Emmanuel E. Polymeropoulos scite author profile

The synthesis of 2,3,6-triaminopyridine derivatives, representing a unique chemical structure for anticonvulsants, is described. The synthetic program was performed (a) to identify more potent analogs, (b) to determine structural properties controlling potency as well as neurotoxicity, and (c) to reduce the requirements for animal testing. As a result, besides other structural properties, the overall molecular lipophilicity (log k', octanol-coated column) explained changes in anticonvulsant potency and neurotoxicity. Mimicking the interaction of the amphiphilic triaminopyridines with biological membranes, NMR experiments in the presence of lecithin vesicles were conducted in order to measure the phospholipid-binding parameter log delta (1/T2). Replacement of log k' with log delta (1/T2) in the correlation analysis afforded a more significant equation describing the anticonvulsant activity of 21 derivatives.

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Chemical and Biological Evaluation of Hydrolysis Products of Cyclophosphamide

Gilard¹,

Martino²,

Malet‐Martino³

et al. 1994

J. Med. Chem.

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31P NMR spectroscopy was used to study the products of the decomposition of cyclophosphamide (1) in buffered solutions at pH's ranging between 1.2 and 8.6 at 20 degrees C and at pH 7.4 at 37 degrees C. At pH 1.2, 1 undergoes a rapid breakdown (t1/2 = 1.4 days) of the two P-N bonds, giving compounds 2 [HN(CH2CH2Cl)2] and 3 [H2N(CH2)3OP(O)(OH)2] as hydrochlorides. No intermediates were detected. At pH's between 5.4 and 8.6, hydrolysis of 1 during 17 days leads to the sole and previously unknown nine-membered ring compound 13. 13 results from the intramolecular alkylation of 1 giving the bicyclic compound 7 followed by the exothermal hydrolytic breakdown of the P-N bond of its six-membered ring. At pH 2.2 and 3.4, the two hydrolytic pathways coexist since, beside compounds 2 and 3, the hydrochloride of compound 9 [Cl(CH2)2NH(CH2)2NH(CH2)3OP(O)(OH)2] is formed, resulting from the acid-catalyzed breakdown of the P-N bond in the nine-membered ring compound 13. At pH 2.2, the presence of chloride ion affected neither the stability of 1 nor the contribution of the two competing hydrolytic pathways. At pH's ranging from 3.4 to 8.6, there is little degradation of 1 since more than 95% of initial 1 was still present after 7 days at 20 degrees C. Under physiological conditions (pH 7.4, 37 degrees C) after 6 days, 45% of 1 is hydrolyzed (t1/2 = 6.6 days), leading essentially (30% of initial 1) to the nine-membered ring compound 13. The rate of hydrolysis of 13 and the nature of its hydrolysis products were found to depend on pH over the range 0-8.6. After a single ip injection to mice, compounds 3, 9, and 13 were less toxic than 1. They did not exhibit any direct cytotoxic efficacy on the colony-forming capacity of L1210 cells in vitro, and they had no antitumor activity in vivo against P388 leukemia.

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Chemistry and Molecular Biology in the Search for New LHRH Antagonists

Kutscher¹,

Bernd²,

Beckers³

et al. 1997

Angew. Chem. Int. Ed. Engl.

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Dedicated to Proj>ssor Herrherr Offermanns on [he occusion of his 60th birrhdujlHormones--and in particular, the sex honnoncs-wcfe the first growth factors discovered to be involuntary helpers of cancer. Female breast cancer and male prostate cancer are the best known examples of tumors acknowledged to be hormone-dependent. A look at cancer statistics shows that breast cancer is still the most frequent cancer in women; in men, prostate cancer plays a similarly dominant role with increasing age. Shutting down the main production site of the sex hormmes estrogen and testosterone either by removing the ovaries or by castration is a well-known and often effective therapy; however. these procedures can be problematic due to the concomjttant psychological stress. Modern hormone therapy for advanced breast cancer and prostate cancer attempts to spare the patient such irreversible operative procedures for as long as possible, by using hormone antagonists. such as the LHRH antagonists, which hinder deployment of the hormone itself and thus :ts growthpromoting activity.

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