Brain angiotensinergic mediation of enhanced water consumption in lactating rats

The mechanism by which lactating rats increase fluid consumption to meet the demands of milk production is unknown. Because ANG II is the most potent dipsogenic stimulus known, this study examined whether angiotensinergic signaling plays a role in enhanced drinking in lactating rats. ANG II administered intracerebroventricularly caused a significantly greater dipsogenic response in lactating rats than in control rats, suggesting that dipsogenic responsivity to ANG II is enhanced in the brains of lactating rats. The angiotensin type 1 (AT1) ANG II receptor subtype antagonist SKF-108566, also given intracerebroventricularly, caused a significant reduction in water consumption in lactating rats, whereas it did not significantly affect water intake in control rats. In contrast, stimulation of drinking by the muscarinic agonist carbachol, also administered intracerebroventricularly, did not differ between lactating and control rats. Inhibition of drinking by the muscarinic antagonist atropine also did not differ significantly between lactating and control rats. These results suggest that the increased drinking in lactating rats involves an increased responsivity to ANG II in neurons that mediate dipsogenesis, as well as an enhancement in the amount of angiotensinergic input to these ANG II-responsive neurons.     

Amino acid metabolism and protein synthesis in lactating rats fed on a liquid diet.

1. Amino acid metabolism was studied in control virgin rats, lactating rats and virgin rats protein-pair-fed with the lactating rats (high-protein virgin rats). 2. Urinary excretion of nitrogen and urea was higher in lactating than in control virgin rats, and in high-protein virgin rats it was higher than in lactating rats. 3. The activities of urea-cycle enzymes (units/g) were higher in high-protein virgin than in lactating rats, except for arginase. In lactating rats the activities of carbamoyl-phosphate synthase, ornithine carbamoyltransferase and argininosuccinate synthase were lower than in control virgin rats. When the liver size is considered, the activities in lactating rats were similar to those in high-protein virgin rats, except for arginase. 4. N-Acetylglutamate content was higher in high-protein virgin rats than in the other two groups. 5. The rate of urea synthesis from precursors by isolated hepatocytes was higher in high-protein virgin rats than in the other two groups. 6. The flooding-dose method (L-[4-3H]phenylalanine) for measuring protein synthesis was used. The absolute synthesis rates of mammary gland, liver and small-intestinal mucosa were higher in lactating rats than in the other two groups, and in high-protein virgin rats than in control virgin rats 7. These results show that the increased needs for amino acids during lactation are met by hyperphagia and by a nitrogen-sparing mechanism.     

Tissue-specific effects of starvation and refeeding on the disposal of oral [1-14C]triolein in the rat during lactation and on removal of litter.

1. The effects of starvation and refeeding on the disposal of oral [14C]triolein between 14CO2 production and 14C-lipid accumulation in tissues of virgin rats, lactating rats and lactating rats with pups removed were studied. 2. Starvation (24 h) increased 14CO2 production in lactating rats and lactating rats with pups removed to values found in virgin rats. This increase was accompanied by decreases in 14C-lipid accumulation in mammary gland and pups of lactating rats and in white and brown adipose tissue of lactating rats with pups removed. 3. Short-term (2 h) refeeding ad libitum decreased 14CO2 production in lactating rats and lactating rats with pups removed, and restored the 14C-lipid accumulation in mammary glands plus pups and in white and brown adipose tissue respectively 4. Insulin deficiency induced with mannoheptulose inhibited the restoration of 14C-lipid accumulation in white adipose tissue on refeeding of lactating rats with pups removed, but did not prevent the restoration of 14C-lipid accumulation in mammary gland. 5. Changes in the activity of lipoprotein lipase in mammary gland and white adipose tissue paralleled the changes in 14C-lipid accumulation in these tissues. 6. It is concluded that 14C-lipid accumulation in mammary gland may not be affected by changes in plasma insulin concentration and that it is less sensitive to starvation than is lipogenesis or lactose synthesis. This has the advantage that the milk lipid content can still be maintained from hepatic very-low-density lipoprotein for a period after withdrawal of food. The major determinant of the disposal of oral 14C-triolein appears to be the total tissue activity of lipoprotein lipase. When this is high in mammary gland (fed lactating rats) or white adipose tissue (fed lactating rats with pups removed), less triacylglycerol is available for the muscle mass and consequently less is oxidized.     

Changes in the properties of cytosolic acetyl-CoA carboxylase studied in cold-clamped liver samples from fed, starved and starved-refed rats.

The mechanism responsible for the insulin resistance described in vivo in brown adipose tissue (BAT) of lactating rats was investigated. The effect of insulin on glucose metabolism was studied on isolated brown adipocytes of non-lactating and lactating rats. Insulin stimulation of total glucose metabolism is 50% less in brown adipocytes from lactating than from non-lactating rats. This reflects a decreased effect of insulin on glucose oxidation and lipogenesis. However, the effect of noradrenaline (8 microM) on glucose metabolism was preserved in brown adipocytes from lactating rats as compared with non-lactating rats. The number of insulin receptors is similar in BAT of lactating and non-lactating rats. The insulin-receptor tyrosine kinase activity is not altered during lactation, for receptor autophosphorylation as well as tyrosine kinase activity towards the synthetic peptide poly(Glu4-Tyr1). The defect in the action of insulin is thus localized at a post-receptor level. The insulin stimulation of pyruvate dehydrogenase activity during euglycaemic/hyperinsulinaemic clamps is 2-fold lower in BAT from lactating than from non-lactating rats. However, the percentage of active form of pyruvate dehydrogenase is similar in non-lactating and lactating rats (8.6% versus 8.9% in the basal state, and 37.0% versus 32.3% during the clamp). A decrease in the amount of pyruvate dehydrogenase is likely to be involved in the insulin resistance described in BAT during lactation.     

Effects of lactation on L-leucine metabolism in the rat. Studies in vivo and in vitro.

1. The turnover rate of L-[1-14C]leucine was increased by 35% in lactating rats compared with virgin rats. Starvation or removal of pups (24 h) returned the value to that of the virgin rat. 2. Incorporation of L-[U-14C]leucine into lipid and protein of mammary glands of lactating rats in vivo increased 7-fold and 6-fold respectively compared with glands of virgin rats. Lactation caused no change in the incorporation of L-[U-14C]leucine into hepatic lipid and protein. 3. The production of 14CO2 from L[l-14C]leucine (in the presence of glucose) was similar in isolated acini from glands of fed (chow) and starved lactating rats. Feeding with a 'cafeteria' diet caused a slight decrease, and removal of pups a large decrease, in the oxidative decarboxylation of leucine. 4. Oxidation of L-[2-14C]leucine to 14CO2 was increased about 3-fold in acini from starved lactating rats or lactating rats fed on a 'cafeteria' diet compared with rats fed on a chow diet. Insulin decreased the formation of 14CO2 in all three situations. 5. Incorporation of L-[U-14C]- and [2-14C]-leucine into lipid was decreased in acini from starved lactating rats and lactating rats fed on a 'cafeteria' diet. Insulin tended to increase the conversion of [2-14C]leucine into lipid, but this was significant only in the case of the acini from 'cafeteria'-fed rats. 6. Experiments with (-)-hydroxycitrate indicate that the major route for conversion of leucine carbon into lipid in acini is via citrate translocation from the mitochondria. 7. The physiological implications of these findings are discussed.     

Diurnal variations in food intake and in lipogenesis in mammary gland and liver of lactating rats.

Despite the hyperphagia, the food intake of the lactating rat showed marked diurnal changes which paralleled those of virgin rats. The major difference was that lactating rats consumed a higher proportion (35%) of their diet during the light period than did virgin rats (14%). The peak rate of lipogenesis in the lactating mammary gland occurred around midnight, and this decreased by 67% to reach a nadir around mid-afternoon; this corresponded with the period of lowest food intake. The diurnal variations in hepatic lipogenesis in lactating rats were much less marked. The changes in hepatic glycogen over 24 h suggest that it acts to supply carbon for lipogenesis during the period of decreased food intake. The activation state of acetyl-CoA carboxylase in mammary gland altered during 24 h, but the changes did not always correlate with alterations in the rate of lipogenesis. The changes in plasma insulin concentration tended to parallel the food intake in the lactating rats, but they did not appear to be sufficient to explain the large alterations in lipogenic rate in the mammary gland.     

Investigations on erythropoiesis in newborn rats. Dependence of erythropoiesis in newborn rats on the intensity of the haemopoietic processes in the lactating mothers.

The intensity of haemopoietic processes was investigated in 7, 9, 11, 14 and 19-day-old suckling rats in relation to the intensity of these processes in their mothers. The rate of the haemopoietic processes in newborn rats was determined on the basis of 59Fe incorporation into the blood and haemopoietic organs. The activity of the erythropoietic system in lactating rat females was stimulated by haemorrhage and inhibited by erythrocyte transfusion. Anaemization of lactating rats by haemorrhage did not stimulate erythropoiesis in the suckling rats. Posttransfusion polycythaemia in the lactating mothers inhibited erythropoiesis in the suckling rats beginning with the 9th day of life. This phenomenon became more pronounced with the age of the rats.     

Na(+)-K(+)-ATPase gene expression in the avian eggshell gland: distinct regulation in different cell types

In lactating rats, ANG II receptor binding in the arcuate nucleus (ARH) and median eminence is decreased. To further evaluate brain angiotensinergic activity during lactation, we assessed angiotensinogen (AON) mRNA by in situ hybridization in forebrains of day 10 or 11 postpartum lactating and diestrous rats. AON mRNA was abundantly expressed in the ARH, preoptic, suprachiasmatic, supraoptic, paraventricular, and dorsomedial hypothalamic nuclei, and other regions, similar to that reported in male rat brains. AON mRNA levels were decreased 27% in the midcaudal ARH of lactating rats but did not differ between lactating or diestrous rats in any of the other brain areas examined. Immunofluorescence for AON and glial fibrillary acidic protein or tyrosine hydroxylase confirmed that the AON immunoreactivity in the ARH was limited to astrocytes. Confocal microscopy revealed close appositions of AON-positive astrocytes to dopaminergic neurons in the ARH. The decrease in AON mRNA in the midcaudal ARH during lactation coupled with decreased ARH ANG II receptor binding suggests that lactating rats are less subject to ANG II-mediated inhibition of prolactin secretion.     

Role of growth hormone in the adaptations of lipolysis in rat adipocytes during recovery from lactation.

Removal of the litter from lactating rats results in a fall in the rate of noradrenaline-stimulated lipolysis of adipocytes. This adaptation can be prevented by administration of growth hormone (somatotropin) to such rats and mimicked by injecting lactating rats with an antiserum to growth hormone, whereas lowering serum prolactin by injecting bromocriptine had no effect. The anti-lipolytic effect of adenosine is increased during lactation and is still increased by 2 days after litter removal. Injection of growth hormone into lactating rats decreased slightly the response to adenosine, whereas injection of growth hormone into rats after removal of their litters resulted in a much greater decrease in the response to adenosine, to that found in virgin and pregnant rats.     

Reduced noradrenaline turnover in brown adipose tissue of lactating rats

Brown adipose tissue properties as well as noradrenaline turnover in the tissue were determined in 15-day lactating rats and virgin controls. Brown adipose tissue thermogenic activity was reduced in lactating rats as shown by a decrease in weight, cytochrome oxidase activity and mitochondrial GDP-binding. The noradrenaline turnover rate was lower in brown adipose tissue from lactating rats. It is suggested that diminished sympathetic activity in brown adipose tissue may be a major cause of the reduced tissue thermogenic activity during lactation.     

Evidence that the stimulation of lipogenesis in the mammary glands of starved lactating rats re-fed with a chow diet is dependent on continued hepatic gluconeogenesis during the absorptive period. Effects of a gluconeogenic inhibitory, mercaptopicolinic acid, in vivo.

The rapid stimulation of lipogenesis in mammary gland that occurs on re-feeding starved lactating rats with a chow diet was decreased (60%) by injection of mercaptopicolinic acid, an inhibitor of hepatic gluconeogenesis at the phosphoenolpyruvate carboxykinase step. Mercaptopicolinate had no effect on lipogenesis in mammary glands of fed lactating rats. The inhibition of lipogenesis persisted in vitro when acini from mammary glands of re-fed rats treated with mercaptopicolinate were incubated with [1-14C]glucose. Mercaptopicolinate added in vitro had no significant effect on lipogenesis in acini from starved-re-fed lactating rats. Mercaptopicolinate prevented the deposition of glycogen and increased the rate of lipogenesis in livers of starved-re-fed lactating rats, whereas it had no significant effect on livers of fed lactating rats. Administration of intraperitoneal glucose restored the rate of mammary-gland lipogenesis in re-fed rats treated with mercaptopicolinate to the values for re-fed rats. Hepatic glycogen deposition was also restored, and the rate of hepatic lipogenesis was stimulated 5-fold. It is concluded that stimulation of mammary-gland lipogenesis on re-feeding with a chow diet after a period of starvation is in part dependent on continued hepatic gluconeogenesis during the absorptive period. Possible sources of the glucose precursors are discussed.     

Glutamine and ketone-body metabolism in the small intestine of starved peak-lactating rats

1. The effect of starvation on the metabolism of gut glutamine and ketone-bodies of peak lactating, non-lactating and virgin rats was investigated. 2. The arterial blood ketone-body concentration was increased by approximately 7-, 6- and 13-fold in 48 h-starved virgin, non-lactating and lactating rats, respectively. 3. The arterial blood glutamine concentration was decreased by approximately 32% in 48 h-starved lactating rats (p less than 0.001). 4. The maximal activity of phosphate-dependent glutaminase was increased or decreased in the small intestine of fed or 48 h-starved peak-lactating rats, respectively. 5. Portal drained viscera blood flow increased by approximately 25% in peak-lactating rats. 6. Arteriovenous difference measurements for ketone-bodies across the gut of 48 h-starved rats showed an increase in net uptake of ketone-bodies by approximately 10-, 17- and 29-fold in virgin, non-lactating and lactating rats, respectively. 7. Glutamine was extracted by the gut of peak-lactating rats at a rate of 487 nmol/100 g of body wt. which was greater by approximately 33% (p less than 0.001) than that of virgin or non-lactating animals. In peak lactating rats, 48 h-starvation resulted in marked decreases in the rates of glutamine removal from the circulation (p less than 0.001) which was accompanied by decreased rates of release of glutamate, alanine and ammonia.(ABSTRACT TRUNCATED AT 250 WORDS)     

哺乳、哺乳-禁乳及哺乳-禁乳后再哺乳对大鼠下丘脑胖素A免疫反应神经元的影响

为观察下丘脑胖素 A在哺乳期摄食增加和能量代谢中的作用,本研究采用脑连续切片之免疫组织化学和图像定量分析技术,对分娩后第 12 天非哺乳、持续哺乳、持续哺乳后禁哺乳过夜和持续哺乳 - 禁哺乳后再急性哺乳大鼠下丘脑胖素A免疫反应神经元的免疫反应性进行了观察和半定量分析。结果表明,分娩后持续哺乳 11 d, 大鼠的日摄食量较同期分娩的非哺乳大鼠明显增加(180%),一夜禁哺乳则明显降低哺乳大鼠的日摄食量(45%); 哺乳12 d, 大鼠下丘脑胖素 A免疫反应神经元的数目和平均染色强度较非哺乳大鼠明显增加(P<0.001,P<0.05); 禁哺乳过夜(15 h)明显降低哺乳大鼠胖素A免疫反应神经元的数目和平均染色强度(P<0.001,P<0.05),与非哺乳大鼠比较无明显差异;禁哺乳过夜后再急性哺乳2 h 明显增加禁哺乳大鼠胖素 A 免疫反应神经元的数目和平均染色强度(P<0.001,P<0.05),急性哺乳 5 h 后,虽亦明显增加禁哺乳大鼠胖素 A免疫反应性(P<0.05),但与急性哺乳 2 h 比较作用减弱。上述结果表明,持续哺乳和禁乳后再哺乳均导致下丘脑胖素A明显增加,提示哺乳期胖素A可能表达上调并可能与哺乳期摄食增加有关, 且吸乳动作与下丘脑胖素A样神经元之间可能存在某种神经或体液性联系途径。     

Absence of down-regulation of the insulin receptor by insulin. A possible mechanism of insulin resistance in the rat.

Insulin resistance occurs in rat adipocytes during pregnancy and lactation despite increased or normal insulin binding respectively; this suggests that a post-receptor defect exists. The possibility has been examined that, although insulin binding occurs normally, internalization of insulin or its receptor may be impaired in these states. Insulin produced a dose-dependent reduction in the number of insulin receptors on adipocytes from virgin rats maintained in culture medium, probably due to internalization of the hormone-receptor complex. In contrast, adipocytes from pregnant and lactating rats did not exhibit this 'down-regulation' phenomenon. Down regulation was, however, apparent in all groups when the experiments were performed in Tris buffer (where receptor recycling is inhibited), suggesting that in pregnant and lactating rats insulin receptors are rapidly recycled back to the plasma membrane, whereas in virgin rats this recycling process is less effective. Internalization of insulin was also determined by using 125I-labelled insulin. Adipocytes from pregnant and lactating rats appeared to internalize similar amounts of insulin to virgin rats. In the presence of the lysosomal inhibitor chloroquine, adipocytes from pregnant rats internalized more insulin than virgin or lactating rats. These results suggest that adipocytes from pregnant and lactating rats internalize insulin and its receptor normally, whereas intracellular processing of the insulin receptor may differ from that in virgin rats. In addition the rate of lysosomal degradation of insulin may be altered in adipocytes from pregnant rats.     

Ultrastructural changes of the pancreatic beta-cell and the insulin secretion by islets from lactating and non-lactating rats

Islets isolated from lactating rats, as compared to islets from non-lactating rats, release less insulin when incubated in the absence of exogenous nutrient or presence of either D-glucose (11.1 mM) or the association of L-leucine and L-glutamine (10.0 mM each). The insulin content of the islets is not different in lactating and non-lactating rats. The volume density of the dark granules in the beta-cells is not at variance in both groups. However the volume density of the light (pale) granules is significantly lower in the lactating rats. The reduced amount of light granules is in keeping with the reduced secretory capacity of the beta-cells from lactating rats.     

Epithelial and adipose cells isolated from mammary glands of pregnant and lactating rats differ in 11 beta-hydroxysteroid dehydrogenase activity

Both adipose and epithelial cells isolated from the mammary glands of pregnant and lactating rats show 11 beta-hydroxysteroid dehydrogenase (11-HSD) activity, as measured by conversion of corticosterone to 11-dehydrocorticosterone. Activity in adipose cells from pregnant rats is 3-fold higher than in lactating rats. Epithelial cells from pregnant rats show one-twentieth of the activity of adipose cells, and activity is lower still in epithelial cells from lactating rats. Explants incubated for 48 h extensively metabolized corticosterone to 11-dehydrocorticosterone, and to a much lesser extent to a second unknown metabolite which is found in tissue extracts but not conditioned medium. Mammary gland 11-HSD may thus constitute one of the physiological mechanisms preventing premature milk production in response to glucocorticoids.     

Lactation-induced changes in calcium handling by rat pancreatic islets

Glucose-stimulated insulin release occurred at a lower rate in pancreatic islets removed from lactating than non-lactating rats. This defect was corrected in the presence of either gliclazide or a calcium-agonist. With both agents present, insulin release from islets of lactating rats was greater. When islets were prelabelled with 45calcium, gliclazide stimulated to the same extent 45Ca outflow in islets from lactating and non-lactating rats, respectively. However, when the islets were prelabelled with 45Ca in the presence of gliclazide, the administration of Ba2+ increased effluent radioactivity more markedly in islets from non-lactating than lactating rats. This suggests that lactation favours, in gliclazide-stimulated islets, the sequestration of 45Ca in non-labile subcellular pools. When D-glucose was used instead of Ba2+, the greater lability of 45Ca in islets from non-lactating animals was apparently masked by a lesser efficiency in the metabolism and cationic effects of D-glucose in the non-lactating rats. The calcium-ionophoretic effect of islet extracts was higher in lactating than non-lactating rats. These results support the view that a depletion of endogenous calcium stores accounts, in part at least, for the decreased insulin secretory responsiveness to D-glucose in lactation, since the latter apparently favours the function of those systems involved in either the entry of calcium into or its sequestration within the islet cells.     

Combined use of in situ hybridisation and immunocytochemistry for the investigation of prolactin gene expression in immature,pubertal, pregnant,lactating and ovariectomised rats

Summary We have investigated the use of in situ hybridisation together with immunocytochemistry for the study of endocrine cell function, using as an example the expression of prolactin messenger RNA (mRNA) in pituitaries of rats under various endocrinological conditions. In situ hybridisation using a ³²P-labelled cRNA probe for rat prolactin was carried out on sections of 4% paraformaldehyde-fixed pituitaries from prepubertal, pubertal, pregnant, lactating and ovariectomised rats and adjacent sections were immunostained for prolactin. Northern gel analysis was performed on total RNA extracts of pregnant, lactating and control pituitaries. While in ovariectomised rat pituitaries both prolactin immunoreactivity and prolactin mRNA were decreased, no differences in prolactin immunostaining were seen between prepubertal, pubertal, pregnant or lactating rats and controls, even when the supra-optimal dilution technique was used. However, using in situ hybridisation, prolactin mRNA signal was increased in prepubertal rats, and with hybridisation and northern gel analysis the signal was reduced in pregnant rats and markedly increased in lactating rats. The combined use of in situ hybridisation and immunocytochemistry provides morphological information concerning endocrine gene expression and protein synthesis in the pituitary gland.     

Combined use of in situ hybridisation and immunocytochemistry for the investigation of prolactin gene expression in immature, pubertal, pregnant, lactating and ovariectomised rats

We have investigated the use of in situ hybridisation together with immunocytochemistry for the study of endocrine cell function, using as an example the expression of prolactin messenger RNA (mRNA) in pituitaries of rats under various endocrinological conditions. In situ hybridisation using a 32P-labelled cRNA probe for rat prolactin was carried out on sections of 4% paraformaldehyde-fixed pituitaries from prepubertal, pubertal, pregnant, lactating and ovariectomised rats and adjacent sections were immunostained for prolactin. Northern gel analysis was performed on total RNA extracts of pregnant, lactating and control pituitaries. While in ovariectomised rat pituitaries both prolactin immunoreactivity and prolactin mRNA were decreased, no differences in prolactin immunostaining were seen between prepubertal, pubertal, pregnant or lactating rats and controls, even when the supra-optimal dilution technique was used. However, using in situ hybridisation, prolactin mRNA signal was increased in prepubertal rats, and with hybridisation and northern gel analysis the signal was reduced in pregnant rats and markedly increased in lactating rats. The combined use of in situ hybridisation and immunocytochemistry provides morphological information concerning endocrine gene expression and protein synthesis in the pituitary gland.     

Food restriction selectively increases hypothalamic orexin-B levels in lactating rats

Orexins are hypothalamic peptides implicated in the regulation of ingestive and other behaviours. Here we investigated prepro-orexin expression and hypothalamic orexin-A and -B levels in lactating rats, which display marked hyperphagia, with or without food restriction for 2 days or treatment with bromocriptine, which inhibits milk production and thus reduces the energy losses of lactation. Neither prepro-orexin gene expression nor hypothalamic orexin-A peptide levels were changed in any of these lactating groups compared with age-matched virgin controls. However, hypothalamic orexin-B levels were significantly higher in lactating rats that were food-restricted for 2 days (P<0.05) compared with non-lactating controls and with lactating rats that were either freely-fed or bromocriptine-treated. Thus, food restriction superimposed on lactation selectively increases hypothalamic orexin-B levels, suggesting that orexin-A and -B may be differentially released or cleared. Changes in orexin-B availability may influence physiological activities other than energy homeostasis, perhaps inducing arousal.