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Molecular
biology
of atherosclerosis
Hopkins, Paul N
Physiological reviews, 2013-07, Vol.93 (3), p.1317-1542
[Periódico revisado por pares]
United States: American Physiological Society
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Título:
Molecular
biology
of atherosclerosis
Autor:
Hopkins, Paul N
Assuntos:
Animals
;
Atherosclerosis
;
Atherosclerosis - genetics
;
Atherosclerosis - metabolism
;
Gene Expression Regulation - physiology
;
Genes
;
Genotype
;
Humans
;
Kinases
;
Leukocytes
;
Lipoproteins
;
Molecular
biology
;
Proteins
;
Risk Factors
;
Signal Transduction - physiology
É parte de:
Physiological reviews, 2013-07, Vol.93 (3), p.1317-1542
Notas:
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-3
content type line 23
ObjectType-Review-1
Descrição:
At least 468 individual genes have been manipulated by molecular methods to study their effects on the initiation, promotion, and progression of atherosclerosis. Most clinicians and many investigators, even in related disciplines, find many of these genes and the related pathways entirely foreign. Medical schools generally do not attempt to incorporate the relevant molecular
biology
into their curriculum. A number of key signaling pathways are highly relevant to atherogenesis and are presented to provide a context for the gene manipulations summarized herein. The pathways include the following: the insulin receptor (and other receptor tyrosine kinases); Ras and MAPK activation; TNF-α and related family members leading to activation of NF-κB; effects of reactive oxygen species (ROS) on signaling; endothelial adaptations to flow including G protein-coupled receptor (GPCR) and integrin-related signaling; activation of endothelial and other cells by modified lipoproteins; purinergic signaling; control of leukocyte adhesion to endothelium, migration, and further activation; foam cell formation; and macrophage and vascular smooth muscle cell signaling related to proliferation, efferocytosis, and apoptosis. This review is intended primarily as an introduction to these key signaling pathways. They have become the focus of modern atherosclerosis research and will undoubtedly provide a rich resource for future innovation toward intervention and prevention of the number one cause of death in the modern world.
Editor:
United States: American Physiological Society
Idioma:
Inglês
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