BACKGROUND: UCN-01, a Chk1 inhibitor, abrogates S and G(2) arrest and enhances cancer cell killing by DNA-damaging drugs in preclinical models. UCN-01 avidly binds alpha1-acid glycoprotein in plasma; whether sufficient drug concentrations are achieved in human tumors is unknown. A phase I trial tested the hypothesis that UCN-01 abrogates cisplatin-induced cell cycle arrest (in tumors) at tolerable doses. METHODS: Patients with advanced cancer received i.v. cisplatin, followed 22 hours later by UCN-01 (3-day continuous i.v. infusion of a 28-day cycle). Platinum was measured by atomic absorption, UCN-01 by high-performance liquid chromatography, and cell cycle progression in tumor biopsies by geminin immunostaining (biomarker for S/G(2) phases of cell cycle). RESULTS: The first two patients treated with cisplatin (20 mg/m(2) plus UCN-01 45 mg/m(2)/d) experienced dose-limiting toxicities (subarachnoid hemorrhage, hyperglycemia, hypoxia, cardiac ischemia, and atrial fibrillation). Following 25% UCN-01 dose reduction, no toxicities greater than grade 2 were seen. Median plasma UCN-01 half-life (T(1/2)) was 405 hours. Salivary UCN-01 concentrations showed a rapid initial decline (median T(1/2alpha), 29.9 hours), followed by a terminal decay parallel to that in plasma. UCN-01 pharmacokinetics, and the timing of clinical toxicities, suggests that UCN-01 is bioavailable despite alpha1-acid glycoprotein binding. Marked suppression of cells in S/G(2) in tumor biopsies was seen by geminin immunohistochemistry, suggesting that UCN-01 is bioavailable at concentrations sufficient to inhibit Chk1. CONCLUSIONS: Cisplatin (30 mg/m(2)), followed 22 hours later by UCN-01 (34 mg/m(2)/d for 3 days), is well tolerated clinically and yields UCN-01 concentrations sufficient to affect cell cycle progression in tumors.
BACKGROUND:UCN-01, a Chk1 inhibitor, abrogates S and G(2) arrest and enhances cancer cell killing by DNA-damaging drugs in preclinical models. UCN-01 avidly binds alpha1-acid glycoprotein in plasma; whether sufficient drug concentrations are achieved in humantumors is unknown. A phase I trial tested the hypothesis that UCN-01 abrogates cisplatin-induced cell cycle arrest (in tumors) at tolerable doses. METHODS:Patients with advanced cancer received i.v. cisplatin, followed 22 hours later by UCN-01 (3-day continuous i.v. infusion of a 28-day cycle). Platinum was measured by atomic absorption, UCN-01 by high-performance liquid chromatography, and cell cycle progression in tumor biopsies by geminin immunostaining (biomarker for S/G(2) phases of cell cycle). RESULTS: The first two patients treated with cisplatin (20 mg/m(2) plus UCN-01 45 mg/m(2)/d) experienced dose-limiting toxicities (subarachnoid hemorrhage, hyperglycemia, hypoxia, cardiac ischemia, and atrial fibrillation). Following 25% UCN-01 dose reduction, no toxicities greater than grade 2 were seen. Median plasma UCN-01 half-life (T(1/2)) was 405 hours. Salivary UCN-01 concentrations showed a rapid initial decline (median T(1/2alpha), 29.9 hours), followed by a terminal decay parallel to that in plasma. UCN-01 pharmacokinetics, and the timing of clinical toxicities, suggests that UCN-01 is bioavailable despite alpha1-acid glycoprotein binding. Marked suppression of cells in S/G(2) in tumor biopsies was seen by geminin immunohistochemistry, suggesting that UCN-01 is bioavailable at concentrations sufficient to inhibit Chk1. CONCLUSIONS:Cisplatin (30 mg/m(2)), followed 22 hours later by UCN-01 (34 mg/m(2)/d for 3 days), is well tolerated clinically and yields UCN-01 concentrations sufficient to affect cell cycle progression in tumors.
Authors: Nadeem Khan; Sriram P Mupparaju; Huagang Hou; Jean P Lariviere; Eugene Demidenko; Harold M Swartz; Alan Eastman Journal: Radiat Res Date: 2009-11 Impact factor: 2.841
Authors: Shivaani Kummar; Martin E Gutierrez; Erin R Gardner; William D Figg; Giovanni Melillo; Janet Dancey; Edward A Sausville; Barbara A Conley; Anthony J Murgo; James H Doroshow Journal: Cancer Chemother Pharmacol Date: 2009-11-06 Impact factor: 3.333