Sex differences in transgenerational alterations of growth and metabolism in progeny (F2) of female offspring (F1) of rats fed a low protein diet during pregnancy and lactation

doi:10.1113/jphysiol.2005.086462

Sex differences in transgenerational alterations of growth and metabolism in progeny (F₂) of female offspring (F₁) of rats fed a low protein diet during pregnancy and lactation

E Zambrano¹, P. M Martínez-Samayoa¹, C. J Bautista¹, M Deás^1,2, L Guillén¹, G. L Rodríguez-González¹, C Guzmán¹, F Larrea¹ and P. W Nathanielsz³

¹ Department of Reproductive Biology, Instituto Nacional de Ciencias Médicas y Nutrición Salvador Zubirán, Vasco de Quiroga 15, 14000, México, D.F. México
² Instituto Nacional de Endocrinología, Ciudad la Habana, Cuba
³ Center for the Pregnancy and Newborn Research, Department of Obstetrics, UTHSCSA, San Antonio, TX 78229, USA

Compelling epidemiological and experimental evidence indicatesthat a suboptimal environment during fetal and neonatal developmentin both humans and animals may programme offspring susceptibilityto later development of several chronic diseases including obesityand diabetes in which altered carbohydrate metabolism playsa central role. One of the most interesting and significantfeatures of developmental programming is the evidence from severalstudies that the adverse consequences of altered intrauterineenvironments can be passed transgenerationally from mother (F₀)to daughter (F₁) to second generation offspring (F₂). We determinedwhether when F₀ female rats are exposed to protein restrictionduring pregnancy and/or lactation their F₁ female pups deliverF₂ offspring with in vivo evidence of altered glucose and insulinmetabolism. We fed F₀ virgin Wistar rats a normal control 20%casein diet (C) or a protein restricted isocaloric diet (R)containing 10% casein during pregnancy. F₁ female R pups weighedless than C at birth. After delivery, mothers received C orR diet during lactation to provide four F₁ offspring groupsCC (first letter pregnancy diet and second lactation diet),RR, CR and RC. All F₁ female offspring were fed ad libitum withC diet after weaning and during their first pregnancy and lactation.As they grew female offspring (F₁) of RR and CR mothers exhibitedlow body weight and food intake with increased sensitivity toinsulin during a glucose tolerance test at 110 days of postnatallife. Male F₂ CR offspring showed evidence of insulin resistance.In contrast RC F₂ females showed evidence of insulin resistance.Sex differences were also observed in F₂ offspring in restingglucose and insulin and insulin: glucose ratios. These sex differencesalso showed differences specific to stage of development timewindow. We conclude that maternal protein restriction adverselyaffects glucose and insulin metabolism of male and female F₂offspring in a manner specific to sex and developmental timewindow during their mother's (the F₁) fetal and neonatal development.

(Received 12 March 2005; accepted after revision 27 April 2005; first published online 28 April 2005)
Corresponding author E. Zambrano: Department of Reproductive Biology, Instituto Nacional de Ciencias Médicas y Nutrición Salvador Zubirán. Vasco de Quiroga 15, 14000, México, D.F. México. Email: zamgon{at}laneta.apc.org

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