Cancer research
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We investigated whether combined treatment with tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) and trastuzumab could enhance the specific killing of cells that overexpress the erbB-2 receptor. The combination resulted in an enhancement of TRAIL-mediated apoptosis in all cell lines overexpressing erbB-2 receptor compared with either reagent alone. In contrast, there was no effect in cell lines with low levels of the erb-B2 receptor. ⋯ Expression of a constitutively active form of Akt kinase in an erbB-2-overexpressing cell line completely abrogated the increase in TRAIL-mediated apoptosis by trastuzumab and significantly reduced the biological effect of either reagent alone. Therefore, down-regulation of the erbB-2 receptor by trastuzumab enhances TRAIL-mediated apoptosis by inhibiting Akt kinase activity. These data suggest that the combination of trastuzumab and TRAIL may allow enhanced therapeutic efficacy and specificity in the treatment of erbB-2-overexpressing tumors.
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Several different vaccine strategies have been evaluated and combined in an attempt to amplify T-cell responses toward induction of antitumor immunity. The model tumor antigen used was carcinoembryonic antigen (CEA). While initial T-cell activation studies were conducted in conventional mice, combined vaccine strategy studies and antitumor studies were conducted in transgenic mice in which CEA is expressed in normal gastrointestinal tissue and CEA protein is found in sera. ⋯ These strategies (TRICOM/diversified prime and boost/GM-CSF) were combined to treat CEA-expressing carcinoma liver metastases in CEA-transgenic mice; vaccination was initiated 14 days posttumor transplant. Antitumor effects in terms of survival and CD8(+) and CD4(+) responses specific for CEA were also observed in this CEA-transgenic mouse model. These studies demonstrate that the use of cytokines and diversified prime and boost regimens can be combined with the use of recombinant vectors expressing signal 1 and multiple costimulatory molecules to further amplify T-cell responses toward more effective vaccine strategies.
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The chimeric monoclonal antibody KM871, directed against the G(D3) antigen, is under evaluation for its potential to target melanoma. To facilitate the in vivo evaluation of biodistribution properties and measurement of pharmacokinetics, KM871 was radiolabeled with (125)I via tyrosine residues and with (111)In via the bifunctional metal ion chelator C-functionalized trans-cyclohexyl diethylenetriaminepentaacetic acid (CHX-A"-DTPA) to lysine residues. Using antigen-positive SK-MEL-28 melanoma cells, immunoreactivities of 42 and 40% cell binding were obtained, respectively, for the two radioconjugates. ⋯ Despite the catabolism of the radioconjugate, a dose-dependent increase in KM871 tumor localization was shown through immunohistochemical examination of xenograft biopsies. This study demonstrates for the first time the in vivo localization of a radiolabeled anti-G(D3) monoclonal antibody to G(D3)-expressing xenografts using gamma camera scanning techniques and tumor cell internalization of KM871 tagged with a green fluorescent dye, Alexa Fluor 488, through confocal microscopy. KM871 has potential for targeting tumors in patients with melanoma.