John S. Williamson scite author profile

A variety of hydroxamic acid derivatives have recently been touted for their potential use as inhibitors of hypertension, tumor growth, inflammation, infectious agents, asthma, arthritis, and more. Here we provide a comprehensive review of the basic medicinal chemistry and pharmacology of hydroxamic acid derivatives that have been examined as inhibitors of zinc metalloproteases, matrix metalloproteinases, leukotriene A(4) hydrolases, ureases, lipoxigenases, cyclooxygenases, as well as peptide deformilases.

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Chemoselective reductive alkylation of ammonia with carbonyl compounds: synthesis of primary and symmetrical secondary amines

Miriyala

2004

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Rate Constants for the Reactions of XO₃^-(H₂O)_n (X = C, HC, and N) and NO₃^-(HNO₃)_n with H₂SO₄: Implications for Atmospheric Detection of H₂SO₄

Viggiano¹,

Seeley²,

Mundis³

et al. 1997

J. Phys. Chem. A

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Relative rate constants for the reactions of CO and NO 3 -(HNO 3 ) n with H 2 SO 4 have been measured for n ) 0-2, 0-2, 0-3, and 0-3, respectively. All rate constants have been found to occur in the ratio expected for the collisional values. This strongly indicates that the reactions proceed at the collision rate, and we assign absolute rate constants on the basis of this assumption. The present results show that all ions previously used for chemical ionization detection of H 2 SO 4 concentrations in the atmosphere react rapidly, as has been previously assumed.

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Angiogenesis New Targets for the Development of Anticancer Chemotherapies

Gourley¹,

Williamson²

2000

CPD

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Angiogenesis is the process by which new blood vessels are formed from preexisting microvasculature. To ensure an adequate blood supply, tumor cells release angiogenic factors that are capable of promoting nearby blood vessels to extend vascular branches to the tumor. In addition, larger tumors have been shown to release angiogeneic inhibitory factors that prevent blood vessels from sending branches to smaller, more distant tumors that compete for oxygen and nutrients. Angiogenesis is a complex multistep biochemical process, and offers several potential molecular targets for non-cytotoxic anticancer therapies. Strategies for exploiting tumor angiogenesis for novel cancer drug discovery include: (i) inhibition of proteolytic enzymes that breakdown the extracellular matrix surrounding existing capillaries; (ii) inhibition of endothelial cell migration; (iii) inhibition of endothelial cell proliferation; (iv) enhancement of tumor endothelial cell apoptosis. There is also a host of miscellaneous agents that inhibit angiogenesis for which the specific mechanisms are not clear. Several methods have been developed for measuring antiangiogenic activity both in vitro and in vivo. Although there has been intensive research efforts focused at the phenomena of angiogenesis, as well as the search for antiangiogenic agents for more than two decades, many questions remain unanswered with regard to the overall biochemical mechanisms of the angiogenesis process and the potential therapeutic utility of angiogenic inhibitors. Nevertheless potent angiogenic inhibitors capable of blocking tumor growth have been discovered, and appear to have potential for development into novel anticancer therapeutics. However there are still hurdles to be overcome before these inhibitors become mainstream therapies.

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Transformation of artemisinin by Cunninghamella elegans

Parshikov

Muraleedharan

Avery

et al. 2004

Applied Microbiology and Biotechnology

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Semi-synthetic derivatives of the anti-malarial drug artemisinin hold great promise in the search for an effective and economical treatment of chloroquine-resistant forms of malaria. Unfortunately, synthetic functionalization of the artemisinin skeleton is often tedious and/or impractical. We seek to utilize 7beta-hydroxyartemisinin, obtained from microbial transformation, as a semi-synthetic precursor for the synthesis of novel 7beta-substituted artemisinin anti-malarial agents. Here we employ liquid cultures of Cunninghamella elegans as a means for the rational and economical bioconversion of artemisinin to 7beta-hydroxyartemisinin in 78.6% yield. In addition, there were three other bioconversion products: 7beta-hydroxy-9alpha-artemisinin (6.0%), 4alpha-hydroxy-1-deoxoartemisinin (5.4%), and 6beta-hydroxyartemisinin (6.5%).

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