INTRODUCTION: Peroxisome proliferator-activated receptor gamma (PPARγ) transcriptionally modulates fat metabolism and also plays a role in pathological conditions such as cancer, neurodegenerative disease and inflammation. PPARγ imaging agents are potential tools for investigating these diseases. METHODS: Four analogs of GW9662, a PPARγ antagonist, with different fluorine-containing substituents at the para-position of the aniline ring were synthesized and evaluated using two different receptor binding assays for measuring PPARγ affinity. Micro-positron emission tomography (PET) imaging studies were performed in a transgenic mouse model having a heart-specific overexpression of PPARγ. RESULTS: All four analogs were found to have binding affinities that were comparable to or better than the reference antagonist, GW9662, using a scintillation proximity assay (SPA). However, only the chloro-based analogs (compounds 3 and 4) had activity in a whole-cell assay measuring activation of the PPARγ/retinoid X receptor complex. The microPET imaging studies in an MHC-PPARγ transgenic mouse model showed high uptake and PPARγ-specific binding for the irreversible antagonist [(18)F]3, whereas the corresponding reversible methoxy analog ([(18)F]5) displayed only nonspecific uptake in heart. CONCLUSIONS: The results of this preliminary study show that the irreversible antagonist [(18)F]3 may represent a novel strategy for imaging PPARγ in vivo with PET.
INTRODUCTION:Peroxisome proliferator-activated receptor gamma (PPARγ) transcriptionally modulates fat metabolism and also plays a role in pathological conditions such as cancer, neurodegenerative disease and inflammation. PPARγ imaging agents are potential tools for investigating these diseases. METHODS: Four analogs of GW9662, a PPARγ antagonist, with different fluorine-containing substituents at the para-position of the aniline ring were synthesized and evaluated using two different receptor binding assays for measuring PPARγ affinity. Micro-positron emission tomography (PET) imaging studies were performed in a transgenicmouse model having a heart-specific overexpression of PPARγ. RESULTS: All four analogs were found to have binding affinities that were comparable to or better than the reference antagonist, GW9662, using a scintillation proximity assay (SPA). However, only the chloro-based analogs (compounds 3 and 4) had activity in a whole-cell assay measuring activation of the PPARγ/retinoid X receptor complex. The microPET imaging studies in an MHC-PPARγ transgenicmouse model showed high uptake and PPARγ-specific binding for the irreversible antagonist [(18)F]3, whereas the corresponding reversible methoxy analog ([(18)F]5) displayed only nonspecific uptake in heart. CONCLUSIONS: The results of this preliminary study show that the irreversible antagonist [(18)F]3 may represent a novel strategy for imaging PPARγ in vivo with PET.
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