Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
AXIN-AMPK signaling: Implications for healthy aging
View through CrossRef
The energy sensor AMP kinase (AMPK) and the master scaffolding protein, AXIN, are two major regulators of biological processes in metazoans. AXIN-dependent regulation of AMPK activation plays a crucial role in maintaining metabolic homeostasis during glucose-deprived and energy-stressed conditions. The two proteins are also required for muscle function. While studies have refined our knowledge of various cellular events that promote the formation of AXIN-AMPK complexes and the involvement of effector proteins, more work is needed to understand precisely how the pathway is regulated in response to various forms of stress. In this review, we discuss recent data on AXIN and AMPK interaction and its role in physiological changes leading to improved muscle health and an extension of lifespan. We argue that AXIN-AMPK signaling plays an essential role in maintaining muscle function and manipulating the pathway in a tissue-specific manner could delay muscle aging. Therefore, research on understanding the factors that regulate AXIN-AMPK signaling holds the potential for developing novel therapeutics to slow down or revert the age-associated decline in muscle function, thereby extending the healthspan of animals.
Title: AXIN-AMPK signaling: Implications for healthy aging
Description:
The energy sensor AMP kinase (AMPK) and the master scaffolding protein, AXIN, are two major regulators of biological processes in metazoans.
AXIN-dependent regulation of AMPK activation plays a crucial role in maintaining metabolic homeostasis during glucose-deprived and energy-stressed conditions.
The two proteins are also required for muscle function.
While studies have refined our knowledge of various cellular events that promote the formation of AXIN-AMPK complexes and the involvement of effector proteins, more work is needed to understand precisely how the pathway is regulated in response to various forms of stress.
In this review, we discuss recent data on AXIN and AMPK interaction and its role in physiological changes leading to improved muscle health and an extension of lifespan.
We argue that AXIN-AMPK signaling plays an essential role in maintaining muscle function and manipulating the pathway in a tissue-specific manner could delay muscle aging.
Therefore, research on understanding the factors that regulate AXIN-AMPK signaling holds the potential for developing novel therapeutics to slow down or revert the age-associated decline in muscle function, thereby extending the healthspan of animals.
Related Results
Crystal structure of a Tankyrase-Axin complex and its implications for Axin turnover and Tankyrase substrate recruitment
Crystal structure of a Tankyrase-Axin complex and its implications for Axin turnover and Tankyrase substrate recruitment
Axin is a tumor suppressor and a key negative regulator of the Wnt/β-catenin signaling pathway. Axin turnover is controlled by its poly-ADP-ribosylation catalyzed by tankyrase (TNK...
Nouveau regard sur la signalisation AMPK : multiples fonctions de nouveaux interacteurs
Nouveau regard sur la signalisation AMPK : multiples fonctions de nouveaux interacteurs
La protéine kinase activée par AMP (AMPK) est un senseur et régulateur central de l'état énergétique cellulaire, mais ces voies de signalisation ne sont pour le moment que partiell...
Wnt signaling: Axin--More Than a Scaffold
Wnt signaling: Axin--More Than a Scaffold
Glycogen synthase kinase 3beta (GSK-3beta) is a negative regulator of the Wnt signaling pathway, which is important for vertebrate axis formation during development. Axin binds be...
Adenosine monophosphate-activated protein kinase activator inhibits activation of fibroblast-like synoviocytes but promotes hyaluronan and proteoglycan link protein 1 secretion
Adenosine monophosphate-activated protein kinase activator inhibits activation of fibroblast-like synoviocytes but promotes hyaluronan and proteoglycan link protein 1 secretion
Abstract
Objectives: To determine whether any correlation exists between disease activity and AMPK levels in rheumatoid arthritis (RA) patients and investigate the effects ...
Loss of AMPK potentiates inflammation by activating the inflammasome after traumatic brain injury in mice
Loss of AMPK potentiates inflammation by activating the inflammasome after traumatic brain injury in mice
AbstractTraumatic brain injury (TBI) is a significant public health concern characterized by a complex cascade of cellular events. TBI induces adenosine monophosphate-activated pro...
The Wnt pathway scaffold protein Axin promotes signaling specificity by suppressing competing kinase reactions
The Wnt pathway scaffold protein Axin promotes signaling specificity by suppressing competing kinase reactions
AbstractGSK3β is a multifunctional kinase that phosphorylates β-catenin in the Wnt signaling network and also acts on other protein targets in response to distinct cellular signals...
Negative Regulation of Wingless Signaling by D-Axin, a
Drosophila
Homolog of Axin
Negative Regulation of Wingless Signaling by D-Axin, a
Drosophila
Homolog of Axin
Wnt/Wingless directs many cell fates during development. Wnt/Wingless signaling increases the amount of β-catenin/Armadillo, which in turn activates gene transcription. Here the
...
Successful Aging
Successful Aging
The emerging concept of successful aging is based on evidence that in healthy individual when they get aged, there are considerable variations in physiological functions alteratio...