Energy sensing through a sugar diphosphate

The molecule fructose-1,6-bisphosphate, which is produced during glucose metabolism, has been shown to mediate cellular sensing of glucose deprivation through an unexpected mechanism. See Letter p.112 New insights into AMPK activation AMPK is a central regulator of metabolic homeostasis, and its dysfunction may result in various diseases including diabetes, obesity, and cancer. AMPK is known to be activated under stressful conditions, including glucose starvation. It has been assumed that upon glucose deprivation AMPK activation occurs in the canonical AMP/ADP-dependent manner, with reduced metabolism of glucose causing falling ATP and increasing AMP and ADP. Here, Sheng-Cai Lin and colleagues show that this is not the case, and that glucose starvation activates AMPK via a different route, in an AMP/ADP-independent manner. During glycolysis, glucose is converted to fructose-1,6-bisphosphate (FBP), which is then processed by FBP aldolases. The authors show that the absence of glucose results in a reduction of FBP-bound aldolase, which triggers LKB1 phosphorylation and activation of AMPK. This study thus uncovers FBP as the critical metabolite that signals glucose availability and FBP aldolases as the sensors that relay the information to AMPK.