BACKGROUND: DE-310 is composed of the topoisomerase-I-inhibitor DX-8951 (exatecan) and a biodegradable macromolecular carrier, which are covalently linked by a peptidyl spacer. In pre-clinical studies, high levels and prolonged retention of conjugated DX-8951 (carrier-bound DX-8951) have been observed in tumor tissues following DE-310 administration. This phenomenon is explained as the enhanced permeability and retention (EPR) effect. DX-8951 and G-DX-8951 (glycyl-DX-8951) exerting anti-tumor activity in vivo are released from DE-310 by enzymatic cleavage of the spacer. METHODS: To quantify the concentration of conjugated DX-8951, DX-8951 and G-DX-8951 in human tissues, six patients with different solid tumor types received 6.0 mg/m(2) of DE-310 (as equivalent of DX-8951) as a single three-hour infusion administered 7 days (+/-2 days) prior to scheduled tumor resection. Drug concentrations were then determined in the resected tissues. To evaluate the plasma PK of DE-310, plasma samples were taken up to 42 days post dosing. RESULTS: There were no severe side effects of the DE-310 infusion. Concentrations of conjugated DX-8951, DX-8951 and G-DX-8951 were in general similar in tumor and relevant normal tissue samples and preferential accumulation of DE-310, DX-8951 and G-DX-8951 in human tumor tissues was not observed. CONCLUSIONS: These data indicate that there is distribution of DE-310 into tissue and that DX-8951 and G-DX-8951 are released slowly over an extended period from DE-310 providing prolonged exposure similar to a continuous infusion. However, the similarity in the concentrations in tumor and relevant normal tissues does not support the EPR concept in the studied human cancers.
BACKGROUND:DE-310 is composed of the topoisomerase-I-inhibitor DX-8951 (exatecan) and a biodegradable macromolecular carrier, which are covalently linked by a peptidyl spacer. In pre-clinical studies, high levels and prolonged retention of conjugated DX-8951 (carrier-bound DX-8951) have been observed in tumor tissues following DE-310 administration. This phenomenon is explained as the enhanced permeability and retention (EPR) effect. DX-8951 and G-DX-8951 (glycyl-DX-8951) exerting anti-tumor activity in vivo are released from DE-310 by enzymatic cleavage of the spacer. METHODS: To quantify the concentration of conjugated DX-8951, DX-8951 and G-DX-8951 in human tissues, six patients with different solid tumor types received 6.0 mg/m(2) of DE-310 (as equivalent of DX-8951) as a single three-hour infusion administered 7 days (+/-2 days) prior to scheduled tumor resection. Drug concentrations were then determined in the resected tissues. To evaluate the plasma PK of DE-310, plasma samples were taken up to 42 days post dosing. RESULTS: There were no severe side effects of the DE-310 infusion. Concentrations of conjugated DX-8951, DX-8951 and G-DX-8951 were in general similar in tumor and relevant normal tissue samples and preferential accumulation of DE-310, DX-8951 and G-DX-8951 in humantumor tissues was not observed. CONCLUSIONS: These data indicate that there is distribution of DE-310 into tissue and that DX-8951 and G-DX-8951 are released slowly over an extended period from DE-310 providing prolonged exposure similar to a continuous infusion. However, the similarity in the concentrations in tumor and relevant normal tissues does not support the EPR concept in the studied humancancers.
Authors: V Boige; E Raymond; S Faivre; M Gatineau; K Meely; S Mekhaldi; P Pautier; M Ducreux; O Rixe; J P Armand Journal: J Clin Oncol Date: 2000-12-01 Impact factor: 44.544
Authors: C H Takimoto; G Morrison; N Harold; M Quinn; B P Monahan; R A Band; J Cottrell; A Guemei; V Llorens; H Hehman; A S Ismail; D Flemming; D M Gosky; H Hirota; S J Berger; N A Berger; A P Chen; J D Shapiro; S G Arbuck; J Wright; J M Hamilton; C J Allegra; J L Grem Journal: J Clin Oncol Date: 2000-02 Impact factor: 44.544
Authors: E K Rowinsky; T R Johnson; C E Geyer; L A Hammond; S G Eckhardt; R Drengler; L Smetzer; J Coyle; J Rizzo; G Schwartz; A Tolcher; D D Von Hoff; R L De Jager Journal: J Clin Oncol Date: 2000-09 Impact factor: 44.544
Authors: G J Creemers; C J Gerrits; J H Schellens; A S Planting; M E van der Burg; V M van Beurden; M de Boer-Dennert; M Harteveld; W Loos; I Hudson; G Stoter; J Verweij Journal: J Clin Oncol Date: 1996-09 Impact factor: 44.544
Authors: M L Rothenberg; J G Kuhn; H A Burris; J Nelson; J R Eckardt; M Tristan-Morales; S G Hilsenbeck; G R Weiss; L S Smith; G I Rodriguez Journal: J Clin Oncol Date: 1993-11 Impact factor: 44.544