Letters in Drug Design & Discovery

ISSN: 1570-1808

Letters in Drug Design & Discovery
Volume 5, Number 5, July 2008


Contents


QSAR Studies on some Calcium Channel Blockers Pp. 307-312
M.A. Naik, V.S.A.K. Satuluri and S.P. Gupta
[Abstract]


Synthesis of N-Benzenesulfonylbenzotriazole Derivatives, and Evaluation of their Antimicrobial Activity Pp. 313-318
L.Y. Hergert, M.J. Nieto, M.C. Becerra, I. Albesa and M.R. Mazzieri
[Abstract]


Virtual Screening of the Guanylate Monophosphate Kinase (GMPK) Family: Investigating the Rules of Ligand Specificity Pp. 319-326
T.E. Malliavin, H. Munier-Lehman and V. Stoven
[Abstract]


Antibacterial Pleuromutilin Derivatives based on Alternate Core Structures: Arigoni and Birch Chemistry Revisited Pp. 327-331
D.M. Springer, J.T. Goodrich, B.-Y. Luh, J.J. Bronson, Q. Gao, S. Huang, K. DenBleyker, T.J. Dougherty and J. Fung-Tomc
[Abstract]


The Interaction of Titanocene Y with Double-Stranded DNA: A Computational Study Pp. 332-335
M. Tacke
[Abstract]


Structure-Activity Relationship Study of 8-amino-2,8-dideoxy-β KDO, a Potent CMP-KDO Synthetase Inhibitor Pp. 336-339
H. Adachi, K.-I. Kondo, F. Kojima, Y. Umezawa, K. Ishino, H. Kunimoto, Y. Nishimura and Y. Akamatsu
[Abstract]


Discovery of AX8312, an N-alkyl-Gly-boro-Pro Derivative that Accelerates Recovery from Neutropenia in the Mouse Pp. 340-345
E.C.K. Lin, K.R. Shreder, M.C. Zhang, Y. Hu, L. Morera, M. Wu, M.S. Wong, L. Ma, D. Chun, S. Corral and J.W. Kozarich
[Abstract]


Disodium Phosphate of Novel Pyrazole-Linked Norcantharidin Analogs: Design, Synthesis and their Anticancer Evaluation Pp. 346-352
L. Deng, B. Yang, Q. He and Y. Hu
[Abstract]


Synthesis and Biological Evaluation of a New Series of Benzothiazole- Quinolone Hybrids as Antibacterial Agents Pp. 353-357
A. Kamal, S.K. Ahmed, M.N.A. Khan, R.V.C.R.N.C. Shetty, B. Siddhardha and U.S.N. Murty
[Abstract]




Abstracts


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QSAR Studies on some Calcium Channel Blockers
M.A. Naik, V.S.A.K. Satuluri and S.P. Gupta

Quantitative structure-activity relationship studies have been made on some calcium channel blockers (CCBs) that include the most widely studied class of 1,4-dihydropyridines and two new classes of CCBs, namely benzazepinone analogs and quinolizidinyl derivatives. In the case of 1,4-dihydropyridines some simple correlations have been found as compared to those reported in several earlier studies and in the other two classes it could be shown that the electronic parameters and the bulk of the molecules may be important for the activity of the compounds.


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Synthesis of N-Benzenesulfonylbenzotriazole Derivatives, and Evaluation of their Antimicrobial Activity
L.Y. Hergert, M.J. Nieto, M.C. Becerra, I. Albesa and M.R. Mazzieri

A series of benzenesulfonyl compounds, 1a-i, containing a BZT moiety was synthesized and characterized, and their antifungal and antibacterial activities were investigated. Compounds 1a and 1d showed the highest activity against Escherichia coli ATCC 25922; in addition 1a presented bactericidal activity against E. coli and Staphylococcus aureus at 8.6 mM. The ability of 1a to generate superoxide anion (O₂.-) was measured and it showed more stimuli in S. aureus compared to sulfathiazole, indicating that 1a can be involved in oxidative stress of bacteria. None of the compounds inhibited the growth of the dermatophytes strains at the tested concentration (250 μg/ml).


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Virtual Screening of the Guanylate Monophosphate Kinase (GMPK) Family: Investigating the Rules of Ligand Specificity
T.E. Malliavin, H. Munier-Lehman and V. Stoven

Guanylate kinases (GMPK) from Mycobacterium tuberculosis, Mus musculus and Saccharomyces cereviae were submitted to virtual screening in order to determine protein-ligand interactions specific to M. tuberculosis. The opening of the cleft between CORE, LID and GMP domains was found to have a large influence on the established interactions and on the determination of ligands binding specifically to the M. tuberculosis GMPK. An extended definition of the active site pocket, allowing to be more discriminant between Mycobacterium tuberculosis and M. musculus, is given. A virtual screening run with the extended pocket definition, was used to select compounds having high docking scores on M. tuberculosis GMPK and low ones on M. musculus GMPK. The protein residues involved in hydrogen bonds with ligands were the same than in the GMPK-GMP complex, but the chemical functions of the ligand involved in these hydrogen bonds are often different. On the other hand, the hydrophobic interactions are different from the ones observed in the GMPK-GMP structure, and may be a way to increase the specificity between the M. tuberculosis and M. musculus GMPKs.


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Antibacterial Pleuromutilin Derivatives based on Alternate Core Structures: Arigoni and Birch Chemistry Revisited
D.M. Springer, J.T. Goodrich, B.-Y. Luh, J.J. Bronson, Q. Gao, S. Huang, K. DenBleyker, T.J. Dougherty and J. Fung-Tomc

Pleuromutilin derivatives comprised of varied core structures have been synthesized. Many of the compounds described were found to have surprisingly good antibacterial activity in vitro.


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The Interaction of Titanocene Y with Double-Stranded DNA: A Computational Study
M. Tacke

In a computational study using the force field method MM+, the known anticancer drug Titanocene Y was reacted with its biological target, which is believed to be double-stranded DNA. It was found that after the loss of two chloride ligands, the substituted titanocene dication conveniently coordinates strongly to a phosphate group by replacing a counter ion. In addition, the two p-methoxybenzyl groups have exactly the right length and flexibility to coordinate to two sodium counter ions bonded to two neighbouring phosphate groups, which allows Titanocene Y to become a chelating ligand strongly bonded to the surface of double-stranded DNA.


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Structure-Activity Relationship Study of 8-amino-2,8-dideoxy-β KDO, a Potent CMP-KDO Synthetase Inhibitor
H. Adachi, K.-I. Kondo, F. Kojima, Y. Umezawa, K. Ishino, H. Kunimoto, Y. Nishimura and Y. Akamatsu

8-Amino-2,8-dideoxy-β-KDO is a well-known inhibitor of CMP-KDO synthetase involved in the biosynthesis of lipopolysaccharide (LPS), an essential component of the outer membrane of gram-negative bacteria. Chemical modification of the hydroxyl groups of 8-amino-2,8-dideoxy- β-KDO proved that they play a crucial role in CMP-KDO synthetase inhibition.


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Discovery of AX8312, an N-alkyl-Gly-boro-Pro Derivative that Accelerates Recovery from Neutropenia in the Mouse
E.C.K. Lin, K.R. Shreder, M.C. Zhang, Y. Hu, L. Morera, M. Wu, M.S. Wong, L. Ma, D. Chun, S. Corral and J.W. Kozarich

A screen of N-alkyl-Gly-boro-Pro DPP inhibitors using an acute murine model revealed that N-adamantyl and N-cycloalkyl groups greater in size than cyclobutyl significantly induced G-CSF. Treatment of neutropenic mice with the most efficacious compound, AX8312 (N-(1-adamantyl)-Gly-boro-Pro), resulted in a faster and greater neutrophil recovery versus vehicle-treated mice.


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Disodium Phosphate of Novel Pyrazole-Linked Norcantharidin Analogs: Design, Synthesis and their Anticancer Evaluation
L. Deng, B. Yang, Q. He and Y. Hu

To design and synthesize novel pyrazole-linked norcanthridin analogs and their disodium phosphates by [3+2]1, 3-dipolar cycloaddition reaction of norcantharidin derivatives of substituted aromatic amines with three hydrazines. All analogues have been screened for their antiproliferative activity in vitro against a panel of tumor cell lines: KB, SMMC-7721, SGC7901, ECA109, HO-8910, K562, A549 and MCF-7 producing IC₅₀ values from 0.07 μM to >100 μM. Compound 8c showed potency for the treatment of hepatoma, with IC₅₀ value to SMMC-7721 cell line comparable to that of norcantharidin. High potency and selectivity of compound 12 to MCF-7 cell line prove that the phosphorylation of norcantharidin analogs is an effective way to increase the activity and solubility.


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Synthesis and Biological Evaluation of a New Series of Benzothiazole- Quinolone Hybrids as Antibacterial Agents
A. Kamal, S.K. Ahmed, M.N.A. Khan, R.V.C.R.N.C. Shetty, B. Siddhardha and U.S.N. Murty

In an effort to develop new and more effective therapies to treat bacterial infection, quinolone coupled benzothiazoles (6a-f) have prepared and evaluated for their efficacy as antibacterial agents against various Gram-positive and Gram-negative strains of bacteria. Some of the compounds from this series exhibited antibacterial activity comparable to ciprofloxacin.