitral valve sclerosis (Echo-CG), reduced hemoglobin level hypergammaglobilinemia, IgA variations, and leukocyturia.

Published

2013

13. Chronic hepatitis C virus infection: prevalence of extrahepatic manifestations and association with cryoglobulinemia in Bulgarian patients.

Author

Stefanova-Petrova DV, Tzvetanska AH, Naumova EJ, Mihailova AP, Hadjiev EA, Dikova RP, Vukov MI, and Tchernev KG

Subjects

Adult, Aged, Aged, 80 and over, Bulgaria epidemiology, Cryoglobulinemia diagnosis, Female, Humans, Liver Cirrhosis diagnosis, Liver Cirrhosis epidemiology, Liver Cirrhosis virology, Logistic Models, Lymphoma, B-Cell diagnosis, Lymphoma, B-Cell epidemiology, Lymphoma, B-Cell virology, Lymphoproliferative Disorders diagnosis, Male, Middle Aged, Prevalence, Retrospective Studies, Cryoglobulinemia epidemiology, Cryoglobulinemia virology, Hepatitis C, Chronic complications, Lymphoproliferative Disorders epidemiology, Lymphoproliferative Disorders virology

Abstract

Aim: To assess the prevalence of extrahepatic manifestations in Bulgarian patients with chronic hepatitis C virus (HCV) infection and identify the clinical and biological manifestations associated with cryoglobulinemia., Methods: The medical records of 136 chronically infected HCV patients were reviewed to assess the prevalence of extrahepatic manifestations. Association between cryoglobulin-positivity and other manifestations were identified using chi2 and Fisher's exact test. Risk factors for the presence of extrahepatic manifestations were assessed by logistic regression analysis., Results: Seventy six percent (104/136) of the patients had at least one extrahepatic manifestation. Clinical manifestations included fatigue (59.6%), kidney impairment (25.0%), type 2 diabetes (22.8%), paresthesia (19.9%), arthralgia (18.4%), palpable purpura (17.6%), lymphadenopathy (16.2%), pulmonary fibrosis (15.4%), thyroid dysfunction (14.7%), Raynaud's phenomenon (11.8%), B-cell lymphoma (8.8%), sicca syndrome (6.6%), and lichen planus (5.9%). The biological manifestations included cryoglobulin production (37.5%), thrombocytopenia (31.6%), and autoantibodies: anti-nuclear (18.4%), anti-smooth muscle (16.9%), anti-neutrophil cytoplasm (13.2%) and anti-cardiolipin (8.8%). All extrahepatic manifestations showed an association with cryoglobulin-positivity, with the exception of thyroid dysfunction, sicca syndrome, and lichen planus. Risks factors for the presence of extrahepatic manifestations (univariate analysis) were: age > or = 60 years, female gender, virus transmission by blood transfusions, longstanding infection (> or = 20 years), and extensive liver fibrosis. The most significant risks factors (multivariate analysis) were longstanding infection and extensive liver fibrosis., Conclusion: We observed a high prevalence of extrahepatic manifestations in patients with chronic HCV infection. Most of these manifestations were associated with impaired lymphoproliferation and cryoglobulin production. Longstanding infection and extensive liver fibrosis were significant risk factors for the presence of extrahepatic manifestations in HCV patients.

Published

2007