The molecular genetics of cardiovascular disease: clinical implications

The molecular genetics of cardiovascular disease: clinical implications

. Stephens JW, Humphries SE (University College London, London). The molecular genetics of cardiovascular disease: clinical implications (Review). J Inter Med 2003; 253: 120–127. Coronary heart disease (CHD) is one of the main leading causes of death worldwide. CHD is a complex condition resulting f...

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Veröffentlicht in:Journal of internal medicine 2003-02, Vol.253 (2), p.120-127
Hauptverfasser: Stephens, J. W., Humphries, S. E.
Format: Artikel
Sprache:eng
Schlagworte:
Apolipoproteins E - genetics
Biological and medical sciences
Cardiology. Vascular system
Coronary Disease - genetics
Coronary heart disease
diagnosis
environment
genes
Genetic Predisposition to Disease
Heart
Humans
Interleukin-6 - genetics
Lipoprotein Lipase - genetics
Medical sciences
polygenic
Smoking - genetics
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Humphries, S. E.
description . Stephens JW, Humphries SE (University College London, London). The molecular genetics of cardiovascular disease: clinical implications (Review). J Inter Med 2003; 253: 120–127. Coronary heart disease (CHD) is one of the main leading causes of death worldwide. CHD is a complex condition resulting from numerous gene–gene and gene–environment interactions. A large number of candidate genes exist. We review the evidence for the role of apolipoprotein E, lipoprotein lipase and interleukin‐6 in CHD and their interaction with smoking (an environmental risk). The main objective of genetic research into CHD is to provide a complete risk assessment, complementing the well‐studied traditional clinical and biochemical risk factors. Unravelling the role that functional gene polymorphisms play in determining risk, and in determining the levels of intermediate phenotypes is crucial to our understanding of the key metabolic pathways and physiology not only in the diseased, but also in the disease‐free state. The identification of new molecules (implicated in the relevant metabolic pathways) may subsequently lead to potential targets for therapeutic intervention. Improving our molecular understanding may also lead to the development of improved diagnostics. Sequencing of the entire genome is now a reality. Advances in technology, such as the development of ‘gene chips’ may allow us to study 100 000 genes at a time on a single chip. Such advances will amplify the power available to us in the realms of research into genetic physiology and interaction with environmental stimuli. The insights that these novel approaches may yield are eagerly awaited.
doi_str_mv 10.1046/j.1365-2796.2003.01104.x
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W. ; Humphries, S. E.</creator><creatorcontrib>Stephens, J. W. ; Humphries, S. E.</creatorcontrib><description>. Stephens JW, Humphries SE (University College London, London). The molecular genetics of cardiovascular disease: clinical implications (Review). J Inter Med 2003; 253: 120–127. Coronary heart disease (CHD) is one of the main leading causes of death worldwide. CHD is a complex condition resulting from numerous gene–gene and gene–environment interactions. A large number of candidate genes exist. We review the evidence for the role of apolipoprotein E, lipoprotein lipase and interleukin‐6 in CHD and their interaction with smoking (an environmental risk). The main objective of genetic research into CHD is to provide a complete risk assessment, complementing the well‐studied traditional clinical and biochemical risk factors. Unravelling the role that functional gene polymorphisms play in determining risk, and in determining the levels of intermediate phenotypes is crucial to our understanding of the key metabolic pathways and physiology not only in the diseased, but also in the disease‐free state. The identification of new molecules (implicated in the relevant metabolic pathways) may subsequently lead to potential targets for therapeutic intervention. Improving our molecular understanding may also lead to the development of improved diagnostics. Sequencing of the entire genome is now a reality. Advances in technology, such as the development of ‘gene chips’ may allow us to study 100 000 genes at a time on a single chip. Such advances will amplify the power available to us in the realms of research into genetic physiology and interaction with environmental stimuli. 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W.</creatorcontrib><creatorcontrib>Humphries, S. E.</creatorcontrib><title>The molecular genetics of cardiovascular disease: clinical implications</title><title>Journal of internal medicine</title><addtitle>J Intern Med</addtitle><description>. Stephens JW, Humphries SE (University College London, London). The molecular genetics of cardiovascular disease: clinical implications (Review). J Inter Med 2003; 253: 120–127. Coronary heart disease (CHD) is one of the main leading causes of death worldwide. CHD is a complex condition resulting from numerous gene–gene and gene–environment interactions. A large number of candidate genes exist. We review the evidence for the role of apolipoprotein E, lipoprotein lipase and interleukin‐6 in CHD and their interaction with smoking (an environmental risk). The main objective of genetic research into CHD is to provide a complete risk assessment, complementing the well‐studied traditional clinical and biochemical risk factors. Unravelling the role that functional gene polymorphisms play in determining risk, and in determining the levels of intermediate phenotypes is crucial to our understanding of the key metabolic pathways and physiology not only in the diseased, but also in the disease‐free state. The identification of new molecules (implicated in the relevant metabolic pathways) may subsequently lead to potential targets for therapeutic intervention. Improving our molecular understanding may also lead to the development of improved diagnostics. Sequencing of the entire genome is now a reality. Advances in technology, such as the development of ‘gene chips’ may allow us to study 100 000 genes at a time on a single chip. Such advances will amplify the power available to us in the realms of research into genetic physiology and interaction with environmental stimuli. 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Vascular system</topic><topic>Coronary Disease - genetics</topic><topic>Coronary heart disease</topic><topic>diagnosis</topic><topic>environment</topic><topic>genes</topic><topic>Genetic Predisposition to Disease</topic><topic>Heart</topic><topic>Humans</topic><topic>Interleukin-6 - genetics</topic><topic>Lipoprotein Lipase - genetics</topic><topic>Medical sciences</topic><topic>polygenic</topic><topic>Smoking - genetics</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Stephens, J. W.</creatorcontrib><creatorcontrib>Humphries, S. 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E.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The molecular genetics of cardiovascular disease: clinical implications</atitle><jtitle>Journal of internal medicine</jtitle><addtitle>J Intern Med</addtitle><date>2003-02</date><risdate>2003</risdate><volume>253</volume><issue>2</issue><spage>120</spage><epage>127</epage><pages>120-127</pages><issn>0954-6820</issn><eissn>1365-2796</eissn><abstract>. Stephens JW, Humphries SE (University College London, London). The molecular genetics of cardiovascular disease: clinical implications (Review). J Inter Med 2003; 253: 120–127. Coronary heart disease (CHD) is one of the main leading causes of death worldwide. CHD is a complex condition resulting from numerous gene–gene and gene–environment interactions. A large number of candidate genes exist. We review the evidence for the role of apolipoprotein E, lipoprotein lipase and interleukin‐6 in CHD and their interaction with smoking (an environmental risk). The main objective of genetic research into CHD is to provide a complete risk assessment, complementing the well‐studied traditional clinical and biochemical risk factors. Unravelling the role that functional gene polymorphisms play in determining risk, and in determining the levels of intermediate phenotypes is crucial to our understanding of the key metabolic pathways and physiology not only in the diseased, but also in the disease‐free state. The identification of new molecules (implicated in the relevant metabolic pathways) may subsequently lead to potential targets for therapeutic intervention. Improving our molecular understanding may also lead to the development of improved diagnostics. Sequencing of the entire genome is now a reality. Advances in technology, such as the development of ‘gene chips’ may allow us to study 100 000 genes at a time on a single chip. 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subjects Apolipoproteins E - genetics
Biological and medical sciences
Cardiology. Vascular system
Coronary Disease - genetics
Coronary heart disease
diagnosis
environment
genes
Genetic Predisposition to Disease
Heart
Humans
Interleukin-6 - genetics
Lipoprotein Lipase - genetics
Medical sciences
polygenic
Smoking - genetics
title The molecular genetics of cardiovascular disease: clinical implications
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