PURPOSE: Camptothecins have emerged as an important new class of antitumor drugs. Camptothecin derivatives such as CPT-11 and topotecan are commercially available and approved for the treatment of colorectal (CPT-11) and ovarian and small-cell lung cancer (topotecan). This study was designed to test the efficacy of karenitecin, a novel highly lipophilic camptothecin derivative, against a panel of human tumor xenografts derived from adult and pediatric central nervous system malignancies growing in athymic nude mice. METHODS: Xenografts evaluated were derived from childhood high-grade gliomas (D-212 MG, D-456 MG), adult high-grade gliomas (D-54 MG, D-245 MG), medulloblastomas (D-341 MED, D-487 MED), and ependymomas (D-528 EP, D-612 EP), as well as sublines with demonstrated resistance to procarbazine (D-245 MG (PR)) and busulfan (D-456 (BR)). In replicate experiments, karenitecin was given at 1.0 mg/kg per dose via intraperitoneal injection for a period of 10 consecutive days, which is the dosage lethal to 10% of treated animals. RESULTS: Karenitecin produced statistically significant (P < or = 0.001) growth delays in all subcutaneous xenografts tested, including the sublines resistant to procarbazine and busulfan. Growth delays ranged from 12.1 days in D-456 MG (BR) to 90+ days in D-212 MG and D-341 MED. Karenitecin also produced statistically significant (P < or = 0.001) increases in survival of animals bearing D-341 MED intracranial xenografts (69% increase) and those bearing D-456 MG xenografts (62% increase). CONCLUSION: These preclinical studies confirm that karenitecin is active against human central nervous system xenografts and should undergo clinical evaluation in patients with malignant central nervous system tumors.
PURPOSE:Camptothecins have emerged as an important new class of antitumor drugs. Camptothecin derivatives such as CPT-11 and topotecan are commercially available and approved for the treatment of colorectal (CPT-11) and ovarian and small-cell lung cancer (topotecan). This study was designed to test the efficacy of karenitecin, a novel highly lipophilic camptothecin derivative, against a panel of humantumor xenografts derived from adult and pediatric central nervous system malignancies growing in athymic nude mice. METHODS: Xenografts evaluated were derived from childhood high-grade gliomas (D-212 MG, D-456 MG), adult high-grade gliomas (D-54 MG, D-245 MG), medulloblastomas (D-341 MED, D-487 MED), and ependymomas (D-528 EP, D-612 EP), as well as sublines with demonstrated resistance to procarbazine (D-245 MG (PR)) and busulfan (D-456 (BR)). In replicate experiments, karenitecin was given at 1.0 mg/kg per dose via intraperitoneal injection for a period of 10 consecutive days, which is the dosage lethal to 10% of treated animals. RESULTS:Karenitecin produced statistically significant (P < or = 0.001) growth delays in all subcutaneous xenografts tested, including the sublines resistant to procarbazine and busulfan. Growth delays ranged from 12.1 days in D-456 MG (BR) to 90+ days in D-212 MG and D-341 MED. Karenitecin also produced statistically significant (P < or = 0.001) increases in survival of animals bearing D-341 MED intracranial xenografts (69% increase) and those bearing D-456 MG xenografts (62% increase). CONCLUSION: These preclinical studies confirm that karenitecin is active against human central nervous system xenografts and should undergo clinical evaluation in patients with malignant central nervous system tumors.
Authors: Shengnan Yu; Shiyou Wei; Milan Savani; Xiang Lin; Kuang Du; Ilgen Mender; Silvia Siteni; Themistoklis Vasilopoulos; Zachary J Reitman; Yin Ku; Di Wu; Hao Liu; Meng Tian; Yaohui Chen; Marilyne Labrie; Casey M Charbonneau; Eric Sugarman; Michelle Bowie; Seethalakshmi Hariharan; Matthew Waitkus; Wen Jiang; Roger E McLendon; Edward Pan; Mustafa Khasraw; Kyle M Walsh; Yiling Lu; Meenhard Herlyn; Gordon Mills; Utz Herbig; Zhi Wei; Stephen T Keir; Keith Flaherty; Lunxu Liu; Kongming Wu; Jerry W Shay; Kalil Abdullah; Gao Zhang; David M Ashley Journal: Clin Cancer Res Date: 2021-09-30 Impact factor: 13.801
Authors: Daniel Farray; Manmeet S Ahluwalia; Josette Snyder; Gene H Barnett; Bruce H Cohen; John H Suh; David M Peereboom Journal: Invest New Drugs Date: 2006-05 Impact factor: 3.651
Authors: Stephen T Keir; Vidyalakshmi Chandramohan; Carlee D Hemphill; Michael M Grandal; Maria Carlsen Melander; Mikkel W Pedersen; Ivan D Horak; Michael Kragh; Annick Desjardins; Henry S Friedman; Darell D Bigner Journal: J Neurooncol Date: 2018-03-21 Impact factor: 4.130