PURPOSE: One mechanism of tumor resistance to cytotoxic therapy is repair of damaged DNA. Poly(ADP-ribose) polymerase (PARP)-1 is a nuclear enzyme involved in base excision repair, one of the five major repair pathways. PARP inhibitors are emerging as a new class of agents that can potentiate chemotherapy and radiotherapy. The article reports safety, efficacy, pharmacokinetic, and pharmacodynamic results of the first-in-class trial of a PARP inhibitor, AG014699, combined with temozolomide in adults with advanced malignancy. EXPERIMENTAL DESIGN: Initially, patients with solid tumors received escalating doses of AG014699 with 100 mg/m2/d temozolomide x 5 every 28 days to establish the PARP inhibitory dose (PID). Subsequently, AG014699 dose was fixed at PID and temozolomide escalated to maximum tolerated dose or 200 mg/m2 in metastatic melanoma patients whose tumors were biopsied. AG014699 and temozolomide pharmacokinetics, PARP activity, DNA strand single-strand breaks, response, and toxicity were evaluated. RESULTS: Thirty-three patients were enrolled. PARP inhibition was seen at all doses; PID was 12 mg/m2 based on 74% to 97% inhibition of peripheral blood lymphocyte PARP activity. Recommended doses were 12 mg/m2 AG014699 and 200 mg/m2 temozolomide. Mean tumor PARP inhibition at 5 h was 92% (range, 46-97%). No toxicity attributable to AG014699 alone was observed. AG014699 showed linear pharmacokinetics with no interaction with temozolomide. All patients treated at PID showed increases in DNA single-strand breaks and encouraging evidence of activity was seen. CONCLUSIONS: The combination of AG014699 and temozolomide is well tolerated, pharmacodynamic assessments showing proof of principle of the mode of action of this new class of agents.
PURPOSE: One mechanism of tumor resistance to cytotoxic therapy is repair of damaged DNA. Poly(ADP-ribose) polymerase (PARP)-1 is a nuclear enzyme involved in base excision repair, one of the five major repair pathways. PARP inhibitors are emerging as a new class of agents that can potentiate chemotherapy and radiotherapy. The article reports safety, efficacy, pharmacokinetic, and pharmacodynamic results of the first-in-class trial of a PARP inhibitor, AG014699, combined with temozolomide in adults with advanced malignancy. EXPERIMENTAL DESIGN: Initially, patients with solid tumors received escalating doses of AG014699 with 100 mg/m2/d temozolomide x 5 every 28 days to establish the PARP inhibitory dose (PID). Subsequently, AG014699 dose was fixed at PID and temozolomide escalated to maximum tolerated dose or 200 mg/m2 in metastatic melanomapatients whose tumors were biopsied. AG014699 and temozolomide pharmacokinetics, PARP activity, DNA strand single-strand breaks, response, and toxicity were evaluated. RESULTS: Thirty-three patients were enrolled. PARP inhibition was seen at all doses; PID was 12 mg/m2 based on 74% to 97% inhibition of peripheral blood lymphocyte PARP activity. Recommended doses were 12 mg/m2 AG014699 and 200 mg/m2 temozolomide. Mean tumorPARP inhibition at 5 h was 92% (range, 46-97%). No toxicity attributable to AG014699 alone was observed. AG014699 showed linear pharmacokinetics with no interaction with temozolomide. All patients treated at PID showed increases in DNA single-strand breaks and encouraging evidence of activity was seen. CONCLUSIONS: The combination of AG014699 and temozolomide is well tolerated, pharmacodynamic assessments showing proof of principle of the mode of action of this new class of agents.
Authors: Lucio Tentori; Carlo Leonetti; Marco Scarsella; Giulia D'Amati; Matteo Vergati; Ilaria Portarena; Weizheng Xu; Vincent Kalish; Gabriella Zupi; Jie Zhang; Grazia Graziani Journal: Clin Cancer Res Date: 2003-11-01 Impact factor: 12.531
Authors: Christopher R Calabrese; Robert Almassy; Stephanie Barton; Michael A Batey; A Hilary Calvert; Stacie Canan-Koch; Barbara W Durkacz; Zdenek Hostomsky; Robert A Kumpf; Suzanne Kyle; Jianke Li; Karen Maegley; David R Newell; Elena Notarianni; Ian J Stratford; Donald Skalitzky; Huw D Thomas; Lan-Zhen Wang; Stephen E Webber; Kaye J Williams; Nicola J Curtin Journal: J Natl Cancer Inst Date: 2004-01-07 Impact factor: 13.506
Authors: Matthew A Schaich; Mallory R Smith; Ashley S Cloud; Sean M Holloran; Bret D Freudenthal Journal: Chem Res Toxicol Date: 2017-09-01 Impact factor: 3.739
Authors: Ciric To; Eun-Hee Kim; Darlene B Royce; Charlotte R Williams; Ryan M Collins; Renee Risingsong; Michael B Sporn; Karen T Liby Journal: Cancer Prev Res (Phila) Date: 2014-05-09