Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 The developmental origins of health and disease: an overview
- 2 The ‘developmental origins’ hypothesis: epidemiology
- 3 The conceptual basis for the developmental origins of health and disease
- 4 The periconceptional and embryonic period
- 5 Epigenetic mechanisms
- 6 A mitochondrial component of developmental programming
- 7 Role of exposure to environmental chemicals in developmental origins of health and disease
- 8 Maternal nutrition and fetal growth and development
- 9 Placental mechanisms and developmental origins of health and disease
- 10 Control of fetal metabolism: relevance to developmental origins of health and disease
- 11 Lipid metabolism: relevance to developmental origins of health and disease
- 12 Prenatal hypoxia: relevance to developmental origins of health and disease
- 13 The fetal hypothalamic–pituitary–adrenal axis: relevance to developmental origins of health and disease
- 14 Perinatal influences on the endocrine and metabolic axes during childhood
- 15 Patterns of growth: relevance to developmental origins of health and disease
- 16 The developmental environment and the endocrine pancreas
- 17 The developmental environment and insulin resistance
- 18 The developmental environment and the development of obesity
- 19 The developmental environment and its role in the metabolic syndrome
- 20 Programming the cardiovascular system
- 21 The role of vascular dysfunction in developmental origins of health and disease: evidence from human and animal studies
- 22 The developmental environment and atherogenesis
- 23 The developmental environment, renal function and disease
- 24 The developmental environment: effect on fluid and electrolyte homeostasis
- 25 The developmental environment: effects on lung structure and function
- 26 Developmental origins of asthma and related allergic disorders
- 27 The developmental environment: influences on subsequent cognitive function and behaviour
- 28 The developmental environment and the origins of neurological disorders
- 29 The developmental environment: clinical perspectives on effects on the musculoskeletal system
- 30 The developmental environment: experimental perspectives on skeletal development
- 31 The developmental environment and the early origins of cancer
- 32 The developmental environment: implications for ageing and life span
- 33 Developmental origins of health and disease: implications for primary intervention for cardiovascular and metabolic disease
- 34 Developmental origins of health and disease: public-health perspectives
- 35 Developmental origins of health and disease: implications for developing countries
- 36 Developmental origins of health and disease: ethical and social considerations
- 37 Past obstacles and future promise
- Index
- References
6 - A mitochondrial component of developmental programming
Published online by Cambridge University Press: 08 August 2009
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 The developmental origins of health and disease: an overview
- 2 The ‘developmental origins’ hypothesis: epidemiology
- 3 The conceptual basis for the developmental origins of health and disease
- 4 The periconceptional and embryonic period
- 5 Epigenetic mechanisms
- 6 A mitochondrial component of developmental programming
- 7 Role of exposure to environmental chemicals in developmental origins of health and disease
- 8 Maternal nutrition and fetal growth and development
- 9 Placental mechanisms and developmental origins of health and disease
- 10 Control of fetal metabolism: relevance to developmental origins of health and disease
- 11 Lipid metabolism: relevance to developmental origins of health and disease
- 12 Prenatal hypoxia: relevance to developmental origins of health and disease
- 13 The fetal hypothalamic–pituitary–adrenal axis: relevance to developmental origins of health and disease
- 14 Perinatal influences on the endocrine and metabolic axes during childhood
- 15 Patterns of growth: relevance to developmental origins of health and disease
- 16 The developmental environment and the endocrine pancreas
- 17 The developmental environment and insulin resistance
- 18 The developmental environment and the development of obesity
- 19 The developmental environment and its role in the metabolic syndrome
- 20 Programming the cardiovascular system
- 21 The role of vascular dysfunction in developmental origins of health and disease: evidence from human and animal studies
- 22 The developmental environment and atherogenesis
- 23 The developmental environment, renal function and disease
- 24 The developmental environment: effect on fluid and electrolyte homeostasis
- 25 The developmental environment: effects on lung structure and function
- 26 Developmental origins of asthma and related allergic disorders
- 27 The developmental environment: influences on subsequent cognitive function and behaviour
- 28 The developmental environment and the origins of neurological disorders
- 29 The developmental environment: clinical perspectives on effects on the musculoskeletal system
- 30 The developmental environment: experimental perspectives on skeletal development
- 31 The developmental environment and the early origins of cancer
- 32 The developmental environment: implications for ageing and life span
- 33 Developmental origins of health and disease: implications for primary intervention for cardiovascular and metabolic disease
- 34 Developmental origins of health and disease: public-health perspectives
- 35 Developmental origins of health and disease: implications for developing countries
- 36 Developmental origins of health and disease: ethical and social considerations
- 37 Past obstacles and future promise
- Index
- References
Summary
Introduction
Evidence both from epidemiological studies and from experimental animal models supports the concept of developmental programming (Osmond and Barker 2000, Sorensen et al. 2000, Barker 2002, Eriksson and Forsen 2002, Ozanne and Hales 2002). In studies of genetically homogeneous animals there are now unequivocal data demonstrating that environmental stress during the period from peri-implantation development through to the end of suckling can impact on the health status of the adult offspring, and can also have behavioural consequences (Langley-Evans and Jackson 1996, Ozanne et al. 1998, Khan et al. 2003, Vickers et al. 2003, Weaver et al. 2004). Amongst the disorders that have been reported after suboptimal maternal nutrition, the most common are hypertension, insulin resistance, dyslipidaemia, obesity and endothelial dysfunction. In one particularly well-characterised animal model adult offspring display all these symptoms, which in humans are collectively known as syndrome X (Khan et al. 2003, 2005). This constellation of disorders is predicted to be increasing at an alarming rate and is currently affecting large numbers of adults in the western world. A molecular understanding of developmental programming is not only a challenging academic problem, but also one that may enable us to devise preventative strategies, which will benefit human health and reduce medical care costs in the future.
Addressing the molecular mechanisms of developmental programming is difficult because the cellular disorders that lead to disease susceptibility in the adult occur long after the initial causative stress has been removed.
- Type
- Chapter
- Information
- Developmental Origins of Health and Disease , pp. 75 - 81Publisher: Cambridge University PressPrint publication year: 2006
References
- 6
- Cited by