Quantitative morphological analysis of the pituitary gland in protein-calorie malnourished rats

Recovery of long-term maternal behavioral deficiencies of neonatally underfed rats by early sensory stimulation: effects of successive parturitions

The study examines the effects of two paradigms of neonatal food deprivation (daily mother-litter separation, Experiment 1 or nipple-ligation of mothers, Experiment 2) associated or not to early sensory stimulation (daily handling or the exposure to an enriched sensory environment) during the pre-weaning period of Wistar strain female rats. The effects of experimental manipulations were evaluated by measuring the nest building, retrieving latencies and nursing time of adult dams along three successive parturitions. Undernourished dams of Experiment 1, showed significant alterations in maternal responsiveness in the first delivery, which were attenuated by the maternal experience of two additional parturitions. Moreover, maternal alterations were importantly compensated by the association to early sensory stimulation (except nest building). Underfed mothers of Experiment 2 exhibited less alterations of the maternal response during the first parturition, and these were ameliorated by the maternal experience of successive parturitions. Additionally, complete recovery of maternal responsiveness alterations was obtained when sensory stimulation was associated to the maternal experience. Data suggest differential vulnerability to neonatal food and sensory deprivation of the neural mechanisms underlying maternal performance.

Morphometric and ultrastructural analysis of different pituitary cell populations in undernourished monkeys

Undernutrition elicited by a low-protein diet determines a marked reduction of hypophyseal activity and affects the function of the respective target organs. The objective of the present investigation was to study the ultrastructural and quantitative immunohistochemical changes of the different pituitary cell populations in undernourished monkeys that had been previously shown to have significant changes in craniofacial growth. Twenty Saimiri sciureus boliviensis monkeys of both sexes were used. The animals were born in captivity and were separated into two groups at one year of age, i.e., control and undernourished animals. The monkeys were fed ad libitum a 20% (control group) and a 10% (experimental group) protein diet for two years. Pituitaries were processed for light and electron microscopy. The former was immunolabeled with anti-GH, -PRL, -LH, -FSH, -ACTH, and -TSH sera. Volume density and cell density were measured using an image analyzer. Quantitative immunohistochemistry revealed a decrease in these parameters with regard to somatotrophs, lactotrophs, gonadotrophs and thyrotrophs from undernourished animals compared to control ones. In these populations, the ultrastructural study showed changes suggesting compensatory hyperfunction. On the contrary, no significant changes were found in the morphometric parameters or the ultrastructure of the corticotroph population. We conclude that in undernourished monkeys the somatotroph, lactotroph, gonadotroph, and thyrotroph cell populations showed quantitative immunohistochemical changes that can be correlated with ultrastructural findings.

Low dosages of exogenous growth hormone and its effect on growth in an animal model of suboptimal nutrition

In a previous study, weight gain, insulin growth factor-1 (IGF-1) and insulin growth factor binding protein-3 (IGFBP-3) were increased in rats fed suboptimal levels of energy and administered 0.1 mg/100 g of body weight of recombinant human growth hormone (rhGH). Our objective was to determine whether these anabolic effects were still obtained with lower dosages of rhGH in similarly fed rats. Three groups of male, prepubertal Sprague-Dawley rats were administered rhGH and three groups of similar rats were given normal saline solution daily (0.05 mg/100 g of body weight subcutaneously). All rats were fed a balanced 1:1 carbohydrate:fat ratio diet for 4 wk. Restricted rats within each treatment were pair fed 80% and 60% ad libitum. Daily body weight, food intake, and efficiency were recorded. After 4 wk, serum IGF-1 and IGFBP-3, body fat, fat-free mass, and total body water were determined. Total weight gain and serum IGFBP-3 were significantly higher, with a tendency for increased body fat, in rats treated with rhGH and fed at 60% ad libitum. However, within each treatment, energy restriction caused decreased body fat and total body water. These results suggest that lower dosages of rhGH provide anabolic effects during suboptimal energy intake.

Development of play behavior in neonatally undernourished rats

The effects of neonatal food and sensory deprivation on play social behavior (boxing, wrestling, and pinning) were studied in male and female Wistar strain rats from 20 to 60 days of age. Data showed that the mean frequency of total play was markedly increased in neonatally underfed subjects. Play did also increase in the females and during the interaction in pairs and in the play that occurred during the prepuberal period. These findings suggest that early food restriction and the unavoidable sensory deprivation associated to the undernourishing procedure, interfere with the neuroendocrine maturational processes of central and peripheral modulatory mechanisms underlying play behavior.

Effects of a low-protein diet on prolactin- and growth hormone-producing cells in the rat pituitary gland

BACKGROUND

It is well known that an unbalanced diet induces various changes in the pituitary gland. However, little attention has been paid to the molecular aspects of this perturbation. We studied the influence of a low-protein diet (LPD) on the prolactin (PRL) and growth hormone (GH) cells in the rat pituitary gland using immunohistochemical staining and in situ hybridization.

MATERIALS

Rats aged 20 days were fed a diet containing 27% protein or one with 8% protein (LPD) for 30 days. Pituitary glands were obtained and subjected to either immunohistochemistry or in situ hybridization. Quantitative morphological analysis was then conducted to determine cell number and area as well as the percentage of cells stained by the respective antisera and/or cDNA probe in each experimental group.

RESULTS

The average sectional areas of both PRL- and GH-producing cells in the LPD group were smaller in size than those in the controls. The cell numbers per unit area (mm2) of PRL-positive cells and PRL mRNA-positive cells were 3,596.5 and 3,948.6, respectively, in the LPD group, and 3,179.6 and 4,888.5, respectively, in the controls. The numbers per unit area of GH-positive cells and GH mRNA-positive cells in the LPD group were similar (2,252.3 and 2,224.4), as compared to 2,161.3 and 1,684.2, respectively, in the well-fed rats. Whereas PRL-positive cells comprised about 27% of the total number of cells in both animal groups, those given the LPD contained a lower percentage (29%) of PRL mRNA-positive cells as compared to the controls (44%). On the other hand, GH mRNA-positive cells numbered about 15% of the total cell population both animal groups; however, the malnourished rats contained a lower percentage (16%) of GH-positive cells than did their well-fed counterparts (20%).

CONCLUSIONS

Taken together, these results indicate that in the rat pituitary gland, administration of an LPD reduced the size of PRL- and GH-positive cells as well as differentially affecting a subpopulation of the PRL mRNA-positive cells and the GH-positive cells.

Protein malnutrition increases plasma adrenocorticotropin and anterior pituitary proopiomelanocortin messenger ribonucleic acid in the rat

The mechanism by which protein malnutrition increases circulating glucocorticoids is unclear. To determine whether ACTH synthesis and secretion also increase in protein malnutrition, rats were sham adrenalectomized or adrenalectomized and replaced with varying amounts of corticosterone before dietary protein deprivation. Pair-fed rats served as controls for reduced voluntary food intake in protein-deprived rats. Dietary protein deficiency, but not pair-feeding, increased resting plasma corticosterone in sham-adrenalectomized rats. Restraint-induced ACTH secretion was not inhibited by the increased basal corticosterone levels in protein-deficient rats. When increases in corticosterone were eliminated by adrenalectomy or controlled by adrenalectomy with low level corticosterone replacement, increases in resting plasma ACTH and anterior pituitary POMC messenger RNA expression occurred with protein deprivation that could be statistically discriminated by regression analysis from changes due to caloric restriction (pair-feeding) and overt glucocorticoid feedback resistance. We conclude that protein malnutrition increases pituitary-adrenocortical activity at least in part by specifically increasing the drive for ACTH synthesis and secretion.