Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Mapping Insulin/GLUT4 Circuitry
View through CrossRef
One of the most important metabolic actions of insulin is catalysing glucose uptake into skeletal muscle and adipose tissue. This is accomplished via activation of the phosphatidylinositol‐3‐kinase/Akt signalling pathway and subsequent translocation of GLUT4 from intracellular storage vesicles to the plasma membrane. As such, this represents an ideal system for studying the convergence of signal transduction and protein trafficking. The GLUT4 translocation process is complex, but can be dissected into at least four discrete trafficking steps. This raises the question as to which of these is the major regulated step in insulin‐stimulated GLUT4 translocation. Numerous molecules have been reported to regulate GLUT4 trafficking. However, with the exception of TBC1D4, the molecular details of these distal signalling arms of the insulin signalling network and how they modify distinct steps of GLUT4 trafficking have not been established. We discuss the need to adopt a more global approach to expand and deepen our understanding of the molecular processes underpinning this system. Strategies that facilitate the generation of detailed models of the entire insulin signalling network will enable us to identify the critical nodes that control GLUT4 traffic and decipher emergent properties of the system that are not currently apparent.
Title: Mapping Insulin/GLUT4 Circuitry
Description:
One of the most important metabolic actions of insulin is catalysing glucose uptake into skeletal muscle and adipose tissue.
This is accomplished via activation of the phosphatidylinositol‐3‐kinase/Akt signalling pathway and subsequent translocation of GLUT4 from intracellular storage vesicles to the plasma membrane.
As such, this represents an ideal system for studying the convergence of signal transduction and protein trafficking.
The GLUT4 translocation process is complex, but can be dissected into at least four discrete trafficking steps.
This raises the question as to which of these is the major regulated step in insulin‐stimulated GLUT4 translocation.
Numerous molecules have been reported to regulate GLUT4 trafficking.
However, with the exception of TBC1D4, the molecular details of these distal signalling arms of the insulin signalling network and how they modify distinct steps of GLUT4 trafficking have not been established.
We discuss the need to adopt a more global approach to expand and deepen our understanding of the molecular processes underpinning this system.
Strategies that facilitate the generation of detailed models of the entire insulin signalling network will enable us to identify the critical nodes that control GLUT4 traffic and decipher emergent properties of the system that are not currently apparent.
Related Results
Interaction of Insulin and Exercise on Glucose Transport in Muscle
Interaction of Insulin and Exercise on Glucose Transport in Muscle
Glucose transport is the rate-limiting step for glucose utilization in muscle. In muscle and adipose tissue, glucose transport is acutely regulated by such factors as insulin and e...
Sustained activation of insulin receptors internalized in GLUT4 vesicles of insulin-stimulated skeletal muscle.
Sustained activation of insulin receptors internalized in GLUT4 vesicles of insulin-stimulated skeletal muscle.
Exposure of target cells to insulin results in the formation of ligand receptor complexes on the cell surface and their subsequent internalization into the endosomal apparatus. A c...
New and simple Ohmic definition of insulin resistance in lean and obese subjects
New and simple Ohmic definition of insulin resistance in lean and obese subjects
objective:: Insulin enhances the influx of glucose into cells. However, the relationship between glucose and insulin is complex and insulin sensitivity varies widely with age, ethn...
A Case of Insulin Resistance Secondary to Insulin Induced Localized Cutaneous Amyloidosis.
A Case of Insulin Resistance Secondary to Insulin Induced Localized Cutaneous Amyloidosis.
Abstract
Abstract 4908
Insulin resistance can be a major problem in patients with diabetes mellitus. Although multiple reasons can result in this prob...
GLUT4 exocytosis
GLUT4 exocytosis
GLUT4 is an insulin-regulated glucose transporter that is responsible for insulin-regulated glucose uptake into fat and muscle cells. In the absence of insulin, GLUT4 is mainly fou...
Insulin Signaling Attenuates GLUT4 Endocytosis in Muscle Cells via GSK3α-Dyn2-Bin1 Interplay
Insulin Signaling Attenuates GLUT4 Endocytosis in Muscle Cells via GSK3α-Dyn2-Bin1 Interplay
AbstractInsulin-induced translocation of glucose transporter 4 (GLUT4) to the plasma membrane of skeletal muscle is critical for postprandial glucose uptake; however, whether the i...
GLUT4 On the move
GLUT4 On the move
Insulin rapidly stimulates GLUT4 translocation and glucose transport in fat and muscle cells. Signals from the occupied insulin receptor are translated into downstream signalling c...
THE EFFECT OF CONTINUOUS SUBCUTANEOUS INSULIN INFUSION TREATMENT, INSULIN ANALOG, AND HUMAN INSULIN OF CHILDREN WITH DIABETES
THE EFFECT OF CONTINUOUS SUBCUTANEOUS INSULIN INFUSION TREATMENT, INSULIN ANALOG, AND HUMAN INSULIN OF CHILDREN WITH DIABETES
The aim of this study is to evaluate the cost-effectiveness of continuous subcutaneous insulin infusion (CSII) to multiple daily insulin injection (MDI) either with analogues or w...