L K Fischer1, J A McGaughy2, S E Bradshaw1, W J Weissner3, A C Amaral4, D L Rosene4, D J Mokler3, G M Fitzmaurice5,6, J R Galler1. 1. a Judge Baker Children's Center and Department of Psychiatry , Harvard Medical School , Boston , MA , USA. 2. b Department of Psychology , University of New Hampshire , Durham , NH , USA. 3. c Department of Biological Sciences , University of New England , Biddeford , ME , USA. 4. d Department of Anatomy & Neurobiology , Boston University Medical Campus , Boston , MA , USA. 5. e Department of Biostatistics , Harvard School of Public Health , Boston , MA , USA. 6. f Laboratory for Psychiatric Biostatistics , McLean Hospital , Belmont , MA , USA.
Abstract
OBJECTIVE: This study assessed the effect of varying prenatal protein levels on the development of homing behavior in rat pups. METHODS: Long-Evans rats were fed one of the four isocaloric diets containing 6% (n = 7 litters), 12% (n = 9), 18% (n = 9), or 25% (n = 10) casein prior to mating and throughout pregnancy. At birth, litters were fostered to well-nourished control mothers fed a 25% casein diet during pregnancy, and an adequate protein diet (25% casein) was provided to weaning. On postnatal days 5, 7, 9, 11, and 13, homing behaviors, including activity levels, rate of successful returns to the nest quadrant and latencies to reach the nest over a 3-minute test period were recorded from two starting positions in the home cage. Adult body and brain weights were obtained at sacrifice (postnatal day 130 or 200). RESULTS: Growth was impaired in pups whose mothers were fed a 6% or, to a lesser extent, a 12% casein diet relative to pups whose mothers were fed the 18 and 25% casein diets. The 6 and 12% prenatal protein levels resulted in lower activity levels, with the greatest reduction on postnatal day 13. However, only the 6% pups had reduced success and higher latencies in reaching the nest quadrant when compared with pups from the three other nutrition groups. Latency in reaching the nest quadrant was significantly and negatively associated with adult brain weight. DISCUSSION: Home orientation is a sensitive measure of developmental deficits associated with variations in prenatal protein levels, including levels of protein deficiency that do not lead to overt growth failure.
OBJECTIVE: This study assessed the effect of varying prenatal protein levels on the development of homing behavior in rat pups. METHODS: Long-Evans rats were fed one of the four isocaloric diets containing 6% (n = 7 litters), 12% (n = 9), 18% (n = 9), or 25% (n = 10) casein prior to mating and throughout pregnancy. At birth, litters were fostered to well-nourished control mothers fed a 25% casein diet during pregnancy, and an adequate protein diet (25% casein) was provided to weaning. On postnatal days 5, 7, 9, 11, and 13, homing behaviors, including activity levels, rate of successful returns to the nest quadrant and latencies to reach the nest over a 3-minute test period were recorded from two starting positions in the home cage. Adult body and brain weights were obtained at sacrifice (postnatal day 130 or 200). RESULTS: Growth was impaired in pups whose mothers were fed a 6% or, to a lesser extent, a 12% casein diet relative to pups whose mothers were fed the 18 and 25% casein diets. The 6 and 12% prenatal protein levels resulted in lower activity levels, with the greatest reduction on postnatal day 13. However, only the 6% pups had reduced success and higher latencies in reaching the nest quadrant when compared with pups from the three other nutrition groups. Latency in reaching the nest quadrant was significantly and negatively associated with adult brain weight. DISCUSSION: Home orientation is a sensitive measure of developmental deficits associated with variations in prenatal protein levels, including levels of protein deficiency that do not lead to overt growth failure.
Entities:
Keywords:
Homing behavior; Malnutrition; Prenatal protein; Protein deficiency; Rats
Authors: A C Amaral; M Jakovcevski; J A McGaughy; S K Calderwood; D J Mokler; R J Rushmore; J R Galler; S A Akbarian; D L Rosene Journal: Neuroscience Date: 2014-11-18 Impact factor: 3.590
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Authors: Lori A Newman; Jaime Baraiolo; David J Mokler; Arielle G Rabinowitz; Janina R Galler; Jill A McGaughy Journal: Front Neurosci Date: 2019-02-19 Impact factor: 4.677