Center for Sleep and Respiratory Neurobiology, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania 19104-3403, USA.
AMP-activated protein kinase (AMPK) is activated when the catalytic alpha subunit is phosphorylated on Thr172 and therefore, phosphorylation of the alpha subunit is used as a measure of activation. However, measurement of alpha subunit of AMPK (alpha-AMPK) phosphorylation in vivo can be technically challenging. To determine the most accurate method for measuring alpha-AMPK phosphorylation in the mouse brain, we compared different methods of killing and tissue preparation. We found that freeze/thawing samples after homogenization on ice dramatically increased alpha-AMPK phosphorylation in mice killed by cervical dislocation. Killing of mice by focused microwave irradiation, which rapidly heats the brain and causes enzymatic inactivation, prevented the freeze/thaw-induced increase in alpha-AMPK phosphorylation and similar levels of phosphorylation were observed compared with mice killed with cervical dislocation without freeze/thawing of samples. Sonication of samples in hot 1% sodium dodecyl sulfate blocked the freeze/thaw-induced increase in alpha-AMPK phosphorylation, but phosphorylation was higher in mice killed by cervical dislocation compared with mice killed by focused microwave irradiation. These results demonstrate that alpha-AMPK phosphorylation is dependent on method of killing and tissue preparation and that alpha-AMPK phosphorylation can increase in a manner that does not reflect biological alterations.