Maternal deficiency of protein or protein and calories during lactation: Effect upon CNS myelin subfraction formation in rat offspring

Abstract

The present study has examined the effects of maternal protein and protein-calorie deficiency during lactation on the development of CNS myelin subfractions in rat offspring. The offspring of both the protein and protein-calorie deficient rats had decreased brain and body weights, as well as delayed CNS myelination. Delayed active CNS myelination was demonstrated by the fact that 53-day-old nutritionally stressed pups incorporated significantly more [ 3H]leucine and [ 14C]glucose into all myelin subfractions than age-matched controls. Delayed myelination was also supported by the tremendous accretion of myelin proteins in the nutritionally deprived pups between 25 and 53 days of age. Despite the delayed active synthesis of myelin, the myelin deficit persisted in the offspring of protein deficient rats. These offspring had a deficiency of light + medium myelin throughout the study. At 17 days, both groups of nutritionally stressed rats had an excess of the high molecular weight proteins in heavy myelin. Heavy myelin from 17 day offspring of protein-calorie deficient rats had a deficiency of basic proteins, while that from the offspring of protein deficient rats had a deficiency of proteolipid protein. The protein composition of all myelin subfractions was normal at 53 days.