Neuropeptides
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Fos immunocytochemistry is a valuable anatomical mapping tool for distinguishing cells within complex tissues that undergo genomic activation, but it is seldom paired with corroborative molecular analytical techniques. Due to preparatory requirements that include protein cross-linking for specimen sectioning, histological tissue sections are regarded as unsuitable for those methods. Our studies show that pharmacological activation of the hindbrain energy sensor AMPK by AICAR elicits estradiol (E)-dependent patterns of Fos immunolabeling of hypothalamic metabolic loci. ⋯ O, but not E animals also exhibited parallel augmentation of tissue corticotropin-releasing hormone neuropeptide levels and paraventricular nucleus Fos staining. Data demonstrate the utility of immunoblot analysis as a follow-through technique to capitalize on Fos mapping of transactivation sites in the brain. Findings that induction of Fos immunoreactivity coincides with adjustments in hypothalamic metabolic neuropeptide expression affirms that this functional indicator reflects changes in neurotransmission in pathways governing metabolic outflow.