Sergey Sikora scite author profile

Mosquito-borne WNV (West Nile virus) is an emerging global threat. The NS3 proteinase, which is essential for the proteolytic processing of the viral polyprotein precursor, is a promising drug target. We have isolated and biochemically characterized the recombinant, highly active NS3 proteinase. We have determined that the NS3 proteinase functions in a manner that is distantly similar to furin in cleaving the peptide and protein substrates. We determined that aprotinin and D-arginine-based 9-12-mer peptides are potent inhibitors of WNV NS3 with K(i) values of 26 nM and 1 nM respectively. Consistent with the essential role of NS3 activity in the life cycle of WNV and with the sensitivity of NS3 activity to the D-arginine-based peptides, we showed that nona-D-Arg-NH2 reduced WNV infection in primary neurons. We have also shown that myelin basic protein, a deficiency of which is linked to neurological abnormalities of the brain, is sensitive to NS3 proteolysis in vitro and therefore this protein represents a convenient test substrate for the studies of NS3. A three-dimensional model of WNV NS3 that we created may provide a structural guidance and a rationale for the subsequent design of fine-tuned inhibitors. Overall, our findings represent a foundation for in-depth mechanistic and structural studies as well as for the design of novel and efficient inhibitors of WNV NS3.

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Aggregate Risk Score Based on Markers of Inflammation, Cell Stress, and Coagulation Is an Independent Predictor of Adverse Cardiovascular Outcomes

Eapen

Manocha

Patel

et al. 2013

Journal of the American College of Cardiology

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Objectives This study sought to determine an aggregate, pathway-specific risk score for enhanced prediction of death and myocardial infarction (MI). Background Activation of inflammatory, coagulation, and cellular stress pathways contribute to atherosclerotic plaque rupture. We hypothesized that an aggregate risk score comprised of biomarkers involved in these different pathways—high-sensitivity C-reactive protein (CRP), fibrin degradation products (FDP), and heat shock protein 70 (HSP70) levels—would be a powerful predictor of death and MI. Methods Serum levels of CRP, FDP, and HSP70 were measured in 3,415 consecutive patients with suspected or confirmed coronary artery disease (CAD) undergoing cardiac catheterization. Survival analyses were performed with models adjusted for established risk factors. Results Median follow-up was 2.3 years. Hazard ratios (HRs) for all-cause death and MI based on cutpoints were as follows: CRP ≥3.0 mg/l, HR: 1.61; HSP70 >0.625 ng/ml, HR; 2.26; and FDP ≥1.0 μg/ml, HR: 1.62 (p < 0.0001 for all). An aggregate biomarker score between 0 and 3 was calculated based on these cutpoints. Compared with the group with a 0 score, HRs for all-cause death and MI were 1.83, 3.46, and 4.99 for those with scores of 1, 2, and 3, respectively (p for each: <0.001). Annual event rates were 16.3% for the 4.2% of patients with a score of 3 compared with 2.4% in 36.4% of patients with a score of 0. The C statistic and net reclassification improved (p < 0.0001) with the addition of the biomarker score. Conclusions An aggregate score based on serum levels of CRP, FDP, and HSP70 is a predictor of future risk of death and MI in patients with suspected or known CAD.

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Intravenously Delivered Mesenchymal Stem Cells

Luger

Lipinski

Westman

et al. 2017

Circulation Research

143

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Cell-Surface-Associated Tissue Transglutaminase Is a Target of MMP-2 Proteolysis

et al. 2004

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MT1-MMP, a prototypic member of a membrane-type metalloproteinase subfamily, is an invasion promoting protease and an activator of MMP-2. In addition, MT1-MMP proteolysis regulates the functionality of cell-surface adhesion/signaling receptors including tissue transglutaminase (tTG). tTG is known to serve as an adhesion coreceptor for beta1/beta3 integrins and as an enzyme that catalyzes the cross-linking of proteins and the conjugation of polyamines to proteins. Here, we report that MMP-2, functioning in concert with MT1-MMP, hydrolyzes cell-surface-associated tTG, thereby further promoting the effect initiated by the activator of MMP-2. tTG, in return, preferentially associates with the activation intermediate of MMP-2. This event decreases the rate of MMP-2 maturation and protects tTG against proteolysis by MMP-2. Our cell culture, in vitro experiments, and in silico modeling indicate that the catalytic domain of MMP-2 directly associates with the core enzymatic domain II of tTG (the K(d) = 380 nM). The follow-up cleavage of the domain II eliminates both the receptor and the enzymatic activity of tTG. Our data illuminate the coordinated interplay involving the MT1-MMP/MMP-2 protease tandem in the regulation of the cell receptors and explain the underlying biochemical mechanisms of the extensive tTG proteolysis that exists at the normal tissue/tumor boundary. Our findings also suggest that neoplasms, which express functionally active MT1-MMP and, therefore, activate soluble MMP-2, can contribute to the degradation of tTG expressed in neighboring host cells. The loss of adhesive and enzymatic activities of tTG at the interface between tumor and normal tissue will decrease cell-matrix interactions and inhibit matrix cross-linking, causing multiple pathological alterations in host cell adhesion and locomotion.

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Sergey Sikora

Intravenous Allogeneic Mesenchymal Stem Cells for Nonischemic Cardiomyopathy

Cleavage targets and the D-arginine-based inhibitors of the West Nile virus NS3 processing proteinase

Aggregate Risk Score Based on Markers of Inflammation, Cell Stress, and Coagulation Is an Independent Predictor of Adverse Cardiovascular Outcomes

Intravenously Delivered Mesenchymal Stem Cells

Cell-Surface-Associated Tissue Transglutaminase Is a Target of MMP-2 Proteolysis

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