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2. Supplementary Figure 3 from Maspin Expression in Prostate Tumor Cells Averts Stemness and Stratifies Drug Sensitivity

Author

Shijie Sheng, Wael Sakr, Elisabeth Heath, Yong Q. Chen, Ivory Dean, Xiang Han, Eric Van Buren, Jessica B. Back, Benjamin Jakupovic, Adelina Mujagic, Jonathan Irish, Xiaohua Li, Sijana H. Dzinic, Alexander Kaplun, and M. Margarida Bernardo

Abstract

Supplementary Figure 3 - Docetexel and Salinomycin effect on normal prostate cells

Published
2023
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4. Supplementary Figure 4A from Maspin Expression in Prostate Tumor Cells Averts Stemness and Stratifies Drug Sensitivity

Author

Shijie Sheng, Wael Sakr, Elisabeth Heath, Yong Q. Chen, Ivory Dean, Xiang Han, Eric Van Buren, Jessica B. Back, Benjamin Jakupovic, Adelina Mujagic, Jonathan Irish, Xiaohua Li, Sijana H. Dzinic, Alexander Kaplun, and M. Margarida Bernardo

Abstract

Supplementary Figure 4B - Maspin shows no microenvironment dependent effect on prostate cancer cell sensitivity to Rapamycin

Published
2023
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7. A clinically validated whole genome pipeline for structural variant detection and analysis

Author

Alexander Kaplun, Shira Modai, Tzipora C. Falik-Zaccai, Naomi Meeks, Gregory Faust, Nir Neerman, and Limor Kalfon

Subjects
Break point, 0106 biological sciences, lcsh:QH426-470, Duplication, lcsh:Biotechnology, CNV, Population, Computational biology, Genome browser, Biology, 01 natural sciences, Genome, Deletion, 03 medical and health sciences, Gene Frequency, lcsh:TP248.13-248.65, Pipeline, Genetics, False positive paradox, Humans, education, Allele frequency, 030304 developmental biology, Whole genome sequencing, 0303 health sciences, education.field_of_study, Whole Genome Sequencing, Research, Breakpoint, Genetic Variation, Reproducibility of Results, Molecular Sequence Annotation, Clinical validation, lcsh:Genetics, Phenotype, Diagnostic console, DNA microarray, Structural variants, WGS, 010606 plant biology & botany, Biotechnology
Abstract

Background With the continuing decrease in cost of whole genome sequencing (WGS), we have already approached the point of inflection where WGS testing has become economically feasible, facilitating broader access to the benefits that are helping to define WGS as the new diagnostic standard. WGS provides unique opportunities for detection of structural variants; however, such analyses, despite being recognized by the research community, have not previously made their way into routine clinical practice. Results We have developed a clinically validated pipeline for highly specific and sensitive detection of structural variants basing on 30X PCR-free WGS. Using a combination of breakpoint analysis of split and discordant reads, and read depth analysis, the pipeline identifies structural variants down to single base pair resolution. False positives are minimized using calculations for loss of heterozygosity and bi-modal heterozygous variant allele frequencies to enhance heterozygous deletion and duplication detection respectively. Compound and potential compound combinations of structural variants and small sequence changes are automatically detected. To facilitate clinical interpretation, identified variants are annotated with phenotype information derived from HGMD Professional and population allele frequencies derived from public and Variantyx allele frequency databases. Single base pair resolution enables easy visual inspection of potentially causal variants using the IGV genome browser as well as easy biochemical validation via PCR. Analytical and clinical sensitivity and specificity of the pipeline has been validated using analysis of Genome in a Bottle reference genomes and known positive samples confirmed by orthogonal sequencing technologies. Conclusion Consistent read depth of PCR-free WGS enables reliable detection of structural variants of any size. Annotation both on gene and variant level allows clinicians to match reported patient phenotype with detected variants and confidently report causative finding in all clinical cases used for validation. Electronic supplementary material The online version of this article (10.1186/s12864-019-5866-z) contains supplementary material, which is available to authorized users.

Published
2019
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8. PGMD: a comprehensive manually curated pharmacogenomic database

Author

A P Peter, F Schacherer, Rohan Mallelwar, M G Nitu, S Krishna, Alexander Kaplun, J D Hogan, Adem Albayrak, R Nambudiry, and B R Braun

Subjects
0301 basic medicine, Databases, Factual, Single-nucleotide polymorphism, Context (language use), Biology, computer.software_genre, Pharmacogenomic Variants, 03 medical and health sciences, Databases, Genetic, Genetics, Pharmacokinetics, Copy-number variation, Pharmacological Phenomena, Pharmacology, Database, Haplotype, Variable number tandem repeat, 030104 developmental biology, Pharmacogenetics, Pharmacogenomics, Mutation, Molecular Medicine, Original Article, computer
Abstract

The PharmacoGenomic Mutation Database (PGMD) is a comprehensive manually curated pharmacogenomics database. Two major sources of PGMD data are peer-reviewed literature and Food and Drug Administration (FDA) and European Medicines Agency (EMA) drug labels. PGMD curators capture information on exact genomic location and sequence changes, on resulting phenotype, drugs administered, patient population, study design, disease context, statistical significance and other properties of reported pharmacogenomic variants. Variants are annotated into functional categories on the basis of their influence on pharmacokinetics, pharmacodynamics, efficacy or clinical outcome. The current release of PGMD includes over 117 000 unique pharmacogenomic observations, covering all 24 disease superclasses and nearly 1400 drugs. Over 2800 genes have associated pharmacogenomic variants, including genes in proximity to intergenic variants. PGMD is optimized for use in annotating next-generation sequencing data by providing genomic coordinates for all covered variants, including Single Nucleotide Polymorphisms (SNPs), insertions, deletions, haplotypes, diplotypes, Variable Number Tandem Repeats (VNTR), copy number variations and structural variations.

Published
2015
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9. MEK-1 activates C-Raf through a Ras-independent mechanism

Author

Deborah T. Leicht, Ajay Rana, Agnieszka Bronisz, Jun Zhu, Guri Tzivion, Alexander Kaplun, and Vitaly Balan

Subjects
MAPK/ERK pathway, MAP Kinase Signaling System, MAP Kinase Kinase 1, Down-Regulation, Mitogen-activated protein kinase kinase, Article, Proto-Oncogene Proteins p21(ras), 03 medical and health sciences, 0302 clinical medicine, Chlorocebus aethiops, Animals, Humans, c-Raf, Phosphorylation, Protein kinase A, Molecular Biology, 030304 developmental biology, Mitogen-Activated Protein Kinase Kinases, 0303 health sciences, Mitogen-Activated Protein Kinase 3, Chemistry, Kinase, Raf, Cell Biology, MAPK, MEK, Protein Structure, Tertiary, Cell biology, Proto-Oncogene Proteins c-raf, ERK, 030220 oncology & carcinogenesis, COS Cells, Mutation, Cancer research, Signal transduction, Cell Division, Ras
Abstract

C-Raf is a member of the Ras–Raf–MEK–ERK mitogen-activated protein kinase (MAPK) signaling pathway that plays key roles in diverse physiological processes and is upregulated in many human cancers. C-Raf activation involves binding to Ras, increased phosphorylation and interactions with co-factors. Here, we describe a Ras-independent in vivo pathway for C-Raf activation by its downstream target MEK. Using 32P-metabolic labeling and 2D-phosphopeptide mapping experiments, we show that MEK increases C-Raf phosphorylation by up-to 10-fold. This increase was associated with C-Raf kinase activation, matching the activity seen with growth factor stimulation. Consequently, coexpression of wildtype C-Raf and MEK was sufficient for full and constitutive activation of ERK. Notably, the ability of MEK to activate C-Raf was completely Ras independent, since mutants impaired in Ras binding that are irresponsive to growth factors or Ras were fully activated by MEK. The ability of MEK to activate C-Raf was only partially dependent on MEK kinase activity but required MEK binding to C-Raf, suggesting that the binding results in a conformational change that increases C-Raf susceptibility to phosphorylation and activation or in the stabilization of the phosphorylated-active form. These findings propose a novel Ras-independent mechanism for activating the C-Raf and the MAPK pathway without the need for mutations in the pathway. This mechanism could be of significance in pathological conditions or cancers overexpressing C-Raf and MEK or in conditions where C-Raf–MEK interaction is enhanced due to the down-regulation of RKIP and MST2.

Published
2013
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10. HDAC1 Inhibition by Maspin Abrogates Epigenetic Silencing of Glutathione S-Transferase Pi in Prostate Carcinoma Cells

Author

Wael Sakr, Fazlul H. Sarkar, Shijie Sheng, Alexander Kaplun, Fulvio Lonardo, Xiaohua Li, Jonathan C. Irish, and Elisabeth I. Heath

Subjects
Male, Cancer Research, Methyltransferase, Cell Survival, Bisulfite sequencing, Histone Deacetylase 1, Hydroxamic Acids, Article, DU145, Cell Line, Tumor, LNCaP, Humans, Gene Silencing, Molecular Biology, Serpins, Vorinostat, biology, Carcinoma, Maspin, Prostatic Neoplasms, Molecular biology, Histone Deacetylase Inhibitors, Histone, Glutathione S-Transferase pi, Oncology, DNA methylation, biology.protein, Cancer research, Histone deacetylase
Abstract

Both maspin and glutathione S-transferase pi (GSTp) are implicated as tumor suppressors and downregulated in human prostate cancer. It is well established that GSTp downregulation is through DNA methylation–based silencing. We report here that maspin expression in prostate cancer cell line DU145 reversed GSTp DNA methylation, as measured by methylation- specific PCR, MethyLight assay, and bisulfite sequencing. The effect of maspin on GSTp expression was similar to that of the combination of a synthetic histone deacetylase (HDAC) inhibitor and DNA methylation inhibitor 5-aza-2′-deoxycytidine. Maspin expression also led to an increased level of acetylated histone 3, decreased level of methyl transferase, and methyl-CpG–binding domain proteins at the site of demethylated GSTp promoter DNA. Earlier, we have shown that maspin inhibits HDAC1. In PC3 cells, where both maspin and GSTp are expressed at a reduced level, maspin knockdown led to a significant reduction in GSTp expression, whereas dual knockdown of maspin and HDAC1 barely increased the level of GSTp expression. Thus, HDAC1 may play an essential role in cellular response to maspin-mediated GSTp desilencing. Maspin has been shown to increase tumor cell sensitivity to drug-induced apoptosis. Interestingly, GSTp reexpression in the absence of maspin expression perturbation blocked the phosphorylation of histone 2A.X, the induction of hypoxia-induced factor 1α (HIF-1α), and cell death of LNCaP cells under oxidative stress. Because DNA hypermethylation–based silencing may couple with and depend on histone deacetylation, our study suggests that endogenous HDAC inhibition by maspin may prevent pathologic gene silencing in prostate tumor progression. Mol Cancer Res; 9(6); 733–45. ©2011 AACR.

Published
2011
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11. The Continuous-Time Ehrenfest Process in Term Structure Modelling

Author

Alexander Kaplun

Subjects
Statistics and Probability, Vasicek model, Interest rate derivative, General Mathematics, Structure (category theory), Term (time), Zero-coupon bond, Probability theory, Short rate, Statistical physics, Ehrenfest model, Statistics, Probability and Uncertainty, Mathematical economics, Mathematics
Abstract

In this paper, a finite-state mean-reverting model for the short rate, based on the continuous-time Ehrenfest process, will be examined. Two explicit pricing formulae for zero-coupon bonds will be derived in the general and special symmetric cases. Its limiting relationship to the Vasicek model will be examined with some numerical results.

Published
2010
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12. Life Span Extension and Neuronal Cell Protection by Drosophila Nicotinamidase

Author

Robert Arking, Guri Tzivion, Karina Balan, D. Carl Freeman, Gregory S. Miller, Kenneth Maiese, Vitaly Balan, Alexander Kaplun, Zhao Zhong Chong, Faqi Li, Ludmila Kaplun, and Mark F A VanBerkum

Subjects
Transcription, Genetic, Cell Survival, Longevity, Saccharomyces cerevisiae, Cell, Calorie restriction, Models, Biological, Biochemistry, Histone Deacetylases, Phosphatidylinositol 3-Kinases, Molecular Basis of Cell and Developmental Biology, Osmotic Pressure, Chlorocebus aethiops, medicine, Animals, Drosophila Proteins, Humans, Sirtuins, Heat shock, Molecular Biology, Caloric Restriction, Neurons, biology, Schneider 2 cells, Cell Biology, biology.organism_classification, Nicotinamidase, Oxidative Stress, Drosophila melanogaster, medicine.anatomical_structure, COS Cells, Mutation, Heat-Shock Response, Drosophila Protein
Abstract

The life span of model organisms can be modulated by environmental conditions that influence cellular metabolism, oxidation, or DNA integrity. The yeast nicotinamidase gene pnc1 was identified as a key transcriptional target and mediator of calorie restriction and stress-induced life span extension. PNC1 is thought to exert its effect on yeast life span by modulating cellular nicotinamide and NAD levels, resulting in increased activity of Sir2 family class III histone deacetylases. In Caenorhabditis elegans, knockdown of a pnc1 homolog was shown recently to shorten the worm life span, whereas its overexpression increased survival under conditions of oxidative stress. The function and regulation of nicotinamidases in higher organisms has not been determined. Here, we report the identification and biochemical characterization of the Drosophila nicotinamidase, D-NAAM, and demonstrate that its overexpression significantly increases median and maximal fly life span. The life span extension was reversed in Sir2 mutant flies, suggesting Sir2 dependence. Testing for physiological effectors of D-NAAM in Drosophila S2 cells, we identified oxidative stress as a primary regulator, both at the transcription level and protein activity. In contrast to the yeast model, stress factors such as high osmolarity and heat shock, calorie restriction, or inhibitors of TOR and phosphatidylinositol 3-kinase pathways do not appear to regulate D-NAAM in S2 cells. Interestingly, the expression of D-NAAM in human neuronal cells conferred protection from oxidative stress-induced cell death in a sirtuin-dependent manner. Together, our findings establish a life span extending the ability of nicotinamidase in flies and offer a role for nicotinamide-modulating genes in oxidative stress regulated pathways influencing longevity and neuronal cell survival.

Published
2008
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13. Interaction of the globular domain of human C1q with Salmonella typhimurium lipopolysaccharide

Author

Mihaela Gadjeva, Uday Kishore, Shweta Rabheru, Krustyo T. Popov, Roshni Thakrar, Svetlana Bureeva, Lubka T. Roumenina, Alexander Kaplun, and Mihaela S. Kojouharova

Subjects
Lipopolysaccharides, Salmonella typhimurium, Lipopolysaccharide, Recombinant Fusion Proteins, Biophysics, chemical and pharmacologic phenomena, In Vitro Techniques, Biology, Biochemistry, Analytical Chemistry, law.invention, Classical complement pathway, chemistry.chemical_compound, Protein structure, immune system diseases, law, Humans, Binding site, Complement Activation, Molecular Biology, Complement C1q, Binding Sites, Mutagenesis, Triterpenes, Protein Structure, Tertiary, Complement system, Kinetics, chemistry, Immunoglobulin G, Mutagenesis, Site-Directed, Recombinant DNA, Calcium
Abstract

Gram-negative bacteria can bind complement protein C1q in an antibody-independent manner and activate classical pathway via their lipopolysaccharides (LPS). Earlier studies have implicated the collagen-like region of human C1q in binding LPS. In recent years, a number of C1q target molecules, previously considered to interact with collagen-like region of C1q, have been shown to bind via the globular domain (gC1q). Here we report, using recombinant forms of the globular head regions of C1q A, B and C chains, that LPS derived from Salmonella typhimurium interact specifically with the B-chain of the gC1q domain in a calcium-dependent manner. LPS and IgG-binding sites on the gC1q domain appear to be overlapping and this interaction can be inhibited by a synthetic C1q inhibitor, suggesting common interacting mechanisms.

Published
2008
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14. Glyoxylate carboligase lacks the canonical active site glutamate of thiamine-dependent enzymes

Author

Kai Tittmann, Maria Vyazmensky, Andrea Steinmetz, Elad Binshtein, David M. Chipman, Alexander Kaplun, Ze'ev Barak, and Boaz Shaanan

Subjects
Models, Molecular, Carboxy-Lyases, Carboxylic Acids, Crystallography, X-Ray, Phosphates, chemistry.chemical_compound, Glutamates, Escherichia coli, Thiamine, Molecular Biology, chemistry.chemical_classification, Binding Sites, biology, Chemistry, Circular Dichroism, Glutamate receptor, food and beverages, RNA, Active site, Valine, Cell Biology, Lyase, Protein Structure, Tertiary, Kinetics, Thiazoles, Enzyme, Biochemistry, Mutation, biology.protein, Signal transduction, human activities, DNA
Abstract

Thiamine diphosphate (ThDP), a derivative of vitamin B1, is an enzymatic cofactor whose special chemical properties allow it to play critical mechanistic roles in a number of essential metabolic enzymes. It has been assumed that all ThDP-dependent enzymes exploit a polar interaction between a strictly conserved glutamate and the N1' of the ThDP moiety. The crystal structure of glyoxylate carboligase challenges this paradigm by revealing that valine replaces the conserved glutamate. Through kinetic, spectroscopic and site-directed mutagenesis studies, we show that although this extreme change lowers the rate of the initial step of the enzymatic reaction, it ensures efficient progress through subsequent steps. Glyoxylate carboligase thus provides a unique illustration of the fine tuning between catalytic stages imposed during evolution on enzymes catalyzing multistep processes.

Published
2008
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15. Raf kinases: Function, regulation and role in human cancer

Author

Guri Tzivion, Vitaly Balan, Melissa Dobson, Vinita Singh-Gupta, Alexander Kaplun, Deborah T. Leicht, and Ludmila Kaplun

Subjects
MAPK/ERK pathway, Cellular differentiation, Molecular Sequence Data, Apoptosis, Mice, Transgenic, Biology, Models, Biological, Article, Mice, Neoplasms, medicine, Animals, Humans, Amino Acid Sequence, Phosphorylation, Molecular Biology, Cells, Cultured, Cancer, Mice, Knockout, Sequence Homology, Amino Acid, Cell growth, Kinase, Cell Differentiation, Oncogenes, Raf, Cell Biology, Cell cycle, medicine.disease, Invertebrates, MAPK, Cell biology, Mitogen-activated protein kinase, biology.protein, raf Kinases, Signal transduction, Signal Transduction, Ras
Abstract

The Ras-Raf-MAPK pathway regulates diverse physiological processes by transmitting signals from membrane based receptors to various nuclear, cytoplasmic and membrane-bound targets, coordinating a large variety of cellular responses. Function of Raf family kinases has been shown to play a role during organism development, cell cycle regulation, cell proliferation and differentiation, cell survival and apoptosis and many other cellular and physiological processes. Aberrations along the Ras-Raf-MAPK pathway play an integral role in various biological processes concerning human health and disease. Overexpression or activation of the pathway components is a common indicator in proliferative diseases such as cancer and contributes to tumor initiation, progression and metastasis. In this review, we focus on the physiological roles of Raf kinases in normal and disease conditions, specifically cancer, and the current thoughts on Raf regulation.

Published
2007
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16. Selective inhibition of the interaction of C1q with immunoglobulins and the classical pathway of complement activation by steroids and triterpenoids sulfates

Author

Vladimir I. Popenko, Anna M. Bichucher, Svetlana Bureeva, Vera Moskaleva, Leonid V. Kozlov, Andrey Symon, Alexey V. Shpak, Alexander Kaplun, Vitaly Shvets, and Julian Andia-Pravdivy

Subjects
Magnetic Resonance Spectroscopy, medicine.medical_treatment, Guinea Pigs, Clinical Biochemistry, Molecular Conformation, Immunoglobulins, Pharmaceutical Science, In Vitro Techniques, Hemolysis, Biochemistry, Steroid, chemistry.chemical_compound, Classical complement pathway, Betulinic acid, Drug Discovery, medicine, Animals, Humans, Complement Pathway, Classical, Molecular Biology, Complement C1q, Sheep, Betulin, Pentraxins, biology, Organic Chemistry, Triterpenes, Complement system, Microscopy, Electron, chemistry, biology.protein, Alternative complement pathway, Molecular Medicine, Indicators and Reagents, Steroids
Abstract

Since undesirable activation of the complement system through the classical pathway is associated with tissue damage and other pathologic proinflammatory consequences at ischemia/reperfusion injury, autoimmune diseases, and rejection of allo- and xenografts, creation of selective inhibitors of the classical pathway leaving the alternative pathway intact is of great importance. Classical pathway is triggered by binding of its recognizing unit, protein C1q, to a number of targets like antibodies, pentraxins, apoptotic cells, and others. In order to obtain inhibitors blocking the first step of the classical cascade, synthesis of sulfates of steroids (Delta(5)-3beta-hydroxycholenic, Delta(5)-3beta-hydroxyetiocholenic, deoxycholic, and cholic acids) and triterpenoids (betulin, 20,29-dihydro-20,29-dichloromethylenbetulin, betulinic, ursolic, and oleanolic acids) has been performed. Testing of the compounds in classical pathway inhibition assay has displayed derivatives of triterpenoid betulin (betulin disulfate and betulinic acid sulfate) to be the most potent inhibitors. Further studies of the two compounds established that their activity to inhibit the classical pathway had been due to their capability to block the interaction of C1q with antibodies. Betulin disulfate and betulinic acid sulfate have shown weak inhibition of the alternative route of activation, what makes them promising inhibitors for the selective suppression of the classical complement pathway at the earliest possible level as well as perspective agents for blocking the interaction of C1q with its other targets.

Published
2007
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17. Distinct activities of the related protein kinases Cdk1 and Ime2

Author

Guri Tzivion, Kara E. Sawarynski, Alexander Kaplun, and George S. Brush

Subjects
Saccharomyces cerevisiae Proteins, Replication protein A, Cell Cycle Proteins, Saccharomyces cerevisiae, Protein Serine-Threonine Kinases, Article, Sic1, Cyclin-dependent kinase, CDC2 Protein Kinase, Phosphorylation, Protein kinase A, Molecular Biology, Cyclin-Dependent Kinase Inhibitor Proteins, Cyclin-dependent kinase 1, biology, Kinase, G1 cyclin, Intracellular Signaling Peptides and Proteins, Cell Biology, Cell biology, Meiosis, Biochemistry, Mutation, biology.protein, biological phenomena, cell phenomena, and immunity, Protein Kinases, Cyclin-dependent kinase inhibitor protein
Abstract

In budding yeast, commitment to DNA replication during the normal cell cycle requires degradation of the cyclin-dependent kinase (CDK) inhibitor Sic1. The G1 cyclin–CDK complexes Cln1–Cdk1 and Cln2–Cdk1 initiate the process of Sic1 removal by directly catalyzing Sic1 phosphorylation at multiple sites. Commitment to DNA replication during meiosis also appears to require Sic1 degradation, but the G1 cyclin–CDK complexes are not involved. It has been proposed that the meiosis-specific protein kinase Ime2 functionally replaces the G1 cyclin–CDK complexes to promote Sic1 destruction. To investigate this possibility, we compared Cln2–Cdk1 and Ime2 protein kinase activities in vitro. Both enzyme preparations were capable of catalyzing phosphorylation of a GST–Sic1 fusion protein, but the phosphoisomers generated by the two activities had significantly different electrophoretic mobilities. Furthermore, mutation of consensus CDK phosphorylation sites in Sic1 affected Cln2–Cdk1- but not Ime2-dependent phosphorylation. Phosphoamino acid analysis and phosphopeptide mapping provided additional evidence that Cln2–Cdk1 and Ime2 targeted different residues within Sic1. Examination of other substrates both in vitro and in vivo also revealed differing specificities. These results indicate that Ime2 does not simply replace G1 cyclin–CDK complexes in promoting Sic1 degradation during meiosis.

Published
2007
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18. Complement C1q-target proteins recognition is inhibited by electric moment effectors

Author

Alexander A. Kantardjiev, David Karlinsky, Robert B. Sim, Michael Popov, Svetlana Bureeva, Lubka T. Roumenina, Alexander Kaplun, Boris P. Atanasov, Uday Kishore, and Julian Andia-Pravdivy

Subjects
Models, Molecular, Stereochemistry, Static Electricity, Enzyme-Linked Immunosorbent Assay, Crystallography, X-Ray, Substrate Specificity, Inhibitory Concentration 50, Classical complement pathway, Structural Biology, Humans, Molecular Biology, Complement C1q, Pentraxins, biology, Sulfates, Effector, Chemistry, PTX3, Hydrogen-Ion Concentration, Recombinant Proteins, Protein Structure, Tertiary, Complement system, Serum Amyloid P-Component, Dipole, C-Reactive Protein, Docking (molecular), Immunoglobulin G, biology.protein, Biophysics, Thermodynamics, Protein Binding
Abstract

Classical complement pathway is an important innate immune mechanism, which is usually triggered by binding of C1q to immunoglobulins, pentraxins and other target molecules. Although the activation of the classical pathway is crucial in the host defence, its undesirable and uncontrolled activation can lead to tissue damage. Thus, understanding the molecular basis of complement activation and its inhibition are of great biomedical importance. Recently, we proposed a mechanism for target recognition and classical pathway activation by C1q, which is likely governed by calcium-controlled reorientation of macromolecular electric moment vectors. Here we sought to define the mechanism of C1q inhibition by low molecular weight disulphate compounds that bind to the globular (gC1q) domain, using experimental, computational docking and theoretical modelling approaches. Our experimental results demonstrate that betulin disulphate (B2S) and 9,9-bis(4'-hydroxyphenyl)fluorene disulphate (F2S) inhibit the interaction of C1q and its recombinant globular modules with target molecules IgG1, C-reactive protein (CRP) and long pentraxin 3 (PTX3). In most C1q-inhibitor docked complexes, there is a reduction of electric moment scalar values and similarly altered direction of electric/dipole moment vectors. This could explain the inhibitory effect by impaired electrostatic steering, lacking optimal target recognition and formation of functional complex. In the presence of the inhibitor, the tilt of gC1q domains is likely to be blocked by the altered direction of the electric moment vector. Thus, the transition from the inactive (closed) towards the active (open) conformation of C1q (i.e. the complement activation signal transmission) will be impaired and the cascade initiation disrupted. These results could serve as a starting point for the exploration of a new form of ‘electric moment inhibitors/effectors’. Copyright © 2007 John Wiley & Sons, Ltd.

Published
2007
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19. Acetohydroxyacid synthase isozyme I from Escherichia coli has unique catalytic and regulatory properties

Author

Stanislav Engel, Ze'ev Barak, David M. Chipman, Maria Vyazmensky, Olga Kryukov, Alexander Kaplun, Valerie Vinogradov, and Inna Belenky

Subjects
Oxygenase, Allosteric regulation, Biophysics, Biology, medicine.disease_cause, Biochemistry, Isozyme, Catalysis, Acetone, Isomerism, Valine, Escherichia coli, medicine, Cloning, Molecular, Molecular Biology, health care economics and organizations, Feedback, Physiological, chemistry.chemical_classification, Escherichia coli Proteins, Substrate (chemistry), Isoenzymes, Acetolactate Synthase, Kinetics, Enzyme, chemistry
Abstract

AHAS I is an isozyme of acetohydroxyacid synthase which is apparently unique to enterobacteria. It has been known for over 20 years that it has many properties which are quite different from those of the other two enterobacterial AHASs isozymes, as well as from those of "typical" AHASs which are single enzymes in a given organism. These include a unique mechanism for regulation of expression and the absence of a preference for forming acetohydroxybutyrate. We have cloned the two subunits, ilvB and ilvN, of this Escherichia coli isoenzyme and examined the enzymatic properties of the purified holoenzyme and the enzyme reconstituted from purified subunits. Unlike other AHASs, AHAS I demonstrates cooperative feedback inhibition by valine, and the kinetics fit closely to an exclusive binding model. The formation of acetolactate by AHAS I is readily reversible and acetolactate can act as substrate for alternative AHAS I-catalyzed reactions.

Published
2006
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20. Drug design using the example of the complement system inhibitors' development

Author

Alexander Kaplun, Julian Andia-Pravdivy, and Svetlana Bureeva

Subjects
Drug, media_common.quotation_subject, Quantitative Structure-Activity Relationship, Disease, Ligands, Biological Factors, Immune system, Peptide Library, Drug Discovery, Animals, Humans, Medicine, Pharmaceutical sciences, media_common, Pharmacology, Molecular Structure, biology, business.industry, Drug discovery, Antibodies, Monoclonal, Complement System Proteins, Recombinant Proteins, Complement system, Complement (complexity), Drug Design, Immunology, biology.protein, Antibody, business
Abstract

Undesired activation of the complement system, a part of the immune system, is a major pathogenic factor contributing to various diseases, such as ischemia-reperfusion injury, sepsis, asthma, allergic reactions, rheumatoid arthritis, Alzheimer's disease, myasthenia, multiple sclerosis and others. The history of the development of complement system inhibitors, preventing its destructive action on the body, represents the evolution of the main methods of drug design. This review illustrates the main approaches of drug design, ranging from screening and modification of natural products to structure-based ligand design, on the basis of complement inhibitors' creation. The current status of the field of complement inhibitors is also discussed.

Published
2005
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21. QSAR of inhibition of classical pathway of complement activation by dicarboxylic acids

Author

Julian Andia-Pravdivy, Svetlana Bureeva, Alexander Kaplun, Dmitry A. Orishchenko, and Anna M. Bichucher

Subjects
musculoskeletal diseases, Quantitative structure–activity relationship, Classical complement pathway, Stereochemistry, Chemistry, General Chemistry, Complement system
Abstract

The influence of distance between charges, hydrophobic and electronic parameters of aliphatic and aromatic dicarboxylic acids on the complement-inhibiting activity (CIA) has been ascertained using the QSAR method.

Published
2005
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22. Maspin Expression in Prostate Tumor Cells Averts Stemness and Stratifies Drug Sensitivity

Author

Sijana H. Dzinic, Alexander Kaplun, Jessica B. Back, Yong Q. Chen, Adelina Mujagic, Elisabeth I. Heath, Wael Sakr, Eric Van Buren, Xiang Han, Xiaohua Li, M. Margarida Bernardo, Shijie Sheng, Benjamin Jakupovic, Jonathan C. Irish, and Ivory Dean

Subjects
Male, Cancer Research, Pathology, Pyridines, Cell Plasticity, Cell Culture Techniques, Docetaxel, Stem cell marker, chemistry.chemical_compound, Mice, Tumor Microenvironment, Cell Self Renewal, Salinomycin, Cellular Senescence, Neoplasm Proteins, Phenotype, Oncology, Benzamides, Neoplastic Stem Cells, Heterografts, Taxoids, medicine.drug, medicine.medical_specialty, Mice, Nude, Antineoplastic Agents, Biology, Adenocarcinoma, Article, Suspensions, In vivo, Cell Line, Tumor, medicine, Cell Adhesion, Animals, Humans, Serpins, Pyrans, Tumor microenvironment, Gene Expression Profiling, Maspin, Cancer, Prostatic Neoplasms, Cell Dedifferentiation, medicine.disease, chemistry, Cell culture, Drug Resistance, Neoplasm, Cancer research, Neoplasm Transplantation
Abstract

Future curative cancer chemotherapies have to overcome tumor cell heterogeneity and plasticity. To test the hypothesis that the tumor suppressor maspin may reduce microenvironment-dependent prostate tumor cell plasticity and thereby modulate drug sensitivity, we established a new schematic combination of two-dimensional (2D), three-dimensional (3D), and suspension cultures to enrich prostate cancer cell subpopulations with distinct differentiation potentials. We report here that depending on the level of maspin expression, tumor cells in suspension and 3D collagen I manifest the phenotypes of stem-like and dormant tumor cell populations, respectively. In suspension, the surviving maspin-expressing tumor cells lost the self-renewal capacity, underwent senescence, lost the ability to dedifferentiate in vitro, and failed to generate tumors in vivo. Maspin-nonexpressing tumor cells that survived the suspension culture in compact tumorspheres displayed a higher level of stem cell marker expression, maintained the self-renewal capacity, formed tumorspheres in 3D matrices in vitro, and were tumorigenic in vivo. The drug sensitivities of the distinct cell subpopulations depend on the drug target and the differentiation state of the cells. In 2D, docetaxel, MS275, and salinomycin were all cytotoxic. In suspension, while MS275 and salinomycin were toxic, docetaxel showed no effect. Interestingly, cells adapted to 3D collagen I were only responsive to salinomycin. Maspin expression correlated with higher sensitivity to MS275 in both 2D and suspension and to salinomycin in 2D and 3D collagen I. Our data suggest that maspin reduces prostate tumor cell plasticity and enhances tumor sensitivity to salinomycin, which may hold promise in overcoming tumor cell heterogeneity and plasticity. Cancer Res; 75(18); 3970–9. ©2015 AACR.

Published
2015

23. Isoleucine starvation caused by sulfometuron methyl in Salmonella typhimurium measured by translational frameshifting

Author

Ze'ev Barak, Alexander Kaplun, and David M. Chipman

Subjects
Salmonella typhimurium, chemistry.chemical_classification, Acetolactate synthase, Translational frameshift, Herbicides, Frameshifting, Ribosomal, Biology, biology.organism_classification, Microbiology, Culture Media, Amino acid, Sulfonylurea Compounds, Plasmid, Biochemistry, chemistry, Valine, biology.protein, Isoleucine, Amino acid synthesis, Bacteria
Abstract

The authors have developed a tool for the study of inhibitor-induced amino acid starvation in bacteria which exploits the phenomenon of translational frameshifting. The inhibition of acetohydroxyacid synthase II by the herbicide sulfometuron methyl (SMM) has complex effects on branched-chain amino acid biosynthesis. Experiments were done with Salmonella typhimurium containing a plasmid with an isoleucine codon in a 'shifty' region, prone to translational frameshifting. SMM did not cause translational frameshifting in minimal medium under conditions that inhibit growth. A 20-fold higher concentration of SMM was required to cause starvation for isoleucine, e.g. in the presence of valine. This starvation was reflected in translational frameshifting correlated with inhibition of growth. These observations support the authors' previous suggestions based on other techniques. The method used here could be generalized for the study of complex metabolic effects related to amino acids.

Published
2002
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24. Maspin expression in prostate tumor elicits host anti-tumor immunity

Author

Dana Schalk, Lawrence G. Lum, Jason Liu, Archana Thakur, Xiaohua Li, Shijie Sheng, R. Daniel Bonfil, Alexander Kaplun, Sijana H. Dzinic, Qing Sheng Mi, Allen Saliganan, Adelina Mujagic, Hiroshi Yano, Wael Sakr, Elisabeth I. Heath, Elyse N. Tomaszewski, David Krass, Gregory Dyson, Kang Chen, M. Margarida Bernardo, Ivory Dean, Ahmed S. Beydoun, and Jessica B. Back

Subjects
Male, 51Cr-release assay, neutrophil maturation and chemotaxis, Stromal cell, Angiogenesis, leukocyte-filled lytic and necrotic centers, Mice, Nude, Biology, prostate tumor xenograft, Metastasis, Mice, angiogenesis, Immune system, Cell Line, Tumor, B-cell antibody response, medicine, Tumor Cells, Cultured, Animals, Humans, Serpins, intratumoral fibrosis, flow cytometry, Maspin, Prostatic Neoplasms, Cell Differentiation, medicine.disease, Xenograft Model Antitumor Assays, 3. Good health, Lymphangiogenesis, lymphangiogenesis, Oncology, Tumor progression, Cancer cell, Immunology, Cancer research, Heterografts, tumorigenicity, CD11b+Ly6Ghigh neutrophils, Research Paper, antibody-dependent cellular cytotoxicity
Abstract

The goal of the current study is to examine the biological effects of epithelial-specific tumor suppressor maspin on tumor host immune response. Accumulated evidence demonstrates an anti-tumor effect of maspin on tumor growth, invasion and metastasis. The molecular mechanism underlying these biological functions of maspin is thought to be through histone deacetylase inhibition, key to the maintenance of differentiated epithelial phenotype. Since tumor-driven stromal reactivities co-evolve in tumor progression and metastasis, it is not surprising that maspin expression in tumor cells inhibits extracellular matrix degradation, increases fibrosis and blocks hypoxia-induced angiogenesis. Using the athymic nude mouse model capable of supporting the growth and progression of xenogeneic human prostate cancer cells, we further demonstrate that maspin expression in tumor cells elicits neutrophil- and B cells-dependent host tumor immunogenicity. Specifically, mice bearing maspin-expressing tumors exhibited increased systemic and intratumoral neutrophil maturation, activation and antibody-dependent cytotoxicity, and decreased peritumoral lymphangiogenesis. These results reveal a novel biological function of maspin in directing host immunity towards tumor elimination that helps explain the significant reduction of xenograft tumor incidence in vivo and the clinical correlation of maspin with better prognosis of several types of cancer. Taken together, our data raised the possibility for novel maspin-based cancer immunotherapies.

Published
2014

25. Towards Curative Cancer Therapy with Maspin: A Unique Window of Opportunity to Target Cancer Dormancy

Author

M. Margarida Bernardo, Jason Liu, Benjamin Jakupovic, Alexander Kaplun, Elisabeth I. Heath, Sijana H. Dzinic, Wael Sakr, Shijie Sheng, Ivory Dean, and Xiaohua Li

Subjects
Oncology, medicine.medical_specialty, Window of opportunity, Maspin, Cancer, Biology, medicine.disease, Metastasis, Prostate cancer, Internal medicine, medicine, Dormancy, Epigenetics, Cancer dormancy
Abstract

Tumor dormancy is considered to be the last frontier in the battle to cure cancer. Although experimental evidence and clinical studies led to some consensus regarding the phenotypical characteristics of tumor dormancy, the underlying biological controls remain elusive. As a result, in the absence of dormancy-targeted therapeutic strategies, cancer drug resistance and recurrence are a certainty in a matter of time. In this review, we discuss a novel opportunity to target prostate tumor dormancy based on the expression of tumor suppressor maspin, an epithelial-specific endogenous inhibitor of histone deacetylase 1 (HDAC1).

Published
2013
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26. The natural tumor suppressor protein maspin and potential application in non small cell lung cancer

Author

Ayman O. Soubani, Fulvio Lonardo, Shirish M. Gadgeel, Seema Sethi, Alexander Kaplun, Shijie Sheng, and Xiaohua Li

Subjects
Pathology, medicine.medical_specialty, Lung Neoplasms, Tumor suppressor gene, Antineoplastic Agents, Histone Deacetylase 1, Biology, Article, Carcinoma, Non-Small-Cell Lung, Drug Discovery, medicine, Biomarkers, Tumor, Animals, Humans, Lung cancer, Serpins, Pharmacology, Large cell, Maspin, Cancer, respiratory system, medicine.disease, Prognosis, respiratory tract diseases, Histone Deacetylase Inhibitors, Protein Transport, Tumor progression, Drug Design, Cancer research, Disease Progression, Adenocarcinoma, Small Cell Lung Carcinoma
Abstract

The grim prognosis of lung cancer, that has an overall 10-15% survival at 5 years, remains in the US the leading cause of cancer mortality, providing a compelling rationale for studying the molecular basis of this malignancy. Surmising the common, general association with smoking, lung cancers differ at the microscopic, anatomical, epidemiological and clinical level and harbor complex genetic and epigenetic alterations. Currently, lung cancer is divided into small cell lung carcinoma (SCLC) and non small cell lung carcinoma (NSCLC) for the purpose of clinical management. NSCLC constitutes 80-85% of lung cancers and is further divided into histological subtypes such as adenocarcinoma, squamous cell carcinoma, and large cell carcinoma, etc. The ultimate goal for lung cancer research is to develop a strategy to block the tumor progression and improve the prognosis of lung cancer. This goal can realistically be achieved only when the biological complexity of this disease is taken into account. To this end, identification and understanding of molecular markers that are mechanistically involved in tumor progression are needed. Our recent studies suggest histological subtype-dependent distinct correlations between the expression and/or subcellular localization of tumor suppressive maspin with the progression and prognosis of NSCLC. Maspin is an epithelial specific member of the serine protease inhibitor (serpin) superfamily but recently identified as an endogenous inhibitor of histone deacetylase 1 (HDAC1). This novel biochemical activity coincides with a consensus emerged recently from the evidence that nuclear maspin confers better differentiated epithelial phenotypes, decreased tumor angiogenesis, increased tumor sensitivity to drug-induced apoptosis, and a more favorable prognosis. In the current review, we discuss the evidence that maspin may be a marker that stratifies the progression and prognosis of different subtypes of NSCLC.

Published
2010

27. Identification of novel in vivo Raf-1 phosphorylation sites mediating positive feedback Raf-1 regulation by extracellular signal-regulated kinase

Author

Karina Balan, Michael J. Comb, Hong Ruan, Jun Qin, Alexander Kaplun, Vinita Singh-Gupta, Guri Tzivion, Vitaly Balan, Jun Zhu, and Deborah T. Leicht

Subjects
MAPK/ERK pathway, Population, Molecular Sequence Data, Gene Expression, Biology, Phosphorylation cascade, Chlorocebus aethiops, Serine, Animals, Amino Acid Sequence, Kinase activity, Phosphorylation, education, Extracellular Signal-Regulated MAP Kinases, Molecular Biology, Cells, Cultured, Feedback, Physiological, education.field_of_study, MAP kinase kinase kinase, Epidermal Growth Factor, Kinase, Cell Biology, Articles, MAP Kinase Kinase Kinases, Molecular biology, Cell biology, Proto-Oncogene Proteins c-raf, COS Cells, Antibodies, Phospho-Specific
Abstract

The Ras–Raf–mitogen-activated protein kinase cascade is a key growth-signaling pathway, which uncontrolled activation results in transformation. Although the exact mechanisms underlying Raf-1 regulation remain incompletely understood, phosphorylation has been proposed to play a critical role in this regulation. We report here three novel epidermal growth factor-induced in vivo Raf-1 phosphorylation sites that mediate positive feedback Raf-1 regulation. Using mass spectrometry, we identified Raf-1 phosphorylation on three SP motif sites: S289/S296/S301 and confirmed their identity using two-dimensional-phosphopeptide mapping and phosphospecific antibodies. These sites were phosphorylated by extracellular signal-regulated kinase (ERK)-1 in vitro, and their phosphorylation in vivo was dependent on endogenous ERK activity. Functionally, ERK-1 expression sustains Raf-1 activation in a manner dependent on Raf-1 phosphorylation on the identified sites, and S289/296/301A substitution markedly decreases the in vivo activity of Raf-1 S259A. Importantly, the ERK-phosphorylated Raf-1 pool has 4 times higher specific kinase activity than total Raf-1, and its phosphopeptide composition is similar to that of the general Raf-1 population, suggesting that the preexisting, phosphorylated Raf-1, representing the activatable Raf-1 pool, is the Raf-1 subpopulation targeted by ERK. Our study describes the identification of new in vivo Raf-1 phosphorylation sites targeted by ERK and provides a novel mechanism for a positive feedback Raf-1 regulation.

Published
2006

28. Monitoring the acetohydroxy acid synthase reaction and related carboligations by circular dichroism spectroscopy

Author

Ze'ev Barak, Stanislav Engel, Gerhard Hübner, Kathrin Uhlemann, L. E. Meshalkina, David M. Chipman, Ralph Golbik, Kai Tittmann, Alexander Kaplun, Michael Vinogradov, and Maria Vyazmensky

Subjects
Tartronic acid, chemistry.chemical_classification, Circular dichroism, Stereochemistry, Carboxy-Lyases, Circular Dichroism, Biophysics, Glyoxylate cycle, Glyoxylates, Stereoisomerism, Valine, Cell Biology, Biochemistry, Phenylacetylcarbinol, Benzaldehyde, Absorbance, chemistry.chemical_compound, Acetolactate Synthase, Enzyme, chemistry, Pyruvic Acid, Escherichia coli, Lactates, Molecule, Molecular Biology
Abstract

Acetohydroxy acid synthase (AHAS) and related enzymes catalyze the production of chiral compounds [(S)-acetolactate, (S)-acetohydroxybutyrate, or (R)-phenylacetylcarbinol] from achiral substrates (pyruvate, 2-ketobutyrate, or benzaldehyde). The common methods for the determination of AHAS activity have shortcomings. The colorimetric method for detection of acyloins formed from the products is tedious and does not allow time-resolved measurements. The continuous assay for consumption of pyruvate based on its absorbance at 333 nm, though convenient, is limited by the extremely small extinction coefficient of pyruvate, which results in a low signal-to-noise ratio and sensitivity to interfering absorbing compounds. Here, we report the use of circular dichroism spectroscopy for monitoring AHAS activity. This method, which exploits the optical activity of reaction products, displays a high signal-to-noise ratio and is easy to perform both in time-resolved and in commercial modes. In addition to AHAS, we examined the determination of activity of glyoxylate carboligase. This enzyme catalyzes the condensation of two molecules of glyoxylate to chiral tartronic acid semialdehyde. The use of circular dichroism also identifies the product of glyoxylate carboligase as being in the (R) configuration.

Published
2005

29. Electron transfer in acetohydroxy acid synthase as a side reaction of catalysis. Implications for the reactivity and partitioning of the carbanion/enamine form of (alpha-hydroxyethyl)thiamin diphosphate in a 'nonredox' flavoenzyme

Author

Ze'ev Barak, Gerhard Hübner, Kai Tittmann, J. A. McCourt, Alexander Kaplun, Ronald G. Duggleby, Ralph Golbik, Kathrin Schröder, and David M. Chipman

Subjects
Models, Molecular, Magnetic Resonance Spectroscopy, Stereochemistry, Side reaction, Flavin group, Biochemistry, Cofactor, Catalysis, Electron Transport, Electron transfer, chemistry.chemical_compound, Reaction rate constant, Pyruvic Acid, Pyruvate oxidase, Organic chemistry, heterocyclic compounds, Flavin adenine dinucleotide, biology, Molecular Structure, Spectrum Analysis, Electron transport chain, Oxygen, Acetolactate Synthase, Kinetics, chemistry, biology.protein, Flavin-Adenine Dinucleotide, Thiamine Pyrophosphate
Abstract

Acetohydroxy acid synthases (AHAS) are thiamin diphosphate- (ThDP-) and FAD-dependent enzymes that catalyze the first common step of branched-chain amino acid biosynthesis in plants, bacteria, and fungi. Although the flavin cofactor is not chemically involved in the physiological reaction of AHAS, it has been shown to be essential for the structural integrity and activity of the enzyme. Here, we report that the enzyme-bound FAD in AHAS is reduced in the course of catalysis in a side reaction. The reduction of the enzyme-bound flavin during turnover of different substrates under aerobic and anaerobic conditions was characterized by stopped-flow kinetics using the intrinsic FAD absorbance. Reduction of enzyme-bound FAD proceeds with a net rate constant of k' = 0.2 s(-1) in the presence of oxygen and approximately 1 s(-1) under anaerobic conditions. No transient flavin radicals are detectable during the reduction process while time-resolved absorbance spectra are recorded. Reconstitution of the binary enzyme-FAD complex with the chemically synthesized intermediate 2-(hydroxyethyl)-ThDP also results in a reduction of the flavin. These data provide evidence for the first time that the key catalytic intermediate 2-(hydroxyethyl)-ThDP in the carbanionic/enamine form is not only subject to covalent addition of 2-keto acids and an oxygenase side reaction but also transfers electrons to the adjacent FAD in an intramolecular redox reaction yielding 2-acetyl-ThDP and reduced FAD. The detection of the electron transfer supports the idea of a common ancestor of acetohydroxy acid synthase and pyruvate oxidase, a homologous ThDP- and FAD-dependent enzyme that, in contrast to AHASs, catalyzes a reaction that relies on intercofactor electron transfer.

Published
2004

30. Inhibition of classical pathway of complement activation with negative charged derivatives of bisphenol A and bisphenol disulphates

Author

Elena Kolesnikova, Alexander Kaplun, Gennadiy Petrov, Julian Andia-Pravdivy, Sergey V. Romanov, Svetlana Bureeva, Leonid V. Kozlov, and Michael Igumnov

Subjects
Bisphenol A, Ketone, Magnetic Resonance Spectroscopy, Stereochemistry, Bisphenol, Clinical Biochemistry, Guinea Pigs, Pharmaceutical Science, Quantitative Structure-Activity Relationship, Biochemistry, Chemical synthesis, Hemolysis, chemistry.chemical_compound, Classical complement pathway, Phenols, Drug Discovery, Molecule, Animals, Disulfides, Benzhydryl Compounds, Molecular Biology, Complement Activation, Alkyl, chemistry.chemical_classification, Organic Chemistry, Complement system, chemistry, Molecular Medicine
Abstract

In order to obtain strong inhibitors of classical pathway of complement activation the low weight negative charged compounds have been investigated. On the basis of bisphenol A anionic derivatives with one or two carboxylic, sulphate and phosphate groups the critical role of negative charged groups for complement-inhibiting activity has been established. It was determined that two sulphate or phosphate groups in the molecule provide the most inhibiting effect. At the next stage a set of bisphenol disulphates of varying structures has been synthesized and investigated. Bulky hydrophobic groups (cyclohexyliden, fluorenyliden, anthronyliden) at the central part of the bisphenol molecule it was found to increase complement-inhibiting activity markedly. The replacement of the ortho-positions to the charged group by halogens or alkyl groups (allyl, propyl) increases the inhibiting effect. It was showed by ELISA that several compounds studied interact with C1q, C 1 r ¯ / C 1 s ¯ components of complement. For the set of bisphenol disulphates the QSAR equation with hydrophobic coefficient and electronic parameters has been formulated. Both hydrophobic and electrostatic interactions it was established to have a great significance for the inhibition of classical pathway of complement activation.

Published
2004

31. Abstract 5203: Identification of an intrinsic determinant critical for maspin subcellular localization and function

Author

Sijana H. Dzinic, Ivory Dean, Alexander Kaplun, M. Margarida Bernardo, Fulvio Lonardo, Shijie Sheng, and Xiaohua Li

Subjects
Serine, Cancer Research, Oncology, Biochemistry, Tumor progression, Cancer cell, Cancer research, Maspin, Context (language use), Biology, Serpin, Subcellular localization, HDAC1
Abstract

Abstract: Maspin is a novel serine protease inhibitor (serpin) that does not act as a classical serine protease inhibitor. Our lab demonstrated that maspin directly inhibits the serine protease-like enzyme, histone deacetylase 1 (HDAC1), which is a major deacetylase up-regulated in many types of cancers. To our knowledge, maspin is the only endogenous polypeptide inhibitor of HDAC1 identified thus far. Interestingly, the differential regulation of maspin during tumor progression is characterized by changes in overall expression and subcellular distribution. In particular, a significant shift in maspin subcellular localization from the nucleus to the cytosol has been observed at the transition from benign epithelial cells to precancerous or low grade carcinoma cells. Accumulated clinical evidence suggests that nuclear retention of maspin is correlated with better overall patient survival. We propose that hypothesized that the configuration and conformation of maspin coded by its primary sequence, i.e. cis elements are the key determinants for where maspin may be retained in a given molecular context. We noted that at the C-terminal end of the RCL sequence is an Aspartate 346 (D346) which is also unique among all maspin homologs and orthologs. In the current study, using the mutagenesis approach, we aimed to determine whether D346 acts as the cis element essential for maspin subcellular localization and function. We showed that in comparison to the maspinWT, which is distributed in both cytosol and nuclei of cancer cells, maspinD346E is predominantly localized in the nuclei of cancer cells. In addition, maspinD346E had an increased affinity towards HDAC1 and it was more effective inhibitor of HDAC1 as compared to the maspinWT. These findings led to a novel molecular model that explains how maspin may be disregulated during tumor progression resulting in loss of its tumor suppressive potential. Citation Format: Sijana H. Dzinic, Alexander Kaplun, Xiaohua Li, Margarida M. Bernardo, Ivory Dean, Fulvio Lonardo, Shijie Sheng. Identification of an intrinsic determinant critical for maspin subcellular localization and function. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 5203. doi:10.1158/1538-7445.AM2013-5203

Published
2013
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32. Abstract 5067: Human prostate epithelial cells secrete the tumor suppressor maspin as a soluble and exosome-associated protein

Author

Yi Zou, Guangzhao Mao, Alexander Kaplun, Shijie Sheng, Sijana H. Dzinic, and Ivory Dean

Subjects
Tube formation, Cancer Research, Tumor microenvironment, Oncology, Tumor progression, Immunology, Maspin, Cancer research, Secretion, Biology, Exosome, Microvesicles, Secretory pathway
Abstract

Maspin, an epithelial-specific member of the serine protease inhibitor superfamily, inhibits tumor invasion and metastasis. Overall maspin expression is downregulated or lost in invasive and metastatic carcinomas. Maspin subcellular distribution among the nuclear, cytoplasmic and extracellular compartments is differentially regulated during tumor progression. Extracellular maspin has been shown to inhibit tumor cell invasion and motility in vitro. Also, recombinant maspin was shown to inhibit endothelial cell tube formation in vitro and tumor-angiogenesis in vivo. To date, the mechanisms governing maspin trafficking remain unclear. In the current study, we aim to investigate the mechanism and biological significance of maspin secretion. Normal and tumor cells known to secrete maspin, were treated with or without drugs targeting classical or non-classical secretory pathways. The CM were collected and analyzed for soluble and exosome-associated proteins. We also utilized atomic force microscopy to characterize the physical characteristics of exosomes. We found maspin as a soluble protein in the CM. Maspin secretion was not inhibited by the drug treatments. In fact, maspin secretion increased under drug treatment targeting the classical secretory pathway. Furthermore, maspin was detected in the exosomes. Under drug treatment, the overall increase in maspin secretion was accompanied by an increase in detection of maspin in the exosomes. Based on the drug treatment-induced changes in maspin's secretion patterns, we speculate that maspin is secreted via a non-classical pathway. In addition, we provide the first evidence that maspin is secreted inclusively as both a free and an exosome-encapsulated molecule in normal and tumor cells. The existence of extracellular maspin as a free and an exosome-associated molecule implies a dual role for maspin in the tumor microenvironment. These novel findings are currently under investigation since the tumor suppressive activity of exosome-associated maspin may be of particular significance in cell-cell communication, and tumor suppressive activity of free maspin may be associated with extracellular matrix remodeling. Citation Format: Ivory S. Dean, Sijana Dzinic, Alexander Kaplun, Yi Zou, Guangzhao Mao, Shijie Sheng. Human prostate epithelial cells secrete the tumor suppressor maspin as a soluble and exosome-associated protein . [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 5067. doi:10.1158/1538-7445.AM2013-5067

Published
2013
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33. Interaction of N-(2-hydroxybenzyl)-omega-amino carbonic acids, novel amphipathic fatty acid derivatives, with membrane: partition coefficients

Author

Peter Dubovskii, Vitaly Shvets, Ivan Vassilenko, Alexander Kaplun, and Elena Lurie

Subjects
NMR,2H, Magnetic Resonance Spectroscopy, Chemical Phenomena, Stereochemistry, Biophysics, chemistry.chemical_element, Centrifugation, Kp, Biochemistry, Partition coefficient, Fluorescence spectroscopy, AnD and AnBr, LMVs, An, Amphiphile, Organic chemistry, chemistry.chemical_classification, Bromine, Chemistry, Physical, Cell Membrane, Membrane, Fatty acid, Nuclear magnetic resonance spectroscopy, Cell Biology, Deuterium, Amphipathic fatty acid derivative, SUVs, Spectrometry, Fluorescence, chemistry, Equilibrium dialysis, Carbonic Acid, PC, Dialysis, Mathematics
Abstract

The methods for partition coefficient (Kp) determination were developed for different concentrations of N-(2-hydroxybenzyl)-ω-amino carbonic acids, a new class of amphipathic fatty acid derivatives (An), their deutero (AnD) and bromine (AnBr) derivatives. To do this the following methods were used:2H-NMR, equilibrium dialysis, centrifugation and fluorescence spectroscopy. Kp dependence on the An concentration is discussed. Kp values for AnBr were more than 120-times higher than those for An, the differences between them being smaller than those for the corresponding An. This series of new amphipathic compounds can be used as probes for membrane studies.

Published
1995

34. Haem localization in haemoproteins by spin and triplet tools

Author

Vitali Schvets, Gertz Likhtenstein, Yevgenia Yudanova, Alexander Kaplun, Vladimir Meckler, Alexander I. Archakov, Vitali Fogel, Alexander I. Kotelnikov, Alexander V. Kulikov, Alexander I. Karyakin, and Mark Berkovich

Subjects
Hemeproteins, Hemeprotein, Cytochrome, Heme, Photochemistry, Biochemistry, law.invention, chemistry.chemical_compound, Hemoglobins, law, Animals, Humans, Electron paramagnetic resonance, Fluorescent Dyes, Anthracenes, Anthracene, biology, Cytochrome c, Electron Spin Resonance Spectroscopy, Fluorescence, Kinetics, chemistry, Myoglobin, biology.protein, Microsomes, Liver, Cytochromes, Eosine Yellowish-(YS), Muramidase, Spin Labels, Rabbits, Perylene
Abstract

The rate constants of efficient exchange interaction (kex) of spin-labelled lysozyme and the triplet probes perylene, eosine and anthracene butanoic acid with the haemoproteins were measured in microsomes and in solution by electron paramagnetic resonance and by the registration of delayed annihilation fluorescence. Constants of efficient exchange interactions with the haem groups of myoglobin, haemoglobin, cytochrome c and b5 are 3-22 X 10(7) M-1 s-1 in solution. The experiments with membrane-bound cytochrome P-450 revealed no exchange interactions with the probes located in solution or in the membrane. These results can be accounted for by the deeper incorporation of cytochrome P-450 haem into the protein globule as compared to the other haemoprotein haems studied.

Published
1986

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