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Developmental origins of health and disease: new insights

Developmental origins of health and disease: new insights
Developmental origins of health and disease: new insights
Epidemiological and animal studies show that small changes in the developmental environment can induce phenotypic changes affecting an individual's responses to their later environment. These may alter the risk of chronic disease such as metabolic syndrome or cardiovascular disease. Recent research shows that animals exposed to such a mismatch between prenatal and postnatal environment develop obesity, reduced activity, leptin and insulin resistance, elevated blood pressure and vascular endothelial dysfunction. Epigenetic processes are involved in such effects, targeted to promoter regions of specific genes in specific tissues. Such fine control of gene expression suggests that the mechanisms have been retained through evolution through their adaptive advantage, rather than representing extreme effects of developmental disruption akin to teratogenesis. There may be adaptive advantage in a developmental cue inducing a phenotypic change in generations beyond the immediate pregnancy, and a range of data that support this concept. In animals, epigenetic effects such as DNA methylation can be passed to successive generations. Environmental toxins, including endocrine disruptors, may induce greater risk of chronic disease, even at low exposure levels, if they affect such normal developmental epigenetic processes. Appropriate interventions may have long-term multigenerational effects to reduce the risk of chronic disease
review, metabolic syndrome, blood pressure, dna methylation, exposure, syndrome, pregnancy, humans, cardiovascular disease, insulin-resistance, environmental, cardiovascular, animals, expression, epigenesis, resistance, gene-expression, vascular, female, prenatal nutrition physiology, risk, chronic disease, gene expression, toxicity, evolution, leptin, genetic, origins, insulin resistance, responses, blood, environmental pollutants, disease, health, gene, blood-pressure, environment, developmental origins, activity, prenatal exposure delayed effects, dna, obesity, pressure, epigenetic, cardiovascular-disease, research, insulin
1742-7835
90-93
Hanson, M.A.
1952fad1-abc7-4284-a0bc-a7eb31f70a3f
Gluckman, P.D.
492295c0-ef71-4871-ad5a-771c98e1059a
Hanson, M.A.
1952fad1-abc7-4284-a0bc-a7eb31f70a3f
Gluckman, P.D.
492295c0-ef71-4871-ad5a-771c98e1059a

Hanson, M.A. and Gluckman, P.D. (2008) Developmental origins of health and disease: new insights. Basic & Clinical Pharmacology & Toxicology, 102 (2), 90-93. (doi:10.1111/j.1742-7843.2007.00186.x).

Record type: Article

Abstract

Epidemiological and animal studies show that small changes in the developmental environment can induce phenotypic changes affecting an individual's responses to their later environment. These may alter the risk of chronic disease such as metabolic syndrome or cardiovascular disease. Recent research shows that animals exposed to such a mismatch between prenatal and postnatal environment develop obesity, reduced activity, leptin and insulin resistance, elevated blood pressure and vascular endothelial dysfunction. Epigenetic processes are involved in such effects, targeted to promoter regions of specific genes in specific tissues. Such fine control of gene expression suggests that the mechanisms have been retained through evolution through their adaptive advantage, rather than representing extreme effects of developmental disruption akin to teratogenesis. There may be adaptive advantage in a developmental cue inducing a phenotypic change in generations beyond the immediate pregnancy, and a range of data that support this concept. In animals, epigenetic effects such as DNA methylation can be passed to successive generations. Environmental toxins, including endocrine disruptors, may induce greater risk of chronic disease, even at low exposure levels, if they affect such normal developmental epigenetic processes. Appropriate interventions may have long-term multigenerational effects to reduce the risk of chronic disease

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Published date: 2008
Keywords: review, metabolic syndrome, blood pressure, dna methylation, exposure, syndrome, pregnancy, humans, cardiovascular disease, insulin-resistance, environmental, cardiovascular, animals, expression, epigenesis, resistance, gene-expression, vascular, female, prenatal nutrition physiology, risk, chronic disease, gene expression, toxicity, evolution, leptin, genetic, origins, insulin resistance, responses, blood, environmental pollutants, disease, health, gene, blood-pressure, environment, developmental origins, activity, prenatal exposure delayed effects, dna, obesity, pressure, epigenetic, cardiovascular-disease, research, insulin

Identifiers

Local EPrints ID: 61193
URI: http://eprints.soton.ac.uk/id/eprint/61193
DOI: doi:10.1111/j.1742-7843.2007.00186.x
ISSN: 1742-7835
PURE UUID: 9ad491c4-20de-4d6c-a9ed-b9f0c81e223f
ORCID for M.A. Hanson: ORCID iD orcid.org/0000-0002-6907-613X

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Date deposited: 08 Sep 2008
Last modified: 16 Mar 2024 03:17

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Author: M.A. Hanson ORCID iD
Author: P.D. Gluckman

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