Gifford Marzoni scite author profile

The X-ray crystal-structure-based design, synthesis, and biological activity of a novel family of benz[cd]indole-containing inhibitors of thymidylate synthase (TS) are described. The structure-activity of the lead compound was studied by conceptually dividing the molecule into four regions and independently optimizing the substituents for each region. Combination of favored substituents for each region led to inhibitors with Ki's against the human enzyme in the range of 10-20 nM. Thymidine shift experiments suggested that the cytotoxic properties of the best enzyme inhibitors were due to TS targeting in cells. The inhibitors were synthesized from substituted 6-aminobenz[cd]indol-2(1H)-ones by alkylation with both a simple alkyl group and a substituted benzylic portion. The 2,6-diaminobenz[cd]indoles were prepared from the corresponding lactams by conversion to the thiolactam, alkylation to the methylated thiolactam, and then displacement with a substituted or unsubstituted amine.

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Structure-Based Design of Lipophilic Quinazoline Inhibitors of Thymidylate Synthase

Jones

Varney

Webber

et al. 1996

J. Med. Chem.

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To develop novel lipophilic thymidylate synthase (TS) inhibitors, the X-ray structure of Escherichia coli TS in ternary complex with FdUMP and the inhibitor 10-propargyl-5,8-dideazafolic acid (CB3717) was used as a basis for structure-based design. A total of 31 novel lipophilic TS inhibitors, lacking a glutamate residue, were synthesized; 26 of them had in common a N-((3,4-dihydro-2-methyl-6-quinazolinyl)methyl)-N-prop-2-ynylaniline+ ++ structure in which the aniline was appropriately substituted with simple lipophilic substituents either in position 3 or 4, or in both. Compounds were tested for their inhibition of E. coli TS and human TS and also for their inhibition of the growth in tissue culture of a murine leukemia, a human leukemia, and a thymidine kinase-deficient human adenocarcinoma. The crystal structures of five inhibitors complexed with E. coli TS were determined. Five main conclusions are drawn from this study. (i) A 3-substituent such as CF(3), iodo, or ethynyl enhances binding by up to 1 order of magnitude and in the case of CF(3) was proven to fill a nearby pocket in the enzyme. (ii) A simple strongly electron-withdrawing substituent such as NO(2) or CF(3)SO(2) in the 4-position enhances binding by 2 orders of magnitude; it is hypothesized that the transannular dipole so induced interacts favorably with the protein. (iii) Attempts to combine the enhancements of i and ii in the same molecule were generally unsuccessful (iv) A 4-C(6)H(5)SO(2) substituent provided both electron withdrawal and a van der Waal's interaction of the phenyl group with a hydrophobic surface at the mouth of the active site. The inhibition (K(is) = 12 nM) of human TS by this compound, 7n, showed that C(6)H(5)SO(2) provided virtually as much binding affinity as the CO-glutamate which it had replaced. (v) The series of compounds were poorly water soluble, and also the potent TS inhibition shown by several of them did not translate into good cytotoxicity. Compounds with large cyclic groups linked to position 4 by an SO or SO(2) group did, however, have IC(50)'s in the range 1-5 microM. Of these, 4-(N-((3,4-dihydro-2-methyl-6-quinazolinyl)methyl)-N-prop-2-ynylamino )phenyl phenyl sulfone, 7n, had IC(50)'s of about 1 microM and was chosen for further elaboration.

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6-Methylergoline-8-carboxylic acid esters as serotonin antagonists: N1-substituent effects on 5HT2 receptor affinity

Marzoni¹,

Garbrecht²,

Fludzinski³

et al. 1987

J. Med. Chem.

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Three series of 6-methylergoline-8-carboxylic acid esters with various alkyl substituents in the N1-position were prepared and their 5HT2 receptor affinities measured. Some overlap occurred in the 5HT2 receptor affinities of the different ester series, indicating that both the ester side chain and the indole substituent influenced 5HT2 receptor affinity. While 5HT2 receptor affinity was affected by the structure of the ester side chain, the N1-substituent played a more crucial role in determining 5HT2 receptor affinity. When the ester side chain was held constant, maximal 5HT2 receptor affinity for that series of esters was obtained when the N1-substituent was isopropyl. Smaller substituents in the N1-position resulted in reduced 5HT2 receptor affinity. Groups C4 or larger in the N1-position resulted in a further decline in 5HT2 receptor affinity. The importance of the N1-substituent in determining 5HT2 receptor affinity was further substantiated when several 2-methyl-3-ethyl-5-(dimethylamino)indoles with various N1-substituents were tested. Again, maximal 5HT2 receptor affinity was obtained when the N1-substituent was isopropyl.

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N ¹-Alkylation of Dihydrolysergic Acid

Marzoni¹,

Garbrecht²

1987

Synthesis

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A Convenient, Large Scale Synthesis of N-CBZ-(S-Phenyl)-L-Cysteine

Marzoni

Kaldor

Trippe

et al. 1995

Synthetic Communications

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Gifford Marzoni

Crystal-structure-based design and synthesis of benz[cd]indole-containing inhibitors of thymidylate synthase

Structure-Based Design of Lipophilic Quinazoline Inhibitors of Thymidylate Synthase

6-Methylergoline-8-carboxylic acid esters as serotonin antagonists: N1-substituent effects on 5HT2 receptor affinity

N ¹-Alkylation of Dihydrolysergic Acid

A Convenient, Large Scale Synthesis of N-CBZ-(S-Phenyl)-L-Cysteine

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About

Gifford Marzoni

Crystal-structure-based design and synthesis of benz[cd]indole-containing inhibitors of thymidylate synthase

Structure-Based Design of Lipophilic Quinazoline Inhibitors of Thymidylate Synthase

6-Methylergoline-8-carboxylic acid esters as serotonin antagonists: N1-substituent effects on 5HT2 receptor affinity

N 1-Alkylation of Dihydrolysergic Acid

A Convenient, Large Scale Synthesis of N-CBZ-(S-Phenyl)-L-Cysteine

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Product

Resources

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N ¹-Alkylation of Dihydrolysergic Acid