Your search keyword '"Yuxiang, Dong"' showing total 208 results

201. Synthetic ozonide drug candidate OZ439 offers new hope for a single-dose cure of uncomplicated malaria.

Author

Charman, Susan A., Arbe-Barnes, Sarah, Bathurst, Ian C., Brun, Reto, Campbell, Michael, Charman, William N., Chiu, Francis C. K., Chollet, Jacques, Craft, J. Carl, Creek, Darren J., Yuxiang Dong, Matile, Hugues, Maurer, Melanie, Morizzi, Julia, Nguyen, Tien, Papastogiannidis, Petros, Scheurer, Christian, Shackleford, David M., Sriraghavan, Kamaraj, and Stingelin, Lukas

Subjects

ARTEMISININ, MALARIA, CLINICAL trials, PLASMODIUM falciparum, DRUG dosage, PLASMODIUM, PATIENTS

Abstract

Ozonide OZ439 is a synthetic peroxide antimalarial drug candidate designed to provide a single-dose oral cure in humans. OZ439 has successfully completed Phase I clinical trials, where it was shown to be safe at doses up to 1,600 mg and is currently undergoing Phase IIa trials in malaria patients. Herein, we describe the discovery of OZ439 and the exceptional antimalarial and pharmacokinetic properties that led to its selection as a clinical drug development candidate. In vitro, OZ439 is fast-acting against all asexual erythrocytic Plasmodium falciparum stages with IC50 values comparable to those for the clinically used artemisinin derivatives. Unlike all other synthetic peroxides and semisynthetic artemisinin derivatives, OZ439 completely cures Plasmodium berghei-infected mice with a single oral dose of 20 mg/kg and exhibits prophylactic activity superior to that of the benchmark chemoprophylactic agent, mefloquine. Compared with other peroxide-containing antimalarial agents, such as the artemisinin derivatives and the first-generation ozonide OZ277, OZ439 exhibits a substantial increase in the pharmacokinetic half-life and blood concentration versus time profile in three preclinical species. The outstanding efficacy and prolonged blood concentrations of OZ439 are the result of a design strategy that stabilizes the intrinsically unstable pharmacophoric peroxide bond, thereby reducing clearance yet maintaining the necessary Fe(II)-reactivity to elicit parasite death. [ABSTRACT FROM AUTHOR]

Published

2011

202. Spiro- and Dispiro-1,2-dioxolanes:  Contribution of Iron(II)-Mediated One-Electron vs Two-Electron Reduction to the Activity of Antimalarial Peroxides.

Author

Xiaofang Wang, Yuxiang Dong, Sergio Wittlin, Darren Creek, Jacques Chollet, Susan A. Charman, Josefina Santo Tomas, Christian Scheurer, Christopher Snyder, and Jonathan L. Vennerstrom

Subjects

*DIOXOLANES, *PEROXIDES, *MALARIA treatment, *BIOCHEMICAL research

Abstract

Fourteen spiro- and dispiro-1,2-dioxolanes were synthesized by peroxycarbenium ion annulations with alkenes in yields ranging from 30% to 94%. Peroxycarbenium ion precursors included triethylsilyldiperoxyketals and -acetals derived from geminal dihydroperoxides and from a new method employing triethylsilylperoxyketals and -acetals derived from ozonolysis of alkenes. The 1,2-dioxolanes were either inactive or orders of magnitude less potent than the corresponding 1,2,4-trioxolanes or artemisinin against P. falciparumin vitro and P. bergheiin vivo. In reactions with iron(II), the predominant reaction course for 1,2-dioxolane 3awas two-electron reduction. In contrast, the corresponding 1,2,4-trioxolane 1and the 1,2,4-trioxane artemisinin undergo primarily one-electron iron(II)-mediated reductions. The key structural element in the latter peroxides appears to be an oxygen atom attached to one or both of the peroxide-bearing carbon atoms that permits rapid -scission reactions (or H shifts) to form primary or secondary carbon-centered radicals rather than further reduction of the initially formed Fe(III) complexed oxy radicals. [ABSTRACT FROM AUTHOR]

Published

2007

203. Polyfluorinated Bis-styrylbenzene -Amyloid Plaque Binding Ligands.

Author

Daniel P. Flaherty, Shannon M. Walsh, Tomomi Kiyota, Yuxiang Dong, Tsuneya Ikezu, and Jonathan L. Vennerstrom

Published

2007

204. CLONORCHICIDAL PROPERTIES OF THE SYNTHETIC TRIOXOLANE OZ78.

Author

Keiser, Jennifer, Shu-Hua Xiao, Yuxiang Dong, Jürg Utzinger, and Vennerstrom, Jonathan L.

Subjects

PEROXIDES, FASCIOLA hepatica, RATS, LIVER flukes, SCANNING electron microscopy, TREMATODA

Abstract

Because the synthetic trioxolane OZ78 is active against the liver fluke Fasciola hepatica, we were motivated to investigate the in vivo and in vitro activity against another liver fluke, namely Clonorchis sinensis. Rats infected with C. sinensis for 2 and 5 wk were treated orally with single doses of OZ78 (75, 150, or 300 mg/kg). Worm burden reductions were assessed against untreated control rats. Scanning electron microscopy (SEM) was used to observe adult C. sinensis after recovery from rats 1-3 days posttreatment with a single 300 mg/kg oral dose of OZ78 and after in vitro exposure to concentrations of 1, 10, and 100 μg/ml of OZ78. A single 300 mg/kg oral dose of OZ78 resulted in worm burden reductions of 78.5% and 98.5% against juvenile and adult C. sinensis, respectively. SEM observations revealed tegumental surface alterations, including blebbing and sloughing. OZ78 emerges as a new compound with a broad spectrum of activity against major foodborne trematode infections. [ABSTRACT FROM AUTHOR]

Published

2007

205. Synthesis of Tetrasubstituted Ozonides by the Griesbaum Coozonolysis Reaction: Diastereoselectivity and Functional Group Transformations by Post-Ozonolysis Reactions.

Author

Yuanqing Tang, Yuxiang Dong, Karle, Jean M., DiTusa, Charles A., and Vennerstrom, Jonathan L.

Subjects

*OXIMES, *HYDRAZINES, *GRIGNARD reagents, *AMINES, *ALCOHOL, *ESTERS, *SULFIDES, *SULFONES

Abstract

The diastereoselectivity of the Griesbaum co-ozonalysis reaction with O-methyl 2-adamantanone oxime and 4-substituted cylclohexanones reveals that the major tetrasubstituted ozonide isomers possess cis configurations, suggesting a preferred axial attack of thecarbonyl oxide on the cyclohexanone dipolarophiles. It is evident that these tetrasubstituted ozonides are quite stable to triphenylphosphine, borohydrides, hydrazine, alkyllithiums, Grignard reagents, mercaptides, and aqueous KOH as illustrated by the synthesis of amine, alcohol, acid, ester, sulfide, sulfone, and heterocycle-funtionalized ozonides by a wide range of post-ozonolosis transformations. [ABSTRACT FROM AUTHOR]

Published

2004

206. Short Report: Antischistosomal versus Antiandrogenic Properties of Aryl Hydantoin Ro 13-3978.

Author

Chunkai Wang, Oingjie Zhao, Jaeki Min, Muniyan, Sakthivel, Vargas, Mireille, Xiaofang Wang, Yuxiang Dong, Guy, R. Kiplin, Ming-Fong Lin, Keiser, Jennifer, and Vennerstrom, Jonathan L.

Published

2014

207. One-Pot, Metal-Free Conversion of Anilines to Aryl Bromides and Iodides.

Author

Leas, Derek A., Yuxiang Dong, Vennerstrom, Jonathan L., and Stack, Douglas E.

Subjects

*ARYL bromides, *IODIDES, *ANILINE, *HALOGENATION, *DIAZONIUM compounds

Abstract

A metal-free synthesis of aryl bromides and iodides from anilines via halogen abstraction from bromotrichloromethane and diiodomethane is described. This one-pot reaction affords aryl halides from the corresponding anilines in moderate to excellent yields without isolation of diazonium salts. The transformation has short reaction times, a simple workup, and insensitivity to moisture and air and avoids excess halogenation. DFT calculations support a SRN1 mechanism. This method represents a convenient alternative to the classic Sandmeyer reaction. [ABSTRACT FROM AUTHOR]

Published

2017

208. Iron-mediated degradation kinetics of substituted dispiro-1,2,4-trioxolane antimalarials.

Author

Creek, Darren J., Charman, William N., Chiu, Francis C. K., Prankerd, Richard J., McCullough, Kevin J., Yuxiang Dong, Vennerstrom, Jonathan L., and Charman, Susan A.

Subjects

*DRUG therapy for malaria, *CHEMICAL reactions, *INTERFERON inducers, *IRON, *ANTIMALARIALS, *ANTIPROTOZOAL agents, *PHARMACOLOGY

Abstract

The iron-mediated reactivity of various dispiro-1,2,4-trioxolanes was determined by automated kinetic analysis under standard reaction conditions. The active antimalarial compounds underwent peroxide bond cleavage by Fe(II) resulting in products indicative of carbon-centered radical formation. The rate of reaction was heavily influenced by the presence of spiro-substituted adamantane and cyclohexane rings, and was also significantly affected by cyclohexane ring substitution. Steric hindrance around the peroxide oxygen atoms appeared to be the major determinant of reaction rate, however polar substituents also affected reactivity by an independent mechanism. A wide range of reaction rates was observed within this class of peroxide antimalarials, however iron-mediated reactivity did not directly correlate with in vitro antimalarial activity. © 2007 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 96: 2945–2956, 2007 [ABSTRACT FROM AUTHOR]

Published

2007