An increase in side-group hydrophobicity largely improves the potency of ritonavir-like inhibitors of CYP3A4
Identification of structural determinants required for potent inhibition of drug-metabolizing cytochrome P450 3A4 (CYP3A4) could help develop safer drugs and more effective pharmacoenhancers. We utilize a rational inhibitor design to decipher structure-activity relationships in analogues of ritonavir, a highly potent CYP3A4 inhibitor marketed as pharmacoenhancer. Analysis of compounds with the R1 side-group as phenyl or naphthalene and R2 as indole or naphthalene in different stereo configuration showed that (i) analogues with the R2-naphthalene tend to bind tighter and inhibit CYP3A4 more potently than the R2-phenyl/indole containing counterparts; (ii) stereochemistry becomes a more important contributing factor, as the bulky side-groups limit the ability to optimize protein-ligand interactions; (iii) the relationship between the R1/R2 configuration and preferential binding to CYP3A4 is complex and depends on the side-group functionality/interplay and backbone spacing; and (iv) three inhibitors, 5a-b and 7d, were superior to ritonavir (IC50 of 0.055–0.085 μM vs. 0.130 μM, respectively).
Enantioselective Synthesis of 4-Substituted Dihydrocoumarins through a Zinc Bis(hydroxyamide)-Catalyzed Conjugate Addition of Terminal Alkynes
A new enantioselective catalyst for the conjugate addition of terminal alkynes has been developed. Terminal alkynes react with 3- alkoxycarbonylcoumarins in the presence of diethylzinc and bis(hydroxyamide) ligands to give chiral non-racemic dihydrocoumarins substituted with an alkynyl group on the C-4 position with good yields and enantiomeric excesses up to 95%. Copyright
Blay, Gonzalo,Munoz, M. Carmen,Pedro, Jose R.,Sanz-Marco, Amparo
This invention relates to fluorinating agents and, more particularly, to chiral non-racemic fluorinating agents useful for enantioselective fluorination, as well as to their synthesis and use and other subject matter. The fluorinating agents are based on a substituted 1,4-diazabicyclo[2.2.2]octane (DABCO) skeleton and provide electrophillic fluorine enantioselectively.
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(2014/05/24)
NITROGENOUS COMPOUNDS AND ANTIVIRAL DRUGS CONTAINING THE SAME
The present invention provides novel compounds having antiviral activities and antiviral drugs containing the compounds as the active ingredient. The compounds are shown by the following general formula (1), wherein typically A1 and A2 are each guanidine or a group of the general fomula (ia) ; A3 is a mono- or poly-cyclic heteroaromatic ring contining 1 or 2 heteroatoms ; B1 is a single bond or alkylene group; R1 is hydrogen or alkyl group; W is an alkylene having 2-3 carbons, a cycloalkylene having 5-10 carbons, aromatic ring having 6-10 carbons, or a heteroaromatic ring having 5-10 carbons; y is C(=O)-; x is -C(=O)-NH-; n1 is an integer of 1-2; n2 is an integer of 2-3; D is a substituent selected from among various groups.
The association of ICAM-1 with LFA-1 plays a critical role in several autoimmune diseases. N-2-Bromobenzoyl L-tryptophan, compound 1, was identified as an inhibitor to the formation of the LFA-1/ICAM complex. The SAR of the amino acid indicates that the carboxylic acid is required for inhibition and that L-histidine is the most favored amino acid.
Burdick, Daniel J.,Paris, Ken,Weese, Kenneth,Stanley, Mark,Beresini, Maureen,Clark, Kevin,McDowell, Robert S.,Marsters Jr., James C.,Gadek, Thomas R.
p. 1015 - 1018
(2007/10/03)
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