The hexosamine signaling pathway: O-GlcNAc cycling in feast or famine

The enzymes of O-GlcNAc cycling couple the nutrient-dependent synthesis of UDP-GlcNAc to O-GlcNAc modification of Ser/Thr residues of key nuclear and cytoplasmic targets. This series of reactions culminating in O-GlcNAcylation of targets has been termed the hexosamine signaling pathway (HSP). The ev...

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Published in	Biochimica et biophysica acta Vol. 1800; no. 2; pp. 80 - 95
Main Authors	Hanover, John A., Krause, Michael W., Love, Dona C.
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 01.02.2010
Subjects	Acetylglucosamine - physiology Acetylglucosaminidase - metabolism AKT AMPK Animals Caenorhabditis elegans Cancer Cardiovascular disease Catalytic Domain Diabetes Diabetes Mellitus, Type 2 - physiopathology Evolution, Molecular Food Gene Expression Regulation - physiology Growth factor Hexosamine Humans Insulin Insulin Resistance - physiology MAP Kinase Signaling System - physiology MAPK Models, Animal Models, Molecular mTOR N-Acetylglucosaminyltransferases - metabolism Neurodegeneration O-GlcNAc Proteasome Endopeptidase Complex - physiology Proto-Oncogene Proteins c-akt - physiology Sirtuins - physiology Starvation Neurodegeneration mTOR Cardiovascular disease AMPK Hexosamine AKT Diabetes MAPK Insulin O-GlcNAc Growth factor Cancer
Online Access	Get full text
ISSN	0304-4165 0006-3002 1872-8006
DOI	10.1016/j.bbagen.2009.07.017

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Abstract	The enzymes of O-GlcNAc cycling couple the nutrient-dependent synthesis of UDP-GlcNAc to O-GlcNAc modification of Ser/Thr residues of key nuclear and cytoplasmic targets. This series of reactions culminating in O-GlcNAcylation of targets has been termed the hexosamine signaling pathway (HSP). The evolutionarily ancient enzymes of O-GlcNAc cycling have co-evolved with other signaling effecter molecules; they are recruited to their targets by many of the same mechanisms used to organize canonic kinase-dependent signaling pathways. This co-recruitment of the enzymes of O-GlcNAc cycling drives a binary switch impacting pathways of anabolism and growth (nutrient uptake) and catabolic pathways (nutrient sparing and salvage). The hexosamine signaling pathway (HSP) has thus emerged as a versatile cellular regulator modulating numerous cellular signaling cascades influencing growth, metabolism, cellular stress, circadian rhythm, and host–pathogen interactions. In mammals, the nutrient-sensing HSP has been harnessed to regulate such cell-specific functions as neutrophil migration, and activation of B-cells and T-cells. This review summarizes the diverse approaches being used to examine O-GlcNAc cycling. It will emphasize the impact O-GlcNAcylation has upon signaling pathways that may be become deregulated in diseases of the immune system, diabetes mellitus, cancer, cardiovascular disease, and neurodegenerative diseases.
AbstractList	The enzymes of O-GlcNAc cycling couple the nutrient-dependent synthesis of UDP-GlcNAc to O-GlcNAc modification of Ser/Thr residues of key nuclear and cytoplasmic targets. This series of reactions culminating in O-GlcNAcylation of targets has been termed the hexosamine signaling pathway (HSP). The evolutionarily ancient enzymes of O-GlcNAc cycling have co-evolved with other signaling effecter molecules; they are recruited to their targets by many of the same mechanisms used to organize canonic kinase-dependent signaling pathways. This co-recruitment of the enzymes of O-GlcNAc cycling drives a binary switch impacting pathways of anabolism and growth (nutrient uptake) and catabolic pathways (nutrient sparing and salvage). The hexosamine signaling pathway (HSP) has thus emerged as a versatile cellular regulator modulating numerous cellular signaling cascades influencing growth, metabolism, cellular stress, circadian rhythm, and host-pathogen interactions. In mammals, the nutrient-sensing HSP has been harnessed to regulate such cell-specific functions as neutrophil migration, and activation of B-cells and T-cells. This review summarizes the diverse approaches being used to examine O-GlcNAc cycling. It will emphasize the impact O-GlcNAcylation has upon signaling pathways that may be become deregulated in diseases of the immune system, diabetes mellitus, cancer, cardiovascular disease, and neurodegenerative diseases.The enzymes of O-GlcNAc cycling couple the nutrient-dependent synthesis of UDP-GlcNAc to O-GlcNAc modification of Ser/Thr residues of key nuclear and cytoplasmic targets. This series of reactions culminating in O-GlcNAcylation of targets has been termed the hexosamine signaling pathway (HSP). The evolutionarily ancient enzymes of O-GlcNAc cycling have co-evolved with other signaling effecter molecules; they are recruited to their targets by many of the same mechanisms used to organize canonic kinase-dependent signaling pathways. This co-recruitment of the enzymes of O-GlcNAc cycling drives a binary switch impacting pathways of anabolism and growth (nutrient uptake) and catabolic pathways (nutrient sparing and salvage). The hexosamine signaling pathway (HSP) has thus emerged as a versatile cellular regulator modulating numerous cellular signaling cascades influencing growth, metabolism, cellular stress, circadian rhythm, and host-pathogen interactions. In mammals, the nutrient-sensing HSP has been harnessed to regulate such cell-specific functions as neutrophil migration, and activation of B-cells and T-cells. This review summarizes the diverse approaches being used to examine O-GlcNAc cycling. It will emphasize the impact O-GlcNAcylation has upon signaling pathways that may be become deregulated in diseases of the immune system, diabetes mellitus, cancer, cardiovascular disease, and neurodegenerative diseases. The enzymes of O-GlcNAc cycling couple the nutrient-dependent synthesis of UDP-GlcNAc to O-GlcNAc modification of Ser/Thr residues of key nuclear and cytoplasmic targets. This series of reactions culminating in O-GlcNAcylation of targets has been termed the hexosamine signaling pathway (HSP). The evolutionarily ancient enzymes of O-GlcNAc cycling have co-evolved with other signaling effecter molecules; they are recruited to their targets by many of the same mechanisms used to organize canonic kinase-dependent signaling pathways. This co-recruitment of the enzymes of O-GlcNAc cycling drives a binary switch impacting pathways of anabolism and growth (nutrient uptake) and catabolic pathways (nutrient sparing and salvage). The hexosamine signaling pathway (HSP) has thus emerged as a versatile cellular regulator modulating numerous cellular signaling cascades influencing growth, metabolism, cellular stress, circadian rhythm, and host–pathogen interactions. In mammals, the nutrient-sensing HSP has been harnessed to regulate such cell-specific functions as neutrophil migration, and activation of B-cells and T-cells. This review summarizes the diverse approaches being used to examine O-GlcNAc cycling. It will emphasize the impact O-GlcNAcylation has upon signaling pathways that may be become deregulated in diseases of the immune system, diabetes mellitus, cancer, cardiovascular disease, and neurodegenerative diseases.
Author	Krause, Michael W. Love, Dona C. Hanover, John A.
Author_xml	– sequence: 1 givenname: John A. surname: Hanover fullname: Hanover, John A. email: jah@helix.nih.gov – sequence: 2 givenname: Michael W. surname: Krause fullname: Krause, Michael W. – sequence: 3 givenname: Dona C. surname: Love fullname: Love, Dona C.
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/19647043$$D View this record in MEDLINE/PubMed
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Snippet	The enzymes of O-GlcNAc cycling couple the nutrient-dependent synthesis of UDP-GlcNAc to O-GlcNAc modification of Ser/Thr residues of key nuclear and...
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SubjectTerms	Acetylglucosamine - physiology Acetylglucosaminidase - metabolism AKT AMPK Animals Caenorhabditis elegans Cancer Cardiovascular disease Catalytic Domain Diabetes Diabetes Mellitus, Type 2 - physiopathology Evolution, Molecular Food Gene Expression Regulation - physiology Growth factor Hexosamine Humans Insulin Insulin Resistance - physiology MAP Kinase Signaling System - physiology MAPK Models, Animal Models, Molecular mTOR N-Acetylglucosaminyltransferases - metabolism Neurodegeneration O-GlcNAc Proteasome Endopeptidase Complex - physiology Proto-Oncogene Proteins c-akt - physiology Sirtuins - physiology Starvation
Title	The hexosamine signaling pathway: O-GlcNAc cycling in feast or famine
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