Maternal protein malnutrition: effects on prostate development and adult disease

Maternal protein malnutrition: effects on prostate development and adult disease

Well-controlled intrauterine development is an essential condition for many aspects of normal adult physiology and health. This process is disrupted by poor maternal nutrition status during pregnancy. Indeed, physiological adaptations occur in the fetus to ensure nutrient supply to the most vital or...

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Bibliographic Details
Published in:Journal of developmental origins of health and disease Vol. 9; no. 4; p. 361
Main Authors: Rinaldi, J C, Santos, S A A, Colombelli, K T, Birch, L, Prins, G S, Justulin, L A, Felisbino, S L
Format: Journal Article
Language:English
Published: England 01-08-2018
Subjects:
Adult
Animals
Female
Fetal Diseases - etiology
Fetal Diseases - pathology
Humans
Male
Malnutrition - complications
Maternal Nutritional Physiological Phenomena
Pregnancy
Prostate - growth & development
Prostatic Diseases - etiology
Prostatic Diseases - pathology
low-protein diet
fetal programming
androgen receptor
prostatitis
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Summary:Well-controlled intrauterine development is an essential condition for many aspects of normal adult physiology and health. This process is disrupted by poor maternal nutrition status during pregnancy. Indeed, physiological adaptations occur in the fetus to ensure nutrient supply to the most vital organs at the expense of the others, leading to irreversible consequences in tissue formation and differentiation. Evidence indicates that maternal undernutrition in early life promotes changes in key hormones, such as glucocorticoids, growth hormones, insulin-like growth factors, estrogens and androgens, during fetal development. These alterations can directly or indirectly affect hormone release, hormone receptor expression/distribution, cellular function or tissue organization, and impair tissue growth, differentiation and maturation to exert profound long-term effects on the offspring. Within the male reproductive system, maternal protein malnutrition alters development, structure, and function of the gonads, testes and prostate gland. Consequently, these changes impair the reproductive capacity of the male offspring. Further, permanent alterations in the prostate gland occur at the molecular and cellular level and thereby affect the onset of late life diseases such as prostatitis, hyperplasia and even prostate cancer. This review assembles current thoughts on the concepts and mechanisms behind the developmental origins of health and disease as they relate to protein malnutrition, and highlights the effects of maternal protein malnutrition on rat prostate development and homeostasis. Such insights on developmental trajectories of adult-onset prostate disease may help provide a foundation for future studies in this field.
ISSN:2040-1752
DOI:10.1017/S2040174418000168