NOX5: from basic biology to signaling and disease

In mammals, the NADPH oxidase family of enzymes comprises seven members: NOXs 1–5, DUOX1, and DUOX2. All of these enzymes function to move an electron across cellular membranes, transferring it to oxygen to generate the superoxide anion. This generation of reactive oxygen species has important physi...

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Vydáno v:Free radical biology & medicine Ročník 52; číslo 4; s. 725 - 734
Hlavní autoři: Bedard, Karen, Jaquet, Vincent, Krause, Karl-Heinz
Médium: Journal Article
Jazyk:angličtina
Vydáno: United States Elsevier Inc 15.02.2012
Témata:
Amino Acid Sequence
Animals
cell membranes
enzymes
Evolution, Molecular
Free radicals
genes
Humans
Isoenzymes - antagonists & inhibitors
Isoenzymes - chemistry
Isoenzymes - genetics
Isoenzymes - physiology
Membrane Proteins - antagonists & inhibitors
Membrane Proteins - chemistry
Membrane Proteins - genetics
Membrane Proteins - physiology
mice
Molecular Sequence Data
NADPH oxidase
NADPH Oxidase 5
NADPH Oxidases - antagonists & inhibitors
NADPH Oxidases - chemistry
NADPH Oxidases - genetics
NADPH Oxidases - physiology
NOX5
Organ Specificity
oxygen
Polymorphism, Single Nucleotide
Protein Structure, Tertiary
rats
Reactive oxygen species
superoxide anion
Superoxides - metabolism
Reactive oxygen species
NOX5
Free radicals
NADPH oxidase
ISSN:0891-5849, 1873-4596, 1873-4596
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Abstract In mammals, the NADPH oxidase family of enzymes comprises seven members: NOXs 1–5, DUOX1, and DUOX2. All of these enzymes function to move an electron across cellular membranes, transferring it to oxygen to generate the superoxide anion. This generation of reactive oxygen species has important physiological and pathophysiological roles. NOX5 is perhaps the least well understood of these NOX isoforms, in part because the gene is not present in mice or rats. In recent years, however, there has been a rapid increase in our understanding of the NOX5 gene, the structural and biochemical aspects of the NOX5 enzyme, the role NOX5 plays in health and disease, and the development of novel NOX inhibitors. This review takes a look back at some historical aspects of the discovery of NOX5 and summarizes our current understanding of the enzyme. ► NOX5 is a member of the NOX NADPH family of enzymes. ► It generates superoxide in response to elevated calcium. ► Here we review aspects of the NOX5 gene and its role in health and disease and discuss NOX5 inhibitors.
AbstractList In mammals, the NADPH oxidase family of enzymes comprises seven members: NOXs 1–5, DUOX1, and DUOX2. All of these enzymes function to move an electron across cellular membranes, transferring it to oxygen to generate the superoxide anion. This generation of reactive oxygen species has important physiological and pathophysiological roles. NOX5 is perhaps the least well understood of these NOX isoforms, in part because the gene is not present in mice or rats. In recent years, however, there has been a rapid increase in our understanding of the NOX5 gene, the structural and biochemical aspects of the NOX5 enzyme, the role NOX5 plays in health and disease, and the development of novel NOX inhibitors. This review takes a look back at some historical aspects of the discovery of NOX5 and summarizes our current understanding of the enzyme. ► NOX5 is a member of the NOX NADPH family of enzymes. ► It generates superoxide in response to elevated calcium. ► Here we review aspects of the NOX5 gene and its role in health and disease and discuss NOX5 inhibitors.
In mammals, the NADPH oxidase family of enzymes comprises seven members: NOXs 1–5, DUOX1, and DUOX2. All of these enzymes function to move an electron across cellular membranes, transferring it to oxygen to generate the superoxide anion. This generation of reactive oxygen species has important physiological and pathophysiological roles. NOX5 is perhaps the least well understood of these NOX isoforms, in part because the gene is not present in mice or rats. In recent years, however, there has been a rapid increase in our understanding of the NOX5 gene, the structural and biochemical aspects of the NOX5 enzyme, the role NOX5 plays in health and disease, and the development of novel NOX inhibitors. This review takes a look back at some historical aspects of the discovery of NOX5 and summarizes our current understanding of the enzyme.
In mammals, the NADPH oxidase family of enzymes comprises seven members: NOXs 1-5, DUOX1, and DUOX2. All of these enzymes function to move an electron across cellular membranes, transferring it to oxygen to generate the superoxide anion. This generation of reactive oxygen species has important physiological and pathophysiological roles. NOX5 is perhaps the least well understood of these NOX isoforms, in part because the gene is not present in mice or rats. In recent years, however, there has been a rapid increase in our understanding of the NOX5 gene, the structural and biochemical aspects of the NOX5 enzyme, the role NOX5 plays in health and disease, and the development of novel NOX inhibitors. This review takes a look back at some historical aspects of the discovery of NOX5 and summarizes our current understanding of the enzyme.In mammals, the NADPH oxidase family of enzymes comprises seven members: NOXs 1-5, DUOX1, and DUOX2. All of these enzymes function to move an electron across cellular membranes, transferring it to oxygen to generate the superoxide anion. This generation of reactive oxygen species has important physiological and pathophysiological roles. NOX5 is perhaps the least well understood of these NOX isoforms, in part because the gene is not present in mice or rats. In recent years, however, there has been a rapid increase in our understanding of the NOX5 gene, the structural and biochemical aspects of the NOX5 enzyme, the role NOX5 plays in health and disease, and the development of novel NOX inhibitors. This review takes a look back at some historical aspects of the discovery of NOX5 and summarizes our current understanding of the enzyme.
Author Bedard, Karen
Jaquet, Vincent
Krause, Karl-Heinz
Author_xml – sequence: 1
  givenname: Karen
  surname: Bedard
  fullname: Bedard, Karen
  organization: Department of Pathology, Dalhousie University, Halifax, Canada NS B3H 4R2
– sequence: 2
  givenname: Vincent
  surname: Jaquet
  fullname: Jaquet, Vincent
  organization: Department of Pathology and Immunology, Centre Médical Universitaire, 1211 Geneva 4, Switzerland
– sequence: 3
  givenname: Karl-Heinz
  surname: Krause
  fullname: Krause, Karl-Heinz
  email: Karl-Heinz.Krause@unige.ch
  organization: Department of Pathology and Immunology, Centre Médical Universitaire, 1211 Geneva 4, Switzerland
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Keywords Reactive oxygen species
NOX5
Free radicals
NADPH oxidase
Language English
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Snippet In mammals, the NADPH oxidase family of enzymes comprises seven members: NOXs 1–5, DUOX1, and DUOX2. All of these enzymes function to move an electron across...
In mammals, the NADPH oxidase family of enzymes comprises seven members: NOXs 1-5, DUOX1, and DUOX2. All of these enzymes function to move an electron across...
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StartPage 725
SubjectTerms Amino Acid Sequence
Animals
cell membranes
enzymes
Evolution, Molecular
Free radicals
genes
Humans
Isoenzymes - antagonists & inhibitors
Isoenzymes - chemistry
Isoenzymes - genetics
Isoenzymes - physiology
Membrane Proteins - antagonists & inhibitors
Membrane Proteins - chemistry
Membrane Proteins - genetics
Membrane Proteins - physiology
mice
Molecular Sequence Data
NADPH oxidase
NADPH Oxidase 5
NADPH Oxidases - antagonists & inhibitors
NADPH Oxidases - chemistry
NADPH Oxidases - genetics
NADPH Oxidases - physiology
NOX5
Organ Specificity
oxygen
Polymorphism, Single Nucleotide
Protein Structure, Tertiary
rats
Reactive oxygen species
superoxide anion
Superoxides - metabolism
Title NOX5: from basic biology to signaling and disease
URI https://dx.doi.org/10.1016/j.freeradbiomed.2011.11.023
https://www.ncbi.nlm.nih.gov/pubmed/22182486
https://www.proquest.com/docview/1678571853
https://www.proquest.com/docview/918579696
Volume 52
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