Developing an irreversible inhibitor of human DDAH-1, an enzyme upregulated in melanoma.

Inhibitors of the human enzyme dimethylarginine dimethylaminohydrolase-1 (DDAH-1) can raise endogenous levels of asymmetric dimethylarginine (ADMA) and lead to a subsequent inhibition of nitric oxide synthesis. In this study, N(5) -(1-imino-2-chloroethyl)-L-ornithine (Cl-NIO) is shown to be a potent time- and concentration-dependent inhibitor of purified human DDAH-1 (KI =1.3±0.6 µM; kinact =0.34±0.07 min(-1) ), with >500-fold selectivity against two arginine-handling enzymes in the same pathway. An activity probe is used to measure the "in cell" IC50 value (6.6±0.2 µM) for Cl-NIO inhibition of DDAH-1 artificially expressed within cultured HEK293T cells. A screen of diverse melanoma cell lines reveals that a striking 50/64 (78 %) of melanoma lines tested showed increased levels of DDAH-1 relative to normal melanocyte control lines. Treatment of the melanoma A375 cell line with Cl-NIO shows a subsequent decrease in cellular nitric oxide production. Cl-NIO is a promising tool for the study of methylarginine-mediated nitric oxide control and a potential therapeutic lead compound for other indications with elevated nitric oxide production, such as septic shock and idiopathic pulmonary fibrosis.

A concise synthesis of (+)-salvadione B.

The novel hexacyclic triterpene salvadione B was synthesized in seven steps from the chiral quinone shown. The insight gained from this synthesis permitted a two-step, one-pot sequence to introduce the three additional rings and seven chiral centers.

Diels-Alder reactions of 12-hydroxy-9(10®20)-5aH-abeo-abieta-1(10),8(9),12(13)-triene-11,14-dione.

12-Hydroxy-9(10-->20)-5aH-abeo-abieta-1(10),8(9),12(13)-triene-11,14-dione (quinone 2) served as the dienophile in numerous intermolecular Diels-Alder reactions. These cycloadditions were conducted either thermally (including microwave heating) or with Lewis acid activation. While most dienes reacted with quinone 2 in good chemical yield, others were incompatible under the experimental conditions used.

A click chemistry mediated in vivo activity probe for dimethylarginine dimethylaminohydrolase.

Asymmetric N(omega),N(omega)-dimethyl-l-arginine (ADMA) is an endogenously produced inhibitor of human nitric oxide synthase and an emerging biomarker for cardiovascular disease. Concentrations of ADMA are controlled by two isoforms of its catabolic enzyme dimethylarginine dimethylaminohydrolase (DDAH), the dysregulation of which has been studied as a mediating factor for endothelial dysfunction. A two-part, click-chemistry mediated activity-based probe, N-but-3-ynyl-2-chloroacetamidine, is shown to label myc-tagged DDAH-1 expressed in HEK 293T cells, but not an inactive mutant or inhibited enzyme. A two-color Western blotting technique is used to determine the in vivo IC(50) value for a reversible inhibitor of DDAH-1, N(5)-(1-iminopropyl)-l-ornithine, indicating this compound's bioavailability and its competition for binding to the active site. This probe provides a novel tool for the analysis of DDAH-1 activity in normal and pathophysiological states and should allow more meaningful studies of the etiology of endothelial dysfunction.

Developing dual and specific inhibitors of dimethylarginine dimethylaminohydrolase-1 and nitric oxide synthase: toward a targeted polypharmacology to control nitric oxide.

Molecules that block nitric oxide's (NO) biosynthesis are of significant interest. For example, nitric oxide synthase (NOS) inhibitors have been suggested as antitumor therapeutics, as have inhibitors of dimethylarginine dimethylaminohydrolase (DDAH), an enzyme that catabolizes endogenous NOS inhibitors. Dual-targeted inhibitors hold promise as more effective reagents to block NO biosynthesis than single-targeted compounds. In this study, a small set of known NOS inhibitors are surveyed as inhibitors of recombinant human DDAH-1. From these, an alkylamidine scaffold is selected for homologation. Stepwise lengthening of one substituent converts an NOS-selective inhibitor into a dual-targeted NOS/DDAH-1 inhibitor and then into a DDAH-1 selective inhibitor, as seen in the inhibition constants of N5-(1-iminoethyl)-, N5-(1-iminopropyl)-, N5-(1-iminopentyl)- and N(5)-(1-iminohexyl)-l-ornithine for neuronal NOS (1.7, 3, 20, >1,900 microM, respectively) and DDAH-1 (990, 52, 7.5, 110 microM, respectively). A 1.9 A X-ray crystal structure of the N5-(1-iminopropyl)-L-ornithine:DDAH-1 complex indicates covalent bond formation between the inhibitor's amidino carbon and the active-site Cys274, and solution studies show reversible competitive inhibition, consistent with a reversible covalent mode of DDAH inhibition by alkylamidine inhibitors. These represent a versatile scaffold for the development of a targeted polypharmacological approach to control NO biosynthesis.

Antineoplastic agents. 571. Total synthesis of bacillistatin 2.

The first total synthesis of bacillistain 2 (2) has been achieved in 24 steps and 22.9% overall yield, providing a quite efficient route with maximal convergence. Notable features of this approach include two successful applications of the Mitsunobu reaction during respective assemblies of key intermediates 22 and 27, successful employment of 2-methyl-6-nitrobenzoic anhydride (MNBA) in the formation by lactonization of a macrocyclic (36-membered) ring, and very flexible access to structural modifications of the bacillistatin-type cyclodepsipeptides.

Stereoselective synthesis of (+)-boronolide and its 8-epimer.

Starting from readily available carbohydrates the synthesis of 8-epi-(+)-boronolide 19 and (+)-boronolide was achieved with diastereoselective propargylation of alpha-oxygenated aldehyde as a key step.