Leslie A Khawli1, Peisheng Hu, Alan L Epstein. 1. Department of Pathology, Keck School of Medicine of the University of Southern California, Los Angeles, California 90033, USA.
Abstract
PURPOSE: Previously, we have shown that the attachment of interleukin 2 (IL-2) to a tumor-targeting antibody can produce a 4-fold enhancement in the uptake of antibodies and drugs in tumors. More recently, we discovered that a 37-amino-acid linear sequence of IL-2 designated vasopermeability-enhancing peptide (PEP), contained the vasopermeability activity of IL-2, and could be used after linkage to tumor-targeting antibodies to produce the same enhancement of drugs and antibodies in tumors. We now describe the generation of a fully human antibody fusion protein, designated NHS76/PEP(2), which can be used in patients to enhance the therapeutic potential of chemotherapy. METHODS: NHS76/PEP(2) was expressed in NS0 cells using the glutamine synthetase gene amplification system. To show its clinical potential as a pretreatment to chemotherapy, NHS76/PEP(2) was given i.v. 2 hours before the injection of suboptimal doses of etoposide, doxorubicin, Taxol, Taxotere, 5-fluorouracil, or vinblastine in mice bearing established solid tumors. Results were recorded by measuring tumor volumes thrice per week. RESULTS: Compared with drug treatment alone, NHS76/PEP(2) pretreatment substantially improved the effectiveness of chemotherapeutic agents in solid tumor models. Tumor suppression was most pronounced in those groups of mice bearing tumors known to be sensitive to the specific drug under study. However, in certain instances, tumors previously known to be resistant to specific single chemotherapeutic agents were shown to respond by the addition of NHS76/PEP(2) pretreatment. CONCLUSIONS: NHS76/PEP(2) seems an excellent candidate to improve the value of standard chemotherapy drug treatment by virtue of its ability to increase the uptake of drugs in solid tumors selectively.
PURPOSE: Previously, we have shown that the attachment of interleukin 2 (IL-2) to a tumor-targeting antibody can produce a 4-fold enhancement in the uptake of antibodies and drugs in tumors. More recently, we discovered that a 37-amino-acid linear sequence of IL-2 designated vasopermeability-enhancing peptide (PEP), contained the vasopermeability activity of IL-2, and could be used after linkage to tumor-targeting antibodies to produce the same enhancement of drugs and antibodies in tumors. We now describe the generation of a fully human antibody fusion protein, designated NHS76/PEP(2), which can be used in patients to enhance the therapeutic potential of chemotherapy. METHODS: NHS76/PEP(2) was expressed in NS0 cells using the glutamine synthetase gene amplification system. To show its clinical potential as a pretreatment to chemotherapy, NHS76/PEP(2) was given i.v. 2 hours before the injection of suboptimal doses of etoposide, doxorubicin, Taxol, Taxotere, 5-fluorouracil, or vinblastine in mice bearing established solid tumors. Results were recorded by measuring tumor volumes thrice per week. RESULTS: Compared with drug treatment alone, NHS76/PEP(2) pretreatment substantially improved the effectiveness of chemotherapeutic agents in solid tumor models. Tumor suppression was most pronounced in those groups of mice bearing tumors known to be sensitive to the specific drug under study. However, in certain instances, tumors previously known to be resistant to specific single chemotherapeutic agents were shown to respond by the addition of NHS76/PEP(2) pretreatment. CONCLUSIONS: NHS76/PEP(2) seems an excellent candidate to improve the value of standard chemotherapy drug treatment by virtue of its ability to increase the uptake of drugs in solid tumors selectively.
Authors: Julie K Jang; Leslie A Khawli; Ryan Park; Brian W Wu; Zibo Li; David Canter; Peter S Conti; Alan L Epstein Journal: Mol Cancer Ther Date: 2013-10-15 Impact factor: 6.261
Authors: Desmond Pink; Keith A Luhrs; Longen Zhou; Wendy Schulte; Jennifer Chase; Christian Frosch; Udo Haberl; Van Nguyen; Aparna I Roy; John D Lewis; Andries Zijlstra; Missag H Parseghian Journal: Sci Rep Date: 2015-10-29 Impact factor: 4.379