Adult Hypertension and Kidney Disease. The Role of Fetal Programming

doi:10.1161/01.HYP.0000198544.09909.1a

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on January 16, 2006

Hypertension. 2006
Published online before print January 16, 2006, doi: 10.1161/01.HYP.0000198544.09909.1a

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Hypertension - basic studies

Submitted on September 27, 2005
Revised on October 11, 2005

Adult Hypertension and Kidney Disease. The Role of Fetal Programming

Kambiz Zandi-Nejad^*; Valerie A. Luyckx; and Barry M. Brenner

From the Renal Division (K.Z.-N., B.M.B.), Brigham and Women’s Hospital, Harvard Medical School, Boston, Mass and Renal Division (V.A.L.), University of Alberta, Alberta, Edmonton, Canada.

^* To whom correspondence should be addressed. E-mail: kzandinejad{at}partners.org.

Abstract--Hypertension (HTN) and chronic kidney disease arehighly prevalent diseases that tend to occur more frequentlyamong disadvantaged populations, in whom prenatal care alsotends to be poor. More and more evidence is emerging highlightingthe important role of fetal programming in the development ofadult disease, suggesting a possible common pathophysiologicdenominator in the development of these disorders. Epidemiologicevidence accumulated over the past 2 decades has demonstratedan association between low birth weight and subsequent adultHTN, diabetes, and cardiovascular disease. More recently, asimilar association has been found with chronic kidney disease.Animal studies and indirect evidence from human studies supportthe hypothesis that low birth weight, as a marker of adverseintrauterine circumstances, is associated with a congenitaldeficit in nephron number. The precise mechanism of the reductionin nephron number has not been established, but several hypotheseshave been put forward, including changes in DNA methylation,increased apoptosis in the developing kidney, alterations inrenal renin-angiotensin system activity, and increased fetalglucocorticoid exposure. A reduction in nephron number is associatedwith compensatory glomerular hypertrophy and an increased susceptibilityto renal disease progression. HTN in low birth weight individualsalso appears to be mediated in part through a reduction in nephronnumber. Increased awareness of the implications of low birthweight and inadequate prenatal care should lead to public healthpolicies that may have long-term benefits in curbing the epidemicsof HTN, diabetes, and kidney disease in generations to come.

Key words: hypertension • nephron number • kidney

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