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101. Design, Synthesis and Biological Evaluation of c-MYC G-Quadruplex Interactive Agents

Author

Hurley, Laurence H., Enemark, John H., Polt, Robin, Ghosh, Indraneel, Miranda, Katrina M., Sharma, Chandana, Hurley, Laurence H., Enemark, John H., Polt, Robin, Ghosh, Indraneel, Miranda, Katrina M., and Sharma, Chandana

Abstract

The G-quadruplex secondary structure has evolved as a promising anti-tumor target in recent years. This distinctive structure has been proposed to form in the promoter regions of a variety of genes, including the c-MYC oncogene, which is over-expressed in 60% of cancers. The G-quadruplex structure in the c-MYC promoter acts as the repressor element, disruption of which leads to subsequent upregulation of the gene. Hence, stabilization of the G-quadruplex structure with small molecules has been an area of much interest. In this dissertation, the structural aspects of the c-MYC G-quadruplex, and development of unique ligands that stabilize this secondary DNA structure have been explored. The G-quadruplex structure adopts an intramolecular parallel-stranded conformation in solution, and various ligands have been shown to induce structural changes. Cationic porphyrins are such a class of compounds that selectively bind to and stabilize the c-MYC G-quadruplex and in some cases also induce a structural change. The extensively studied cationic porphyrin, TMPyP4, stabilizes the c-MYC G-quadruplex and represses the gene transcription. This detail has been the basis of the research presented herein. Structure-based drug design has been used to develop other novel ligands having bisintercatating properties for enhanced stabilization of the G-quadruplex. A hybrid molecule, having both intercalation and alkylation properties, has also been investigated that has shown to lower the gene expression. Thus, a prototype of ligands are presented that can serve as the base for development of compounds with promising therapeutic properties.

Published
2006

102. The Specificity of Nitroxyl Chemistry Is Unique Among Nitrogen Oxides in Biological Systems

Author

Flores-Santana, Wilmarie, primary, Salmon, Debra J., additional, Donzelli, Sonia, additional, Switzer, Christopher H., additional, Basudhar, Debashree, additional, Ridnour, Lisa, additional, Cheng, Robert, additional, Glynn, Sharon A., additional, Paolocci, Nazareno, additional, Fukuto, Jon M., additional, Miranda, Katrina M., additional, and Wink, David A., additional

Published
2011
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108. The Activation of Metabolites of Nitric Oxide Synthase by Metals Is Both Redox and Oxygen Dependent: A New Feature of Nitrogen Oxide Signaling

Author

Donzelli, Sonia, primary, Switzer, Christopher H., additional, Thomas, Douglas D., additional, Ridnour, Lisa A., additional, Espey, Michael Graham, additional, Isenberg, Jeffrey S., additional, Tocchetti, Carlo G., additional, King, S. Bruce, additional, Lazzarino, Giuseppe, additional, Miranda, Katrina M., additional, Roberts, David D., additional, Feelisch, Martin, additional, and Wink, David A., additional

Published
2006
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110. Comparison of the NO and HNO Donating Properties of Diazeniumdiolates: Primary Amine Adducts Release HNO in Vivo

Author

Miranda, Katrina M., primary, Katori, Tatsuo, additional, Torres de Holding, Claudia L., additional, Thomas, Lynta, additional, Ridnour, Lisa A., additional, McLendon, William J., additional, Cologna, Stephanie M., additional, Dutton, Andrew S., additional, Champion, Hunter C., additional, Mancardi, Daniele, additional, Tocchetti, Carlo G., additional, Saavedra, Joseph E., additional, Keefer, Larry K., additional, Houk, K. N., additional, Fukuto, Jon M., additional, Kass, David A., additional, Paolocci, Nazareno, additional, and Wink, David A., additional

Published
2005
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112. Comparison of the Chemical Biology of NO and HNO: An Inorganic Perspective

Author

Miranda, Katrina M., primary, Ridnour, Lisa, additional, Esprey, Michael, additional, Citrin, Deborah, additional, Thomas, Douglas, additional, Mancardi, Daniele, additional, Donzelli, Sonia, additional, Wink, David A., additional, Katori, Tatsuo, additional, Tocchetti, Carlo G., additional, Ferlito, Marcella, additional, Paolocci, Nazareno, additional, and Fukuto, Jon M., additional

Published
2005
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113. Mechanism of Aerobic Decomposition of Angeli's Salt (Sodium Trioxodinitrate) at Physiological pH

Author

Miranda, Katrina M., primary, Dutton, Andrew S., additional, Ridnour, Lisa A., additional, Foreman, Christian A., additional, Ford, Eleonora, additional, Paolocci, Nazareno, additional, Katori, Tatsuo, additional, Tocchetti, Carlo G., additional, Mancardi, Daniele, additional, Thomas, Douglas D., additional, Espey, Michael G., additional, Houk, K. N., additional, Fukuto, Jon M., additional, and Wink, David A., additional

Published
2004
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119. Nitric oxide-induced cellular stress and p53 activation in chronic inflammation

Author

Hofseth, Lorne J., primary, Saito, Shin'ichi, additional, Hussain, S. Perwez, additional, Espey, Michael G., additional, Miranda, Katrina M., additional, Araki, Yuzuru, additional, Jhappan, Chamelli, additional, Higashimoto, Yuichiro, additional, He, Peijun, additional, Linke, Steven P., additional, Quezado, Martha M., additional, Zurer, Irit, additional, Rotter, Varda, additional, Wink, David A., additional, Appella, Ettore, additional, and Harris, Curtis C., additional

Published
2002
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120. Protein nitration is mediated by heme and free metals through Fenton-type chemistry: An alternative to the NO/O\documentclass[12pt]{minimal}\usepackage{amsmath}\usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}\usepackage{mathrsfs}\setlength{\oddsidemargin}{-69pt}\begin{document}\begin{equation*}{\mathrm{_{2}^{-}}}\end{equation*}\end{document} reaction

Author

Thomas, Douglas D., primary, Espey, Michael Graham, additional, Vitek, Michael P., additional, Miranda, Katrina M., additional, and Wink, David A., additional

Published
2002
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121. Immune Defence: Role of Reactive Nitrogen Intermediates

Author

Wink, David A, primary, Citrin, Deborah, additional, Vitek, Michael P, additional, Colton, Carol, additional, Pacelli, Roberto, additional, Ogawa, Rygeio, additional, Thomas, Douglas D, additional, Miranda, Katrina M, additional, and Espey, Michael G, additional

Published
2002
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122. Mechanisms of the Antioxidant Effects of Nitric Oxide

Author

Wink, David A., primary, Miranda, Katrina M., additional, Espey, Michael G., additional, Pluta, Ryzard M., additional, Hewett, Sandra J., additional, Colton, Carol, additional, Vitek, Michael, additional, Feelisch, Martin, additional, and Grisham, Mathew B., additional

Published
2001
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125. Mechanisms of Nitric Oxide Reactions Mediated by Biologically Relevant Metal Centers.

Author

Ford, Peter C., Melo Pereira, Jose Clayston, and Miranda, Katrina M.

Abstract

Here, we present an overview of mechanisms relevant to the formation and several key reactions of nitric oxide (nitrogen monoxide) complexes with biologically relevant metal centers. The focus will be largely on iron and copper complexes. We will discuss the applications of both thermal and photochemical methodologies for investigating such reactions quantitatively. [ABSTRACT FROM AUTHOR]

Published
2014
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127. Bordetella bronchiseptica responses to physiological reactive nitrogen and oxygen stresses.

Author

Omsland, Anders, Miranda, Katrina M., Friedman, Richard L., and Boitano, Scott

Subjects
*BORDETELLA, *GRAM-negative bacteria, *REACTIVE oxygen species, *FREE radicals, *IMMUNE system, *IMMUNOLOGY, *NITRIC oxide, *ANTI-infective agents, *MICROBIOLOGY
Abstract

Bordetella bronchiseptica can establish prolonged airway infection consistent with a highly developed ability to evade mammalian host immune responses. Upon initial interaction with the host upper respiratory tract mucosa, B. bronchiseptica are subjected to antimicrobial reactive nitrogen species (RNS) and reactive oxygen species (ROS), effector molecules of the innate immune system. However, the responses of B. bronchiseptica to redox species at physiologically relevant concentrations (nM–μM) have not been investigated. Using predicted physiological concentrations of nitric oxide (NO), superoxide and hydrogen peroxide (H2O2) on low numbers of CFU of B. bronchiseptica, all redox active species displayed dose-dependent antimicrobial activity. Susceptibility to individual redox active species was significantly increased upon introduction of a second species at subantimicrobial concentrations. An increased bacteriostatic activity of NO was observed relative to H2O2. The understanding of Bordetella responses to physiologically relevant levels of exogenous RNS and ROS will aid in defining the role of endogenous production of these molecules in host innate immunity against Bordetella and other respiratory pathogens. [ABSTRACT FROM AUTHOR]

Published
2008
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128. A biochemical rationale for the discrete behavior of nitroxyl and nitric oxide in the cardiovascular system.

Author

Miranda, Katrina M., Paolocci, Nazareno, Katori, Tatsuo, Thomas, Douglas D., Ford, Eleonora, Bartberger, Michael D., Espey, Michael G., Kass, David A., Feelisch, Martin, Fukuto, Jon M., and Wink, David A.

Subjects
*NITROXIDES, *NITRIC oxide, *OXIDATION-reduction reaction, *BIOLOGICAL systems
Abstract

The redox siblings nitroxyl (HNO) and nitric oxide (NO) have often been assumed to undergo casual redox reactions in biological systems. However, several recent studies have demonstrated distinct pharmacological effects for donors of these two species. Here, infusion of the HNO donor Angeli's salt into normal dogs resulted in elevated plasma levels of calcitonin gene-related peptide, whereas neither the NO donor diethylamine/NONOate nor the nitrovasodilator nitroglycerin had an appreciable effect on basal levels. Conversely, plasma cGMP was increased by infusion of diethylamine/NONOate or nitroglycerin but was unaffected by Angeli's salt. These results suggest the existence of two mutually exclusive response pathways that involve stimulated release of discrete signaling agents from HNO and NO. In light of both the observed dichotomy of HNO and NO and the recent determination that, in contrast to the O[sub 2]/O[sup -, sub 2] couple, HNO is a weak reductant, the relative reactivity of HNO with common biomolecules was determined. This analysis suggests that under biological conditions, the lifetime of HNO with respect to oxidation to NO, dimerization, or reaction with O[sub 2] is much longer than previously assumed. Rather, HNO is predicted to principally undergo addition reactions with thiols and ferric proteins. Calcitonin gene-related peptide release is suggested to occur via altered calcium channel function through binding of HNO to a ferric or thiol site. The orthogonality of HNO and NO may be due to differential reactivity toward metals and thiols and in the cardiovascular system, may ultimately be driven by respective alteration of cAMP and cGMP levels. [ABSTRACT FROM AUTHOR]

Published
2003
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129. Positive inotropic and lusitropic effects of HNO/NO[sup -] in failing hearts: Independence from β-adrenergic signaling.

Author

Paolocci, Nazareno, Katori, Tatsuo, Champion, Hunter C., St. John, Marcus E., Miranda, Katrina M., Fukuto, Jon M., Wink, David A., and Kass, David A.

Subjects
HEART failure, CARDIOTONIC agents, NITRIC oxide, BETA adrenoceptors
Abstract

Nitroxyl anion (HNO/NO[sup -]), the one-electron reduced form of nitric oxide (NO), induces positive cardiac inotropy and selective venodilation in the normal in vivo circulation. Here we tested whether HNO/NO[sup -] augments systolic and diastolic function of failing hearts, and whether contrary to NO/nitrates such modulation enhances rather than blunts β-adrenergic stimulation and is accompanied by increased plasma calcitonin gene-related peptide (CGRP). HNO/NO[sup -] generated by Angelis' salt (AS) was infused (10 µg/kg per min, i.v.) to conscious dogs with cardiac failure induced by chronic tachycardia pacing. AS nearly doubled contractility, enhanced relaxation, and lowered cardiac preload and afterload (all P < 0.001) without altering plasma cGMP. This contrasted to modest systolic depression induced by an NO donor diethylamine(DEA)/NO or nitroglycerin (NTG). Cardiotropic changes from AS were similar in failing hearts as in controls despite depressed β-adrenergic and calcium signaling in the former. Inotropic effects of AS were additive to dobutamine, whereas DEA/NO blunted β-stimulation and NTG was neutral. Administration of propranolol to nonfailing hearts fully blocked isoproterenol stimulation but had minimal effect on AS inotropy and enhanced lusitropy. Arterial plasma CGRP rose 3-fold with AS but was unaltered by DEA/NO or NTG, supporting a proposed role of this peptide to HNO/NO[sup -] cardiotropic action. Thus, HNO/NO[sup -] has positive inotropic and lusitropic action, which unlike NO/nitrates is independent and additive to β-adrenergic stimulation and stimulates CGRP release. This suggests potential of HNO/NO[sup -] donors for the treatment of heart failure. [ABSTRACT FROM AUTHOR]

Published
2003
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130. Nitric oxide-induced cellular stress and p53 activation in chronic inflammation.

Author

Hofseth, Lorne J., Saito, Shin'ichi, Hussain, S. Perwez, Espey, Michael G., Miranda, Katrina M., Araki, Yuzuru, Jhappan, Chamelli, Higashimoto, Yuichiro, Peijun He, Linke, Steven P., Quezado, Martha M., Zurer, Irit, Rotter, Varda, Wink, David A., Appella, Ettore, and Harris, Curtis C.

Subjects
INFLAMMATION, CANCER, PHOSPHORYLATION, FREE radical reactions
Abstract

Free radical-induced cellular stress contributes to cancer during chronic inflammation. Here, we investigated mechanisms of p53 activation by the free radical, NO. NO from donor drugs induced both ataxia-telangiectasia mutated (ATM)- and ataxiatelangiectasia mutated and Rad3-related-dependent p53 posttranslational modifications, leading to an increase in p53 transcriptional targets and a G[sub 2]/M cell cycle checkpoint. Such modifications were also identified in ceils cocultured with NO-releasing macrophages. In noncancerous colon tissues from patients with ulcerative colitis (a cancer-prone chronic inflammatory disease), inducible NO synthase protein levels were positively correlated with p53 serine 15 phosphorylation levelse Immunostaining of HDM-2 and p21[sub WAF1] was consistenl with transcriptionally active p53. Our study highlights a pivotal role of NO in the induction of cellular stress and the activation of a p53 response pathway during chronic inflammation. [ABSTRACT FROM AUTHOR]

Published
2003
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131. Protein nitration is mediated by heme and free metals through Fenton-type chemistry: An alternative to the NO/O[sub 2] reaction.

Author

Thomas, Douglas D., Espey, Mchael Graham, Vitek, Michael P., Miranda, Katrina M., and Wink, David A.

Subjects
PROTEINS, NITRATION
Abstract

Examines the mediation of protein nitration by heme and free metals through Fenton-type chemistry. Details of the chemical origins of nitrated tyrosine residues formed in protein; Cogeneration of nitric oxide; Use of Western blot analysis.

Published
2002
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132. Focusing of nitric oxide mediated nitrosation and oxidative nitrosylation as a consequence of reaction with superoxide.

Author

Espey, Michael G., Thomas, Douglas D., Miranda, Katrina M., and Wink, David A.

Subjects
OXYGEN, NITRIC oxide, MYOGLOBIN, SUPEROXIDE dismutase, CARBON dioxide
Abstract

Examines the effects of oxymyoglobin, superoxide dismutase and carbon dioxide as potential modulators of reactant availability for the generation of oxygen and nitric oxide. Cyclic voltammetry; Specificity of diamine fluorophores for nitrosation; Importance of balance in biochemistry of oxygen and nitric oxide generation.

Published
2002
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133. The reduction potential of nitric oxide (NO) and its importance to NO biochemistry.

Author

Bartberger, Michael D., Wei Liu, Ford, Eleonora, Miranda, Katrina M., Switzer, Christopher, Fukuto, Jon M., Farmer, Patrick J., Wink, David A., and Houk, Kendall N.

Subjects
NITRIC oxide, CHEMICAL reduction, BIOCHEMISTRY
Abstract

Examines the importance of nitric oxide biochemistry on the reduction potential of nitric oxide. Quantum mechanical calculations; Cyclic voltammetry; Linear sweep voltammograms.

Published
2002
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134. Direct real-time evaluation of nitration with green fluorescent protein in solution and within human cells reveals the impact of nitrogen dioxide vs. peroxynitrite mechanisms.

Author

Espey, Michael Graham, Xavier, Sandhya, Thomas, Douglas D., Miranda, Katrina M., and Wink, David A.

Subjects
PROTEINS, NITRATION, PEROXYACETYL nitrate, BIOCHEMICAL mechanism of action
Abstract

Investigates the protein mechanism of reactive oxide species by nitration. Detection of 3-Nitrotyrosyl adducts in proteins; Effects of green fluorescent protein exposure on 3-nitrotyrosyl immunoreactivity concomitant; Synthesis of peroxynitrite.

Published
2002
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135. Nitroxyl anion exerts redox-sensitive positivecardiac inotropy in vivo by calcitonin....

Author

Paolocci, Nazareno, Saavedra, Walter F., Miranda, Katrina M., Martignani, Cristian, Isoda, Takayoshi, Hare, Joshua M., Espey, Michael G., Fukuto, Jon M., Feelisch, Martin, Wink, David A., and Kass, David A.

Subjects
NITRIC-oxide synthases, ANIONS, PHYSIOLOGY
Abstract

Examines the generation of nitroxyl anion by nitric oxide (NO) synthase in vivo. Administration of NO generator Angeli's salt (AS) to chronologically instrumented dogs; Effects of AS to the contractility of the left ventricle; Absence of associated changes in arterial or venous plasma cGMP.

Published
2001
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136. The Chemical Dynamics of NO and Reactive Nitrogen Oxides: A Practical Guide

Author

Mancardi, Daniele, Ridnour, Lisa A., Thomas, Douglas D., Katori, Tatsuo, Tocchetti, Carlo G., Espey, Michael G., Miranda, Katrina M., Paolocci, Nazareno, and Wink, David A.

Abstract

Nitric oxide has emerged as one of the most important and diverse players in physiology. This small diatomic radical stunned researchers because of its existence and unique biological properties in human physiology. Over the last two decades it was found that NO often has fickle behavior in pathophysiological mechanisms. Where benefiting the host in one case yet inducing and augmenting injury in another. This has lead to confusion in is NO good or bad? Much of the answers to this dichotomy lies in the chemistry of NO and its related nitrogen oxide species. To help understand the complex chemistry with perspective to biology, a discussion on the chemical biology of NO is useful. The chemical biology defines the relevant chemical reaction of NO and nitrogen monoxide in the context of the biological conditions. We discuss in this article the chemistry of nitrogen oxide with different types of biological motifs. Reaction of NO with metal complexes and radicals require low concentration, where formation of reactive nitrogen oxide species require considerably higher amounts and generally are isolated to specific microenvironments in vivo. Though many reactive nitrogen oxide species are formed from chemical reactions with NO, there are several which appear to not require NO to be present, HNO and NO2. These two species have unique physiological effects and represent additional complexity to this biological picture. From this discussion, a picture can be formed concerning the possible chemical dynamics, which can be plausible in different biological mechanisms.

Published
2004

137. Antioxidant Properties of Nitric Oxide in Cellular Physiological and Pathophysiological Mechanisms. The Implications of Biological Balance between NO and Oxidative Stress

Author

Ridnour, Lisa A., Thomas, Douglas D., Mancardi, Daniele, Donzelli, Sonia, Paolocci, Nazerrano, Pagliaro, Pasquale, Miranda, Katrina M., Krishna, Murali, Fukuto, John, Grisham, Matthew B., Mitchell, James B., Espey, Michael G., and Wink, David A.

Abstract

The function of nitric oxide ( NO) in pathophysiology remains confounding as both protective and cytotoxic effects of NO have been demonstrated in many disease processes. Nitric oxide chemistry culminating in the generation of oxidative as well as nitrosative intermediates have generally been proposed as mediators of pathophysiology and have overshadowed the antioxidant capabilities of NO. However, the counteracting role of NO in providing a balance under conditions of oxidative and nitrosative stress has been underappreciated. The purpose of this review is the discussion of the role of NO as an antioxidant and interceptor of more potent reactive intermediates in normal physiology and disease.

Published
2004

141. Nitroxyl formation from NH2OH and NOHA oxidation

Author

Donzelli, Sonia, Switzer, Christopher H., Espey, Michael G., Thomas, Douglas D., Ridnour, Lisa A., Miranda, Katrina M., Carlo Gabriele Tocchetti, Lazzarino, Giuseppe, Paolocci, Nazareno, and Wink, David A.

142. Quantification of intracellular HNO delivery with capillary zone electrophoresis.

Author

Amarakoon, Thilini N., Ke, Neng, Aspinwall, Craig A., and Miranda, Katrina M.

Subjects
*REACTIVE nitrogen species, *CAPILLARY electrophoresis, *SMALL molecules, *SULFINAMIDES, *ANALYTICAL chemistry, *GLUTATHIONE
Abstract

Redox signaling, wherein reactive and diffusible small molecules are channeled into specific messenger functions, is a critical component of signal transduction. A central principle of redox signaling is that the redox modulators are produced in a highly controlled fashion to specifically modify biotargets. Thiols serve as primary mediators of redox signaling as a function of the rich variety of adducts, which allows initiation of distinct cellular effects. Coupling the inherent reactivity of thiols with highly sensitive and selective chemical analysis protocols can facilitate identification of redox signaling agents, both in solution and in cultured cells. Here, we describe use of capillary zone electrophoresis to both identify and quantify sulfinamides, which are specific markers of the reaction of thiols with nitroxyl (HNO), a putative biologically relevant reactive nitrogen species. • The natural reactivity of thiols facilitates trapping of reactive molecules. • Modified thiols can be identified and quantified by capillary zone electrophoresis. • Sulfinamides serve as specific markers of the reaction of thiols with nitroxyl (HNO). • A procedure to detect HNO through formation of glutathione sulfinamide is described. [ABSTRACT FROM AUTHOR]

Published
2022
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143. Design and synthesis of rosiglitazone-ferulic acid-nitric oxide donor trihybrids for improving glucose tolerance.

Author

Liu, Jingchao, Huang, Zhangjian, Ma, Wenhuan, Peng, Sixun, Li, Yunman, Miranda, Katrina M., Tian, Jide, and Zhang, Yihua

Subjects
*ROSIGLITAZONE, *FERULIC acid, *TYPE 2 diabetes treatment, *NITRIC oxide, *GLUCOSE tolerance tests
Abstract

Abstract Glucose intolerance is associated with metabolic syndrome and type 2 diabetes mellitus (T2DM) while some new therapeutic drugs, such as rosiglitazone (Rosi), for T2DM can cause severe cardiovascular side effects. Herein we report the synthesis of Rosi-ferulic acid (FA)-nitric oxide (NO) donor trihybrids to improve glucose tolerance and minimize the side effects. In comparison with Rosi, the most active compound 21 exhibited better effects on improving glucose tolerance, which was associated with its NO production, antioxidant and anti-inflammatory activities. Furthermore, 21 displayed relatively high stability in the simulated gastrointestinal environments and human liver microsomes, and released Rosi in plasma. More importantly, 21 , unlike Rosi, had little stimulatory effect on the membrane translocation of aquaporin-2 (AQP2) in kidney collecting duct epithelial cells. These, together with a better safety profile, suggest that the trihybrids, like 21 , may be promising candidates for intervention of glucose intolerance-related metabolic syndrome and T2DM. Graphical abstract Image 1 Highlights • 21 exhibited better effects on improving glucose tolerance than rosiglitazone (Rosi). • 21 displayed relatively high stability in the simulated gastrointestinal environments and human liver microsomes. • 21 exhibited improved safety profiles relative to Rosi in terms of cardiovascular protection, acute toxicity in vivo, etc. • 21, unlike Rosi , had little stimulatory effect on the membrane translocation of aquaporin-2 in kidney collecting duct epithelial cells. [ABSTRACT FROM AUTHOR]

Published
2019
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144. The nitroxyl donor Angeli's salt ameliorates Staphylococcus aureus-induced septic arthritis in mice.

Author

Staurengo-Ferrari, Larissa, Ruiz-Miyazawa, Kenji W., Pinho-Ribeiro, Felipe A., Domiciano, Talita P., Fattori, Victor, Mizokami, Sandra S., Jr.Verri, Waldiceu A., Pelayo, Jacinta S., Bordignon, Juliano, Figueiredo, Florêncio, Casagrande, Rubia, and Miranda, Katrina M.

Subjects
*INFECTIOUS arthritis, *OXIDATIVE stress, *STAPHYLOCOCCUS, *CYTOKINES, *NITROXYL, *THERAPEUTICS
Abstract

Septic arthritis is a severe and rapidly debilitating disease associated with severe joint pain, inflammation and oxidative stress. Nitroxyl (HNO) has become a nitrogen oxide of significant interest due to its pharmacological endpoints that are potentially favorable for treating varied diseases. However, whether HNO also serves as a treatment to septic arthritis is currently unknown. The aim of this study was to investigate the effect of the HNO donor, Angeli's salt (AS), in the outcome of chronic Staphylococcus aureus (S. aureus) -induced septic arthritis in mice. Daily treatment with AS inhibited mechanical hyperalgesia and inflammation (edema, leukocyte migration, cytokines release and NF-κB activation, and oxidative stress) resulting in reduced disease severity (clinical course, histopathological changes, proteoglycan levels in the joints, and osteoclastogenesis). In addition, AS decreased the number of S. aureus colony forming unities in synovial tissue, enhanced the bactericidal effect of macrophages and inhibited the worsening of systemic inflammatory response (leukocyte counts in the lung and systemic proinflammatory cytokine concentration). Our results suggest for the first time the therapeutic potential of AS in a model of septic arthritis by mechanisms involving microbicidal effects, anti-inflammatory actions and reduction of disease severity. [ABSTRACT FROM AUTHOR]

Published
2017
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145. The nitroxyl donor, Angeli’s salt, reduces chronic constriction injury-induced neuropathic pain.

Author

Longhi-Balbinot, Daniela T., Rossaneis, Ana C., Pinho-Ribeiro, Felipe A., Bertozzi, Mariana M., Cunha, Fernando Q., Alves-Filho, José C., Cunha, Thiago M., Peron, Jean P.S., Miranda, Katrina M., Casagrande, Rubia, and Jr.Verri, Waldiceu A.

Subjects
*CHRONIC pain treatment, *NITROXYL, *NEUROPATHY, *LABORATORY mice, *INFLAMMATION, *ANALGESICS
Abstract

Chronic pain is a major health problem worldwide. We have recently demonstrated the analgesic effect of the nitroxyl donor, Angeli’s salt (AS) in models of inflammatory pain. In the present study, the acute and chronic analgesic effects of AS was investigated in chronic constriction injury of the sciatic nerve (CCI)-induced neuropathic pain in mice. Acute (7th day after CCI) AS treatment (1 and 3 mg/kg; s.c.) reduced CCI-induced mechanical, but not thermal hyperalgesia. The acute analgesic effect of AS was prevented by treatment with 1H-[1,2, 4]oxadiazolo[4,3,-a]quinoxalin-1-one (ODQ, a soluble guanylate cyclase inhibitor), KT5823 (an inhibitor of protein kinase G [PKG]) or glibenclamide (GLB, an ATP-sensitive potassium channel blocker). Chronic (7–14 days after CCI) treatment with AS (3 mg/kg, s.c.) promoted a sustained reduction of CCI-induced mechanical and thermal hyperalgesia. Acute AS treatment reduced CCI-induced spinal cord allograft inflammatory factor 1 (known as Iba-1), interleukin-1β (IL-1β), and ST2 receptor mRNA expression. Chronic AS treatment reduced CCI-induced spinal cord glial fibrillary acidic protein (GFAP), Iba-1, IL-1β, tumor necrosis factor-α (TNF-α), interleukin-33 (IL-33) and ST2 mRNA expression. Chronic treatment with AS (3 mg/kg, s.c.) did not alter aspartate aminotransferase, alanine aminotransferase, urea or creatinine plasma levels. Together, these results suggest that the acute analgesic effect of AS depends on activating the cGMP/PKG/ATP-sensitive potassium channel signaling pathway. Moreover, chronic AS diminishes CCI-induced mechanical and thermal hyperalgesia by reducing the activation of spinal cord microglia and astrocytes, decreasing TNF-α, IL-1β and IL-33 cytokines expression. This spinal cord immune modulation was more prominent in the chronic treatment with AS. Thus, nitroxyl limits CCI-induced neuropathic pain by reducing spinal cord glial cells activation. [ABSTRACT FROM AUTHOR]

Published
2016
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146. Signaling and stress: The redox landscape in NOS2 biology.

Author

Thomas, Douglas D., Heinecke, Julie L., Ridnour, Lisa A., Cheng, Robert Y., Kesarwala, Aparna H., Switzer, Christopher H., McVicar, Daniel W., Roberts, David D., Glynn, Sharon, Fukuto, Jon M., Wink, David A., and Miranda, Katrina M.

Subjects
*PHYSIOLOGICAL stress, *OXIDATION-reduction reaction, *NITRIC oxide, *HOMEOSTASIS, *IMMUNE system, *REACTIVE nitrogen species, *METAL complexes
Abstract

Nitric oxide (NO) has a highly diverse range of biological functions from physiological signaling and maintenance of homeostasis to serving as an effector molecule in the immune system. However, deleterious as well as beneficial roles of NO have been reported. Many of the dichotomous effects of NO and derivative reactive nitrogen species (RNS) can be explained by invoking precise interactions with different targets as a result of concentration and temporal constraints. Endogenous concentrations of NO span five orders of magnitude, with levels near the high picomolar range typically occurring in short bursts as compared to sustained production of low micromolar levels of NO during immune response. This article provides an overview of the redox landscape as it relates to increasing NO concentrations, which incrementally govern physiological signaling, nitrosative signaling and nitrosative stress-related signaling. Physiological signaling by NO primarily occurs upon interaction with the heme protein soluble guanylyl cyclase. As NO concentrations rise, interactions with nonheme iron complexes as well as indirect modification of thiols can stimulate additional signaling processes. At the highest levels of NO, production of a broader range of RNS, which subsequently interact with more diverse targets, can lead to chemical stress. However, even under such conditions, there is evidence that stress-related signaling mechanisms are triggered to protect cells or even resolve the stress. This review therefore also addresses the fundamental reactions and kinetics that initiate signaling through NO-dependent pathways, including processes that lead to interconversion of RNS and interactions with molecular targets. [ABSTRACT FROM AUTHOR]

Published
2015
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147. Chemotherapeutic potential of diazeniumdiolate-based aspirin prodrugs in breast cancer.

Author

Basudhar, Debashree, Cheng, Robert C., Bharadwaj, Gaurav, Ridnour, Lisa A., Wink, David A., and Miranda, Katrina M.

Subjects
*CANCER chemotherapy, *CHEMICAL potential, *PRODRUGS, *INFLAMMATION, *ENDOTHELIAL cells, *BREAST cancer treatment
Abstract

Diazeniumdiolate-based aspirin prodrugs have previously been shown to retain the anti-inflammatory properties of aspirin while protecting against the common side effect of stomach ulceration. Initial analysis of two new prodrugs of aspirin that also release either nitroxyl (HNO) or nitric oxide (NO) demonstrated increased cytotoxicity toward human lung carcinoma cells compared to either aspirin or the parent nitrogen oxide donor. In addition, cytotoxicity was significantly lower in endothelial cells, suggesting cancer-specific sensitivity. To assess the chemotherapeutic potential of these new prodrugs in treatment of breast cancer, we studied their effect both in cultured cells and in a nude mouse model. Both prodrugs reduced growth of breast adenocarcinoma cells more effectively than the parent compounds while not being appreciably cytotoxic in a related nontumorigenic cell line (MCF-10A). The HNO donor also was more cytotoxic than the related NO donor. The basis for the observed specificity was investigated in terms of impact on metabolism, DNA damage and repair, apoptosis, angiogenesis and metastasis. The results suggest a significant pharmacological potential for treatment of breast cancer. [ABSTRACT FROM AUTHOR]

Published
2015
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148. Comparison of the chemical reactivity of synthetic peroxynitrite with that of the autoxidation products of nitroxyl or its anion.

Author

Jorolan, Joel H., Buttitta, Lisa Ann, Cheah, Cheryl, and Miranda, Katrina M.

Subjects
*PEROXYNITROUS acid, *NITROGEN compounds, *OXIDATION, *OXYGEN compounds, *NITROXYL
Abstract

Donors of nitroxyl (HNO) exhibit pharmacological properties that are potentially favorable for treatment of a variety of diseases. To fully evaluate the pharmacological utility of HNO, it is therefore important to understand its chemistry, particularly involvement in deleterious biological reactions. Of particular note is the cytotoxic species formed from HNO autoxidation that is capable of inducing double strand DNA breaks. The identity of this species remains elusive, but a conceivable product is peroxynitrous acid. However, chemical comparison studies have demonstrated that HNO autoxidation leads to a unique reactive nitrogen oxide species to that of synthetic peroxynitrite. Here, we extend the analysis to include a new preparation of peroxynitrite formed via autoxidation of nitroxyl anion (NO − ). Both peroxynitrite preparations exhibited similar chemical profiles, although autoxidation of NO − provided a more reliable sample of peroxynitrite. Furthermore, the observed dissimilarities to the HNO donor Angeli's salt substantiate that HNO autoxidation produces a unique intermediate from peroxynitrite. [ABSTRACT FROM AUTHOR]

Published
2015
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149. Gene expression profiles of NO- and HNO-donor treated breast cancer cells: insights into tumor response and resistance pathways.

Author

Cheng, Robert Y.S., Basudhar, Debashree, Ridnour, Lisa A., Heinecke, Julie L., Kesarwala, Aparna H., Glynn, Sharon, Switzer, Christopher H., Ambs, Stefan, Miranda, Katrina M., and Wink, David A.

Subjects
*NITRIC-oxide synthases, *GENE expression, *DISEASE progression, *NITROXYL, *MITOGEN-activated protein kinases, *LABORATORY mice
Abstract

Nitric oxide (NO) synthase 2 (NOS2), a major inflammatory protein, modulates disease progression via NO in a number of pathologies, including cancer. The role of NOS2-derived NO is not only flux-dependent, which is higher in mouse vs human cells, but also varies based on spatial and temporal distribution both within tumor cells and in the tumor microenvironment. NO donors have been utilized to mimic NO flux conditions and to investigate the effects of varied NO concentrations. As a wide range of effects mediated by NO and other nitrogen oxides such as nitroxyl (HNO) have been elucidated, multiple NO- and HNO-releasing compounds have been developed as potential therapeutics, including as tumor modulators. One of the challenges is to determine differences in biomarker expression from extracellular vs intracellular generation of NO or HNO. Taking advantage of new NO and HNO releasing agents, we have characterized the gene expression profile of estrogen receptor-negative human breast cancer (MDA-MB-231) cells following exposure to aspirin, the NO donor DEA/NO, the HNO donor IPA/NO andtheir intracellularly-activated prodrug conjugates DEA/NO-aspirin and IPA/NO-aspirin. Comparison of the gene expression profiles demonstrated that several genes were uniquely expressed with respect to NO or HNO, such as miR-21, HSP70 , cystathionine γ-lyase and IL24 . These findings provide insight into targets and pathways that could be therapeutically exploited by the redox related species NO and HNO. [ABSTRACT FROM AUTHOR]

Published
2014
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150. Analysis of the HNO and NO donating properties of alicyclic amine diazeniumdiolates.

Author

Bharadwaj, Gaurav, Benini, Patricia G.Z., Basudhar, Debashree, Ramos-Colon, Cyf N., Johnson, Gail M., Larriva, Marti M., Keefer, Larry K., Andrei, Daniela, and Miranda, Katrina M.

Subjects
*NITROXYL, *ALICYCLIC compounds, *AMINES, *HEART failure treatment, *ISOPROPYLAMINE, *CHEMICAL decomposition
Abstract

Nitroxyl (HNO) donors have been shown to elicit a variety of pharmacological responses, ranging from tumoricidal effects to treatment of heart failure. Isopropylamine-based diazeniumdiolates have been shown to produce HNO on decomposition under physiological conditions. Herein, we report the synthesis and HNO release profiles of primary alicyclic amine-based diazeniumdiolates. These compounds extend the range of known diazeniumdiolate-based HNO donors. Acetoxymethyl ester-protected diazeniumdiolates were also synthesized to improve purification and cellular uptake. The acetoxymethyl derivative of cyclopentylamine diazeniumdiolate not only showed higher cytotoxicity toward cancer cells as compared to the parent anion but was also effective in combination with tamoxifen for targeting estrogen receptor α-negative breast cancer cells. [ABSTRACT FROM AUTHOR]

Published
2014
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