Potent and Highly Selective Hypoxia-Activated Achiral Phosphoramidate Mustards as Anticancer DrugsJian-Xin Duan, Hailong Jiao, Jacob A. Kaizerman et al.|Journal of Medicinal Chemistry|2008 A series of achiral hypoxia-activated prodrugs were synthesized on the basis of the DNA cross-linking toxin of the prodrug, ifosfamide. The hypoxia-selective cytotoxicity of several of the compounds was improved over previously reported racemic mixtures of chiral bioreductive phosphoramidate prodrugs. Prodrugs activated by 2-nitroimidazole reduction demonstrated up to 400-fold enhanced cytotoxicity toward H460 cells in culture under hypoxia versus their potency under aerobic conditions. Compounds were further assessed for their stability to cytochrome P450 metabolism using a liver microsome assay. The 2-nitroimidazole containing lead compound 3b (TH-302) was selectively potent under hypoxia and stable to liver microsomes. It was active in an in vivo MIA PaCa-2 pancreatic cancer orthotopic xenograft model as a monotherapy and demonstrated dramatic efficacy when used in combination with gemcitabine, extending survival with one of eight animals tumor free at day-44. Compound 3b has emerged as a promising antitumor agent that shows excellent in vivo efficacy and is currently being evaluated in the clinic.
The 2-N,N-Dibenzylamino Group as a Participating Group in the Synthesis ofβ-GlycosidesHailong Jiao, Ole Hindsgaul|Angewandte Chemie International Edition|1999 The novel glycosyl donor 2-N,N-dibenzylaminothioglycoside 1 reacts with glycopyranoside alcohols 2, presumably via intermediate 3, to provide 1,2-trans-linked disaccharides 4 in high yield (78-86 %) and with high stereoselectivity. The N-benzyl protecting groups are readily cleaved under normal hydrogenolysis conditions, facilitating the synthesis of oligosaccharides with free amino groups.
Pharmacokinetics of TH-302: a hypoxically activated prodrug of bromo-isophosphoramide mustard in mice, rats, dogs and monkeysDonald Jung, Lin Lin, Hailong Jiao et al.|Cancer Chemotherapy and Pharmacology|2011 14-Aminocamptothecins: Their Synthesis, Preclinical Activity, and Potential Use for Cancer TreatmentJian-Xin Duan, Xiaohong Cai, Fanying Meng et al.|Journal of Medicinal Chemistry|2011 14-Aminocamptothecins were synthesized in good yields by treating camptothecin (1a) and 7-ethylcamptothecin (1b) with 90% fuming nitric acid either neat or in acetic anhydride and then followed by reduction of the resulting 14-nitrocamptothecins (2). 14-Aminocamptothecin (3a) and 7-ethyl-14-aminocamptothecin (3b) demonstrated excellent cytotoxic potency against human tumor cell lines in vitro, and they are not substrates for any of the major clinically relevant efflux pumps (MDR1, MRP1, and BCRP). 3a and 3b showed similar cytotoxicity against human and mouse bone marrow progenitor cells. This is in contrast to many camptothecin analogues, which are substrates for efflux pumps and are dramatically more toxic to human marrow cells relative to murine. 3a and 3b demonstrated significant brain penetration when dosed orally in mice. 3b showed significantly better efficacy relative to topotecan when dosed orally in the three ectopic xenograft models, H460, HT29, and PC-3. On the basis of its favorable in vitro and in vivo profile, 3b warrants future development.
Die Beteiligung der 2-N,N-Dibenzylaminogruppe bei der Synthese von β-GlycosidenHailong Jiao, Ole Hindsgaul|Angewandte Chemie|1999 Der neuartige Glycosyldonor 1 reagiert mit Glycopyranosiden 2, vermutlich über Intermediate 3, stereoselektiv und in hohen Ausbeuten (78–86 %) zu 1,2-trans-verknüpften Disacchariden 4. Die N-Benzyl-Schutzgruppen lassen sich leicht unter üblichen Hydrierungsbedingungen abspalten; dies erleichtert die Synthese von Oligosacchariden mit freien Aminogruppen.