No Juvenile Arterial Hypertension in Sheep Multiples Despite Reduced Nephron Numbers

Overview

Journal Pediatr Nephrol

Specialties Nephrology
Pediatrics

Date 2010 Apr 14

PMID 20386927

Citations 11

Authors

Anja Muhle

Christiane Muhle

Kerstin Amann

Jorg Dotsch

Kai-Dietrich Nusken

Johannes Boltze

Holm Schneider

Affiliations

Soon will be listed here.

Abstract

Low birth weight is associated with an increased risk of metabolic dysfunction and arterial hypertension in later life. Because of their reduced birth weight twins have been used repeatedly as a natural model to investigate prenatal programming of hypertension. To reveal an early impact of lower nephron endowment on blood pressure, we performed a longitudinal study on lambs from single, twin and triplet pregnancies. The lambs were studied from birth until adulthood, including regular blood analyses, measurements of body weight and blood pressure and post-mortem estimation of glomerular numbers. Relative weight differences between multiples and singletons at birth were -28% for twins and -44% for triplets, respectively. Some lambs showed rapid catch-up growth. Total nephron number of twins and triplets was reduced by 21 and 37% with respect to that of singletons (p < 0.01). However, multiples did not show increased blood pressure within the time frame of this study. No gender-specific effect was observed. Plasma concentrations of creatinine, urea, electrolytes or osmolality also did not differ. Our data indicate that the previously reported postnatal blood pressure differences between sheep multiples and singletons are a time-limited phenomenon. During infancy and adolescence, a reduced nephron number in sheep multiples is neither associated with increased blood pressure nor reflected by plasma parameters.

Citing Articles

Maternal under-nutrition during pregnancy alters the molecular response to over-nutrition in multiple organs and tissues in nonhuman primate juvenile offspring.

Cox L, Puppala S, Chan J, Riojas A, Lange K, Birnbaum S J Dev Orig Health Dis. 2024; 15:e27.

PMID: 39506415 PMC: 11686573. DOI: 10.1017/S2040174424000163.

Postnatal persistence of nonhuman primate sex-dependent renal structural and molecular changes programmed by intrauterine growth restriction.

Bishop A, Spradling-Reeves K, Shade R, Lange K, Birnbaum S, Favela K J Med Primatol. 2022; 51(6):329-344.

PMID: 35855511 PMC: 9796938. DOI: 10.1111/jmp.12601.

Different levels of cardiometabolic indicators in multiple vs. singleton children.

Fonseca M, Santos A, Barros H BMC Pediatr. 2019; 19(1):331.

PMID: 31510947 PMC: 6737661. DOI: 10.1186/s12887-019-1707-0.

Developmental Programming of Renal Function and Re-Programming Approaches.

Nusken E, Dotsch J, Weber L, Nusken K Front Pediatr. 2018; 6:36.

PMID: 29535992 PMC: 5835132. DOI: 10.3389/fped.2018.00036.

Development of nonfibrotic left ventricular hypertrophy in an ANG II-induced chronic ovine hypertension model.

Klatt N, Scherschel K, Schad C, Lau D, Reitmeier A, Kuklik P Physiol Rep. 2016; 4(17).

PMID: 27613823 PMC: 5027340. DOI: 10.14814/phy2.12897.

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