51372-93-1Relevant articles and documents
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Tani,K.,Otsuka,S.,Kido,M.
, p. 7394 (1980)
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Synthesis, biological evaluation, and molecular modeling studies of chiral chloroquine analogues as antimalarial agents
Kondaparla, Srinivasarao,Debnath, Utsab,Dola, Vasantha Rao,Sinha, Manish,Katti, Seturam B.,Soni, Awakash,Srivastava, Kumkum,Puri, Sunil K.
, (2019/01/05)
In a focused exploration, we designed, synthesized, and biologically evaluated chiral conjugated new chloroquine (CQ) analogues with substituted piperazines as antimalarial agents. In vitro as well as in vivo studies revealed that compound 7c showed potent activity (in vitro 50% inhibitory concentration, 56.98 nM for strain 3D7 and 97.76 nM for strain K1; selectivity index in vivo [up to at a dose of 12.5 mg/kg of body weight], 3,510) as a new lead antimalarial agent. Other compounds (compounds 6b, 6d, 7d, 7h, 8c, 8d, 9a, and 9c) also showed moderate activity against a CQ-sensitive strain (3D7) and superior activity against a CQ-resistant strain (K1) of Plasmodium falciparum. Furthermore, we carried out docking and three-dimensional quantitative structure-activity relationship (3D-QSAR) studies of all in-house data sets (168 molecules) of chiral CQ analogues to explain the structure-activity relationships (SAR). Our new findings specify the significance of the H-bond interaction with the side chain of heme for biological activity. In addition, the 3D-QSAR study against the 3D7 strain indicated the favorable and unfavorable sites of CQ analogues for incorporating steric, hydrophobic, and electropositive groups to improve the antimalarial activity.
Overcoming mutagenicity and ion channel activity: Optimization of selective spleen tyrosine kinase inhibitors
Ellis, J. Michael,Altman, Michael D.,Bass, Alan,Butcher, John W.,Byford, Alan J.,Donofrio, Anthony,Galloway, Sheila,Haidle, Andrew M.,Jewell, James,Kelly, Nancy,Leccese, Erica K.,Lee, Sandra,Maddess, Matthew,Miller, J. Richard,Moy, Lily Y.,Osimboni, Ekundayo,Otte, Ryan D.,Reddy, M. Vijay,Spencer, Kerrie,Sun, Binyuan,Vincent, Stella H.,Ward, Gwendolyn J.,Woo, Grace H. C.,Yang, Chiming,Houshyar, Hani,Northrup, Alan B.
supporting information, p. 1929 - 1939 (2015/04/27)
Development of a series of highly kinome-selective spleen tyrosine kinase (Syk) inhibitors with favorable druglike properties is described. Early leads were discovered through X-ray crystallographic analysis, and a systematic survey of cores within a selected chemical space focused on ligand binding efficiency. Attenuation of hERG ion channel activity inherent within the initial chemotype was guided through modulation of physicochemical properties including log D, PSA, and pKa. PSA proved most effective for prospective compound design. Further profiling of an advanced compound revealed bacterial mutagenicity in the Ames test using TA97a Salmonella strain, and subsequent study demonstrated that this mutagenicity was pervasive throughout the series. Identification of intercalation as a likely mechanism for the mutagenicity-enabled modification of the core scaffold. Implementation of a DNA binding assay as a prescreen and models in DNA allowed resolution of the mutagenicity risk, affording molecules with favorable potency, selectivity, pharmacokinetic, and off-target profiles.