The development of therapeutic inhibitors of key signaling pathways has been hampered by the inability to assess the effect of a drug on its target in the patient. 17-allylaminogeldanamycin (17-AAG) is the first Hsp90 inhibitor to be tested in a clinical trial. It causes the degradation of HER2 and other Hsp90 targets, and has antitumor activity in preclinical models. We have developed a method for imaging the inhibition of Hsp90 by 17-AAG. We labeled an F(ab')2 fragment of the anti-HER2 antibody Herceptin with 68Ga, a positron emitter, which allows the sequential positron-emission tomographic imaging of HER2 expression. We have used this method to quantify as a function of time the loss and recovery of HER2 induced by 17-AAG in animal tumors. This approach allows noninvasive imaging of the pharmacodynamics of a targeted drug and will facilitate the rational design of combination therapy based on target inhibition.
Purpose: Standard imaging studies are limited as outcome measures for patients with metastatic prostate cancer. We tested the hypothesis that serial fluorodeoxyglucose positron emission tomography (FDG-PET) scans can serve as an outcome measure for patients with castrate metastatic prostate cancer treated with antimicrotubule chemotherapy. Experimental Design: FDG-PETscans were done at baseline, 4, and 12 weeks of treatment.The average maximum standardized uptake value (SUV maxavg ) was measured in up to five lesions and was tested as the quantitative outcome measure. Prostate-specific antigen (PSA) at 4 weeks and PSA, bone scan, and soft tissue imaging at 12 weeks were considered standard outcome measures. The change in SUV maxavg that distinguished clinically assessed progression from nonprogression was sought. Results: Twenty-two PET scans were reviewed and compared with PSA at 4 weeks; 18 PETs were compared at 12 weeks with standard outcome measures. Applying the PSA Working Group Consensus Criteria guideline that a 25% PSA increase constitutes progression to the SUV maxavg , PET correctly identified the clinical status of 20 of 22 patients (91%) at 4 weeks and 17 of 18 patients at 12 weeks (94%). The accuracy of PETcould be further optimized if a >33% increase in PSA and SUV maxavg were used to define progression. Conclusion: FDG-PET is promising as an outcome measure in prostate cancer. As a single modality, it can show treatment effects that are usually described by a combination of PSA, bone scintigraphy, and soft tissue imaging. Preliminarily, a >33% increase in SUV maxavg or the appearance of a new lesion optimally dichotomizes patients as progressors or nonprogressors.
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