Changes in hepatic lipogenesis during development of the rat

1. Changes in the activities of ATP citrate lyase, ;malic' enzyme, glucose 6-phosphate dehydrogenase, pyruvate kinase and fructose 1,6-diphosphatase, and in the ability to incorporate [1-(14)C]acetate into lipid have been measured in the livers of developing rats between late foetal life and maturity. 2. In male rats the activities of those systems directly or indirectly concerned in lipogenesis (acetate incorporation into lipid, ATP citrate lyase and glucose 6-phosphate dehydrogenase) fall after birth and are maintained at a low value until weaning. After weaning these activities rise to a maximum between 30 and 40 days and then decline, reaching adult values at about 60 days. ;Malic' enzyme activity follows a similar course, except that none could be detected in the foetal liver. Pyruvate kinase activity is lower in foetal than in adult livers and rises to slightly higher than the adult value in the post-weaning period. Fructose 1,6-diphosphatase activity rises from a very low foetal value to reach a maximum at about 10 days but falls rapidly after weaning to reach adult values at about 30 days. 3. Weaning rats on to a high-fat diet caused the low activities of acetate incorporation, ATP citrate lyase, glucose 6-phosphate dehydrogenase and pyruvate kinase, characteristic of the suckling period, to persist. ;Malic' enzyme and fructose 1,6-diphosphatase activities were not altered appreciably. 4. No differences could be detected in hepatic enzyme activities between males and females up to 35 days, but after this time female rats gave higher values for acetate incorporation, glucose 6-phosphate dehydrogenase activity and ;malic' enzyme activity. 5. The results are discussed in relation to changes in alimentation and hormonal influences.     

Effect of immobilization stress on the gonadotropic function of the hypophysis in male hamadryas baboons (Papio hamadryas)

The plasma levels of luteinizing hormone (LH) and testosterone were studied in intact and castrated male baboons exposed to 2- and 10-hour periods of immobilization. Presented data have shown that immobilization stress induced a marked decrease in LH concentration both in intact and castrated monkeys. Changes in LH concentration positively correlated with plasma levels of testosterone only during the experimental procedures. During three days after immobilization there was a sharp dissociation in the dynamics of testosterone levels remained low and LH returned to normal values. We can suggest that it is not absolute LH level that is responsible for the changes in testosterone secretion during the immobilization stress.     

Changes in lipid synthesis in rat liver during development

1. Lipogenesis, as measured by the incorporation of ¹⁴C-labelled glucose or acetate into fatty acids in liver slices, is high in foetal and adult rat liver but is low in the liver of the suckling rat, especially with glucose as substrate. 2. The rate of synthesis of non-saponifiable lipids from glucose is about 15 times as great in the liver of the 18-day foetus as in adult liver. Activity in the newborn is negligible. 3. Glucose incorporation into fat is strongly concentration-dependent in liver slices from the adult and 2-week-old rat, but less markedly so in liver slices from the foetus. 4. Changes in the activity of hepatic citrate-cleavage enzyme (ATP–citrate lyase) occur in parallel with the changes in the extent of fatty acid formation, supporting the participation of this enzyme in lipogenesis. However, NADP–malate dehydrogenase, a potential source of reduced nucleotide coenzyme for lipogenesis in the adult, could not be detected in foetal rat liver.     

Changes in creatine transporter function during cardiac maturation in the rat

Background  

It is well established that the immature myocardium preferentially utilises non-oxidative energy-generating pathways. It exhibits low energy-transfer capacity via the creatine kinase (CK) shuttle, reflected in phosphocreatine (PCr), total creatine and CK levels that are much lower than those of adult myocardium. The mechanisms leading to gradually increasing energy transfer capacity during maturation are poorly understood. Creatine is not synthesised in the heart, but taken up exclusively by the action of the creatine transporter protein (CrT). To determine whether this transporter is ontogenically regulated, the present study serially examined CrT gene expression pattern, together with creatine uptake kinetics and resulting myocardial creatine levels, in rats over the first 80 days of age.     

The nerve fibres controlling the gonadotropic activity of the hypophysis of Rana temporaria

Summary In 27 adult female specimens of Rana temporaria, the total interruption of the nervous pathways to the median eminence and the hypophysis was performed, without disturbing the normal blood supply of the hypophysis. In eight cases this complete interruption persisted three months after operation. In these animals there occurred no seasonal development of the eggs, ovaries and oviducts. In the 19 other operated animals a varying degree of regeneration of the interrupted nerve fibres occurred. In these animals a varying number of ripe eggs was present, but in many of them there existed a significant difference between the weight of their ovaries compared with that of the ovaries of the control animals. In all control animals the seasonal development of the ovaries and oviducts was normal. From these and from previous experiments it could be concluded that the A. F. negative nerve fibres of the median eminence, not originating from the magnocellular neurosecretory preoptic nuclei, are responsible for the normal seasonal development of the ovaries and oviducts in Rana temporaria. It must be these nerve fibres that release gonadotropic releasing factors into the blood capillaries of the median eminence. The A. F. positive neurosecretory fibres, the portal circulation of the pars distalis and the pituicytes of the median eminence play only a secondary part during this period of control of the gonadotropic activity of the hypophysis.     

Changes in parameters of lipoprotein metabolism during rat hepatic development

Maintenance of whole body cholesterol homeostasis is determined in part by the liver. Thus, changes in expression of hepatic parameters important in the regulation of cholesterol metabolism may play key roles in determining how homeostasis is maintained. The expression of hepatic lipoprotein uptake systems was studied during development using as a ligand very-low density lipoproteins rich in apolipoprotein E that had been obtained from hypercholesterolemic adult rats. These lipoproteins can serve as ligands for cell surface receptors recognizing apolipoproteins B and/or E. Uptake was lowest in freshly isolated fetal rat hepatocytes, increased substantially in hepatocytes from neonates and was intermediate in those from adults. Binding of these lipoproteins to liver membranes prepared from fetal, neonatal, suckling, weaned and adult rats was lowest in fetal preparations, while those from suckling, weaned and adult livers behaved similarly. Numbers of binding sites in neonatal liver membranes were similar to those in adult, but showed a different affinity. On the basis of this data, the ability of hepatocytes to recognize and remove apolipoprotein B/E-containing lipoproteins from the plasma appears to be a function of the differential expression or regulation of lipoprotein-uptake systems during development.     

Role of limbic-neocortical mechanisms in the formation of experimental alcoholism in the rat

The role of the amigdalar complex and the hippocampus as well as their interaction with the hypothalamus in a formation of attraction to alcohol was studied in 40 rats. After electrolytic lesions of the hippocampus and the amigdalar complex at early stages of alcoholization the inhibition of development of this pathologic attraction occurred however with subsequent dynamical reorganization of the structural and functional mechanisms of alcoholic motivation and with duplication of the triggering links. Important role of the limbico-neocortical relations was revealed in a development of behavioural and emotional-vegetative disturbances accompanying experimental alcoholism.     

Changes of hippocampal protein levels during postnatal brain development in the rat

Information on postnatal brain protein expression is very limited, and we therefore compared hippocampal protein levels in rat hippocampus at different developmental time points using two-dimensional gel electrophoresis followed by mass spectrometrical protein identification and specific software for quantification. Proteins from several cascades as e.g., antioxidant, metabolic, cytoskeleton, proteasomal, and chaperone pathways were developmentally regulated, which is relevant for design and interpretation of protein chemical studies in the mammalian brain.     

Changes in expression of angiotensin receptor subtypes in the rat aorta during development

Quantitative autoradiography was used to characterize angiotensin AT1 and AT2 receptors, in the rat aorta at three developmental ages; embryonic day 18 (E18), and postnatal weeks 2 and 8. The expression of angiotensin receptors was higher in the aorta of E18 and 2-week-old rat. A major proportion of the angiotensin receptors expressed in the aorta at these two ages was AT2 (84 and 81% respectively). Conversely, in the aorta of 8-week-old rats, AT1 was the predominant angiotensin receptor subtype (71%). In 8-week-old rats, the AT2 subtype was also present (28%). In pre- and postnatal rats, [125I]Sar1-angiotensin II binding to AT1 receptors was sensitive to GTP gamma S whereas binding to AT2 receptors was not. AT2 receptors may serve an important role during stages of rapid growth of the aorta, and also have a significant function in the adult vasculature.