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    Development of 2-(5,6,7-Trifluoro-1 H-Indol-3-yl)-quinoline-5-carboxamide as a potent, selective, and orally available inhibitor of human androgen receptor targeting its binding function-3 for the treatment of castration-resistant prostate cancer
    (Amer Chemical Soc, 2021) Leblanc, Eric; Ban, Fuqiang; Lawn, Sam; Huang, Chia-Chi Flora; Mohan, Sankar; Chang, Matthew E. K.; Flory, Mark R.; Ghaidi, Fariba; Lingadahalli, Shreyas; Chen, Gang; Yu, Ivan Pak Lok; Morin, Helene; Lallous, Nada; Gleave, Martin E.; Mohammed, Hisham; Young, Robert N.; Rennie, Paul S.; Cherkasov, Artem; N/A; N/A; Cavga, Ayşe Derya; Lack, Nathan Alan; PhD Student; Faculty Member; Graduate School of Sciences and Engineering; School of Medicine; N/A; 120842
    Prostate cancer (PCa) patients undergoing androgen deprivation therapy almost invariably develop castration-resistant prostate cancer (CRPC). Targeting the androgen receptor (AR) Binding Function-3 (BF3) site offers a promising option to treat CRPC. However, BF3 inhibitors have been limited by poor potency or inadequate metabolic stability. Through extensive medicinal chemistry, molecular modeling, and biochemistry, we identified 2-(5,6,7-trifluoro-1H-Indol-3-yl)-quinoline-5-carboxamide (VPC-13789), a potent AR BF3 antagonist with markedly improved pharmacokinetic properties. We demonstrate that VPC-13789 suppresses AR-mediated transcription, chromatin binding, and recruitment of coregulatory proteins. This novel AR antagonist selectively reduces the growth of both androgen-dependent and enzalutamide-resistant PCa cell lines. Having demonstrated in vitro efficacy, we developed an orally bioavailable prodrug that reduced PSA production and tumor volume in animal models of CRPC with no observed toxicity. VPC-13789 is a potent, selective, and orally bioavailable antiandrogen with a distinct mode of action that has a potential as novel CRPC therapeutics.
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    May iron(III) complexes containing phenanthroline derivatives as ligands be prospective anticancer agents?
    (Elsevier, 2019) Matos, Cristina P.; Adiguzel, Zelal; Yildizhan, Yasemin; Cevik, Ozge; Nunes, Patrique; Ferreira, Liliana P.; Carvalho, Maria Deus; Campos, Debora L.; Pavan, Fernando R.; Pesso, Joao Costa; Garcia, Maria Helena; Tomaz, Ana Isabel; Correia, Isabel; Animal Laboratory; N/A; N/A; Cevatemre, Buse; Önder, Tuğba Bağcı; Ayhan, Ceyda Açılan; Researcher; Faculty Member; Faculty Member; Animal Laboratory; Koç University Research Center for Translational Medicine (KUTTAM) / Koç Üniversitesi Translasyonel Tıp Araştırma Merkezi (KUTTAM); N/A; School of Medicine; School of Medicine; N/A; 184359; 219658
    We report the design, synthesis and biological studies on a group of mixed ligand Fe(111) complexes as anti-cancer drug candidates, namely their interaction with DNA, cytotoxicity and mechanism(s) of action. The aim is to obtain stable, efficient and selective Fe-complexes to be used as anti-cancer agents with less damaging side effects than previously reported compounds. Five ternary Fe(III) complexes bearing a tripodal aminophenolate ligand L2-, H2L = N,N-bis(2-hydroxy-3,5-dimethylbenzyl)-N-(2-pyridylmethyl) amine, and different aromatic bases NN = 2,21-bipyridine [Fe(L)(bipy)]PF6 (1), 1,10-phenanthroline [Fe(L)(phen)]PF6 (2), or a phenanthroline derivative co-ligand: [Fe(L)(amphen)]NO3 (3), [Fe(L)(amphen)]PF6 (3a), [Fe(L)(Clphen)]PF6 (4), [Fe(L)(epoxyphen)]PF6 (5) (where amphen = 1,10-phenanthroline5-amine, epoxyphen = 5,6-epoxy-5,6-dihydro-1,10-phenanthroline, Clphen = 5-chloro-1,10-phenanthroline) and the [Fe(L)(EtOH)]NO3 (6) complex are synthesized. The compounds are characterized in the solid state and in solution by elemental analysis, ESI-MS, magnetic susceptibility measurements and FUR, UV-Vis, H-1 and C-13 NMR and fluorescence spectroscopies. [Fe(phen)Cl-3] and [Fe(amphen)Cl-3] were also prepared for comparison purposes. Spectroscopic binding studies indicate groove binding as the main interaction for most complexes with DNA, and for those containing amphen a B- to Z-DNA conformational change is proposed to occur. As determined via M1T analysis all compounds 1-6 are cytotoxic against a panel of three different cell lines (HeLa, H1299, MDA-MB-231). For selected compounds with promising cytotoxic activity, apoptosis was evaluated using cell and DNA morphology, TUNEL, Annexin VPAAD staining and caspase3/7 activity. The compounds induce oxidative DNA damage on plasmid DNA and in cell culture as assessed by 8-oxo-Guanine and gamma H2AX staining. Comet assay confirmed the presence of genomic damage. There is also increased reactive oxygen species formation following drug treatment, which may be the relevant mechanism of action, thus differing from that normally assumed for cisplatin. The Fe(III)-complexes were also tested against strains of M. Tuberculosis (MTb), complex 2 depicting higher anti-MTh activity than several known second line drugs. Hence, these initial studies show prospective anti-cancer and anti-MTb activity granting promise for further studies.