Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.11.27 (
AMPK
)
6,299
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Autophagy is an intracellular degradation process essential for adaptation to metabolic stress.
DAPK2
is a calmodulin-regulated protein kinase, which has been implicated in autophagy regulation, though the mechanism is unclear. Here, we show that the central metabolic sensor,
AMPK
, phosphorylates
DAPK2
at a critical site in the protein structure, between the catalytic and the calmodulin-binding domains. This phosphorylation activates
DAPK2
by functionally mimicking calmodulin binding and mitigating an inhibitory autophosphorylation, providing a novel, alternative mechanism for
DAPK2
activation during metabolic stress. In addition, we show that
DAPK2
phosphorylates the core autophagic machinery protein, Beclin-1, leading to dissociation of its inhibitor, Bcl-X
L
. Importantly, phosphorylation of
DAPK2
by
AMPK
enhances
DAPK2
's ability to phosphorylate Beclin-1, and depletion of
DAPK2
reduces autophagy in response to
AMPK
activation. Our study reveals a unique calmodulin-independent mechanism for
DAPK2
activation, critical to its function as a novel downstream effector of
AMPK
in autophagy.
...
PMID:Non-canonical activation of DAPK2 by AMPK constitutes a new pathway linking metabolic stress to autophagy. 2971 15
DAPK1 and
DAPK2
are calmodulin (CaM)-regulated protein kinases that share a high degree of homology in their catalytic and CaM regulatory domains. Both kinases function as tumor suppressors, and both have been implicated in autophagy regulation. Over the years, common regulatory mechanisms for the two kinases as well as kinase-specific ones have been identified. In a recent work, we revealed that
DAPK2
is phosphorylated on Ser289 by the metabolic sensor
AMPK
, and that this phosphorylation enhances
DAPK2
catalytic activity. Notably, Ser289 is conserved between DAPK1 and
DAPK2
, and was previously found to be phosphorylated in DAPK1 by RSK. Intriguingly, Ser289 phosphorylation was conversely reported to inhibit the pro-apoptotic activity of DAPK1 in cells. However, as the direct effect of this phosphorylation on DAPK1 catalytic activity was not tested, indirect effects were not excluded. Here, we compared Ser289 phosphorylation of the two kinases in the same cells and found that the intracellular signaling pathways that lead to Ser289 phosphorylation are mutually-exclusive and different for each kinase. In addition, we found that Ser289 phosphorylation in fact enhances DAPK1 catalytic activity, similar to the effect on
DAPK2
. Thus, Ser289 phosphorylation activates both DAPK1 and
DAPK2
, but in response to different intracellular signaling pathways.
...
PMID:Ser289 phosphorylation activates both DAPK1 and DAPK2 but in response to different intracellular signaling pathways. 3111 76
