Molecular imaging of lung glucose uptake after endotoxin in mice

Positron emission tomographic imaging after administration of the glucose analog fluorine-18 fluorodeoxyglucose ([F-18] FDG) may be useful to study neutrophilic inflammation of the lungs. In this study, we sought to determine the specificity of the increase in lung [ 18F] FDG uptake after intraperitoneal endotoxin ( Etx) for neutrophil influx into mouse lungs and to determine the regulation of glucose uptake after Etx by Toll-like receptors ( TLRs) and TNF-alpha. Lung tissue radioactivity measurements by imaging were validated against counts in a gamma well counter. Glucose uptake was quantified as the [F-18] FDG tissue-to-blood radioactivity ratio ( TBR) after validating this measure against the gold standard measure of glucose uptake, the net influx rate constant. TBR measurements were made in a control group ( no intervention), a group administered Etx, and a group administered Etx plus an additional agent ( e. g., vinblastine) or Etx administered to a mutant mouse strain. The glucose uptake measurements were compared with measurements of myeloperoxidase. Increases in TBR after Etx were significantly but not completely eliminated by neutrophil depletion with vinblastine. Increases in TBR after Etx were consistent with signaling via either TLR- 4 or TLR- 2 ( the latter probably secondary to peptidoglycan contaminants in Etx preparation) and were decreased by drug inhibition of TLR- 4 but not by inhibition of TNF-alpha. Thus molecular imaging can be used to noninvasively monitor biological effects of Etx on lungs in mice, and changes in lung glucose uptake can be used to monitor effects of anti-inflammatory agents. Such imaging capacity provides a powerful new paradigm for translational mouse-to-human pulmonary research.