The influence of maternal nicotine exposure on neonatal lung metabolism. Protective effect of ascorbic acid.

The aim of the present study was to establish whether ascorbic acid supplementation (1 mg/kg/body mass/day) during pregnancy and lactation will prevent the effect of maternal nicotine exposure (1 mg/kg body weight/day) on neonatal lung carbohydrate, DNA and protein metabolism. The data show that the adult lung ascorbic acid content was reduced by 76% after exposure to nicotine. In contrast, maternal nicotine exposure during pregnancy and lactation has no effect on neonatal lung ascorbic acid content. However, ascorbic acid supplementation during pregnancy and lactation prevented the adverse effects of maternal nicotine exposure on neonatal lung carbohydrate, DNA and protein metabolism.     

Dynamics of food intake and blood level of hormones regulating appetite in pregnant and lactating mice

Leptin, insulin, corticosterone regulate food intake. Hyperphagia and hormonal rearrangement are typical for pregnancy and lactation. The aim of the study is to correlate food intake with blood levels of these hormones in pregnant and lactating mice. Food intake, body weight, blood glucose, insulin, leptin and corticosterone levels were measured in virgin C57B1/6J micc and on the day 7, 13,17 of pregnancy, and day 1, 7, 14, 30 postpartum. Insulin sensitivity was measured at the day 7, 17 of pregnancy. Food intake and body weight increased towards the second postpartum week and then decreased. Insulin sensitivity decreased towards the end of the pregnancy. Mothers differed from virgin females in hormones and glucose levels only during pregnancy. Leptin level was decreased at the day 7 of gestation, insulin level - during whole gestation. Glucose fell, and leptin and corticosterone increased from the day 7 to 17. Probably, these hormones affect food intake only in pregnant females and do not influence appetite during lactation.     

The effect of exogenous prolactin on lactation performance of first-litter sows given protein-deficient diets during the first pregnancy

Twenty-four sows were used to study the effects of dietary protein restriction during pregnancy and exogenous porcine prolactin (pPRL) during late pregnancy and throughout lactation on lactation performance. Eight sows were given a protein-adequate diet containing 179 g crude protein (CP)kg⁻¹ during their first pregnancy while the remaining 16 sows received the same amount of a diet containing 80 g CP kg⁻¹. Eight of the sows given 80 g CP kg⁻¹ during pregnancy were injected with 15 mg pPRL i.m. twice daily at 08:00 and 20:00 between day (d) 102.1 (±0.3) of pregnancy and weaning after their first lactation. Pregnant sows offered the low protein diet gained significantly less body weight during gestation and tended to eat less in the subsequent lactation than sows given the protein-adequate diet. Dietary protein had no significant effect on birth weight, milk yield, milk composition or growth rate of the litter during lactation. Neither dietary protein intake during pregnancy nor exogenous prolactin affected the concentrations of plasma glucose, serum insulin, urea or non-esterified fatty acid (NEFA) during lactation. The concentration of lactose in plasma during lactation was unaffected by treatment, but at d 105 of pregnancy, plasma lactose levels were greater in sows which had received exogenous prolactin (32.4 vs. 6.2 mg l⁻¹, P < 0.05). The concentrations of RNA and DNA in mammary tissue biopsies were unaffected by either dietary protein or pPRL. The concentration of RNA and DNA increased between d 70 and 90 from 0.66 to 2.77 mg g⁻¹ and from 0.54 to 1.19 mg g⁻¹, respectively. Thereafter, RNA increased to 4.40 mg g⁻¹ at d 14 of lactation whilst DNA concentration remained at a similar level of 0.90 mg g⁻¹.Milk yield of sows between d 5 and 8 and between d 19 and 22 of lactation was reduced from 8.36 to 7.00 kg day⁻¹ and from 10.74 to 8.22 kg day⁻¹, respectively, in sows given pPRL. The protein content of colostrum from sows treated with pPRL was reduced from 164 to 104 g kg⁻¹ whereas the fat content increased from 47 to 127 g kg⁻¹. These results indicate that the administration of exogenous pPRL during late pregnancy and throughout lactation initiated lactogenesis prematurely and reduced subsequent milk yield during established lactation.     

High-protein diet during gestation and lactation affects mammary gland mRNA abundance, milk composition and pre-weaning litter growth in mice

We evaluated the effect of a high-protein diet (HP) on pregnancy, lactational and rearing success in mice. At the time of mating, females were randomly assigned to isoenergetic diets with HP (40% w/w) or control protein levels (C; 20%). After parturition, half of the dams were fed the other diet throughout lactation resulting in four dietary groups: CC (C diet during gestation and lactation), CHP (C diet during gestation and HP diet during lactation), HPC (HP diet during gestation and C diet during lactation) and HPHP (HP diet during gestation and lactation). Maternal and offspring body mass was monitored. Measurements of maternal mammary gland (MG), kidney and abdominal fat pad masses, MG histology and MG mRNA abundance, as well as milk composition were taken at selected time points. HP diet decreased abdominal fat and increased kidney mass of lactating dams. Litter mass at birth was lower in HP than in C dams (14.8 v. 16.8 g). Dams fed an HP diet during lactation showed 5% less food intake (10.4 v. 10.9 g/day) and lower body and MG mass. On day 14 of lactation, the proportion of MG parenchyma was lower in dams fed an HP diet during gestation as compared to dams fed a C diet (64.8% v. 75.8%). Abundance of MG α-lactalbumin, β-casein, whey acidic protein, xanthine oxidoreductase mRNA at mid-lactation was decreased in all groups receiving an HP diet either during gestation and/or lactation. Milk lactose content was lower in dams fed an HP diet during lactation compared to dams fed a C diet (1.6% v. 2.0%). On days 14, 18 and 21 of lactation total litter mass was lower in litters of dams fed an HP diet during lactation, and the pups' relative kidney mass was greater than in litters suckled by dams receiving a C diet. These findings indicate that excess protein intake in reproducing mice has adverse effects on offspring early in their postnatal growth as a consequence of impaired lactational function.     

Effect of aluminium on duodenal calcium transport in pregnant and lactating rats treated with bromocriptine

The aim of present work was to study the effect of oral aluminium (Al) overload on intestinal calcium (Ca) absorption in the critical stages of pregnancy and lactation of rats and to find out possible relationships with prolactin (PRL) and 17beta-estradiol (E2) circulating levels. Adult female Wistar rats were orally treated from day 1 of pregnancy with 0 (control), or 50 mg elemental Al (as chloride)/kg body weight per day. Ca transport was determined by everted duodenal sacs technique using 2 microCi of (45)CaCl(2) as flux marker (JCa(ms)). Al treatment reduced JCa(ms) either in late pregnancy (day 19) or in middle lactation (day 9 postpartum). Oral administration of bromocriptine (BrC), an inhibitor of PRL secretion, at dose of 10 mg/kg body weight given 18 h before JCa(ms) measurements were done, produced a significant decrease in the inhibitory effect of Al on JCa(ms), expressed as percent of control, at day 9 of nursing (vehicle: 51+/-7%, BrC: 28+/-4%, P <0.05). A positive correlation between Al effects on JCa(ms) and the physiological variations of E2 serum levels along pregnancy and lactation in BrC-treated rats was also found (r(2)=0.277, P =0.001). We conclude Al could reduce transcellular Ca absorption in the duodenum by interfering with physiological mechanisms of Ca transport partially mediated by serum level increments of E2 and PRL, observed in late pregnancy and mainly during middle lactation of rats.     

Hormonal induction and regulation of lactose synthetase in mouse mammary gland

The augmentation of lactose synthetase activity during late pregnancy and lactation was measured by using both a tissue-culture assay and a cell-free assay. The results indicated at least a 100-fold augmentation in specific activity between late pregnancy and lactation. The cell-free assay indicated that the activities of both subunits of this enzyme had increased to 20-30% of the value during lactation by the last day of pregnancy. The tissue-culture assay, however, showed activities only 3-4% of the maximum at the time of parturition. This suggests that not all the enzyme present in the tissue before lactation commenced was active. Since at all stages of pregnancy and lactation the B subunit, alpha-lactalbumin (which is also a milk protein), was rate-limiting, it is suggested that the rate of lactose synthesis may be linked to the rate of milk-protein synthesis. Both subunits of lactose synthetase could be induced in tissue culture by the hormones insulin+hydrocortisone+prolactin. Of the three hormones, prolactin appeared to be the ;trigger' that induced the synthesis of these proteins if the tissue had been stimulated previously by insulin+hydrocortisone.     

Increased intestinal uptake of cobalamin in pregnancy does not require synthesis of new receptors

Increased intrinsic factor cobalamin binding to receptors present in ileal mucosa from mice in the late stages of pregnancy is regulated by placental lactogen. In mice at day 18-20 of pregnancy given an intraperitoneal injection of cycloheximide, 0.5 mg/kg, receptor binding was reduced from 0.42 ng/mg protein to 0.18 ng/mg protein 4 h later. Intestinal mucosal protein synthesis was less than 20% of control values after this dose of cycloheximide. Although this result could be interpreted to mean that the increase in receptors in pregnancy was due to new protein synthesis, cycloheximide-treated mice also had reduced concentrations of placental lactogen in serum. Supplementation with the hormone in cycloheximide-treated mice maintained receptor binding at pregnant levels. Analysis of binding data showed receptor number to be 3.1 X 10(11)/mg protein and the binding constant (Ka) to be 0.5 X 10(12) M-1, which were similar to values found in untreated pregnant mice. It is concluded that, because the increase in receptors cannot be explained on the grounds of new protein synthesis, placental lactogen may recruit cryptic intrinsic factor cobalamin receptors.     

Effects of oral meso-2,3-dimercaptosuccinic acid (DMSA) administration on late gestation and postnatal development in the mouse

The present study was conducted to evaluate the effects of meso-2,3-dimercaptosuccinic acid (DMSA) on late gestation and postnatal viability and growth in the mouse. DMSA was given po to four groups of pregnant Swiss mice at 0, 200, 400, and 800 mg/kg/day from day 14 of pregnancy until postnatal day 21. At birth, the following data were recorded: length of gestation, number of live, dead, and abnormal pups, sex, and individual pup weights. Each pup was weighed again on day 4, 14, and 21 of lactation. Pinna detachment, incisor eruption and eye opening were also monitored. No treatment-related signs of toxicity were noted in any of the dams during the study. No adverse effects on offspring survival or development were evident in the 200 or 400 mg DMSA/kg/day groups. However, on days 14 and 21 of lactation a significant decrease in pup body weight was observed in the 800 mg/kg/day group. Also, a significant increase in the relative weight of the brain was seen in this group. The "no observable effect level" (NOEL) for health hazards to the developing pup was greater than 400 mg/kg/day. This dose is higher than the amounts of DMSA usually given in the treatment of human heavy metal intoxications.     

Levels of cellular retinol-binding proteins in the small intestine of rats during pregnancy and lactation

The movement and metabolism of vitamin A is dependent on a number of specific carrier proteins. The small intestine contains both cellular retinol-binding protein (type two) (CRBP(II], restricted to the villus-associated enterocytes, and cellular retinol-binding protein (CRBP), present primarily in supporting mesenchymal cells. The content of these proteins in the small intestine of prepartum and postpartum Sprague-Dawley rats was determined by radioimmunoassay. Levels of CRBP(II), but not CRBP, changed dramatically during this period. Total content of CRBP(II) in the small intestine rose precipitously in late pregnancy and continued to rise throughout lactation to a peak at day 21 postpartum more than 300% greater than in nulliparous, nonpregnant controls. In contrast, total small intestinal weight and CRBP content increased only approximately 100% from late pregnancy to day 21 of lactation. CRBP(II) concentration in the proximal and middle segments of small intestine (expressed on a g wet tissue, mg protein, or mg DNA basis) remained at control levels through day 17 of pregnancy, increased 50-100% in late pregnancy, then rose markedly at parturition to levels two- to threefold greater than controls. CRBP(II) concentration was then maintained at a relatively constant elevated level during the remainder of lactation, but decreased markedly after weaning, approaching control levels within 1 week. The concentrations of CRBP(II) in enterocytes isolated from the proximal two-thirds of the small intestine from rats on day 20 of pregnancy and days 1 and 16 of lactation, expressed on a mg DNA basis, were similar and approximately 60% greater than controls.(ABSTRACT TRUNCATED AT 250 WORDS)     

Histo-cytomorphologie de la glande mammaire de la souris C3H et de trois autres rongeurs

Summary The mammary glands of 185 C3H mice, ranging from 11 days post partum to old age multiparous animals in the period of involution, were studied by light- and electronmicroscopy.The secretion of milk begins at the 7th day of pregnancy. The precocity of this event is not in agreement with the classical endocrinological concept. During pregnancy the protein material is concentrated in microvesicular bodies and in small Golgi vacuoles.During lactation the concentration is initiated inside the terminal dilatations of the flattened Golgi sacs and continues in the big Golgi vacuoles.During the suckling lipid droplets are extruded together with bits of adherent cytoplasm. An explanation of the formation of cellular fragments is given.The results obtained in the mouse are compared with those of the rat, Guinea pig and rabbit during pregnancy, lactation and regression. The most important cytomorphological difference observed in the mammary glands of the 4 species rests in the intensity of the secretion process during the 2/3 of pregnancy. At this stage, the milk secretion is considerable in the mouse, well under way in the rat and only in its beginnings in the Guinea pig and the rabbit. The lipid synthesis appears in the prelactating mammary gland of the rabbit earlier than the protein synthesis.The protein granules are neither typical of lactation nor of pregnancy. They have been identified in mammary glandular cells of a few virgin mice and in rats, Guinea pigs and rabbits 3 months after the end of lactation. This fact and the catabolic activity of the mammary epithelium in prepubertal mice, show that the mammary cells are able to perform a few secretory activities also outside periods of intense hormonal stimulation (pregnancy and lactation).The cytolytic events during post-lactational and post-parturium regression in absence of lactation are compared with the results of other authors.The resorption of secretory material, which does not appear clearly recognizable in our studies, is discussed.

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Cet article recouvre en partie le travail d'une thèse de doctorat d'Etat ès sciences naturelles. La thèse sera présentée en 1968 à la Faculté des Sciences de Strasbourg.     

Redistribution of tissue zinc pools during lactation and dyshomeostasis during marginal zinc deficiency in mice

Zinc (Zn) requirements are increased during lactation. Increased demand is partially met through increased Zn absorption from the diet. It is estimated that 60–80% of women of reproductive age are at risk for Zn deficiency due to low intake of bioavailable Zn and increased demands during pregnancy and lactation. How Zn is redistributed within the body to meet the demands of lactation, and how Zn deficiency affects this process, is not understood. Female C57bl/6J mice were fed a control (ZA; 30 mg Zn/kg) or a marginally Zn deficient (ZD; 15 mg Zn/kg) diet for 30 days prior to mating through mid-lactation and compared with nulliparous mice fed the same diets. While stomach and plasma Zn concentration increased during lactation in mice fed ZA, mice fed ZD had lower stomach Zn concentration and abrogated plasma Zn levels during lactation. Additionally, femur Zn decreased during lactation in mice fed ZA, while mice fed ZD did not experience this decrease. Furthermore, red blood cell, pancreas, muscle and mammary gland Zn concentration increased, and liver and adrenal gland Zn decreased during lactation, independent of diet, while kidney Zn concentration increased only in mice fed ZD. Finally, maternal Zn deficiency significantly increased the liver Zn concentration in offspring but decreased weight gain and survival. This study provides novel insight into how Zn is redistributed to meet the increased metabolic demands of lactation and how marginal Zn deficiency interferes with these homeostatic adjustments.     

Changes in brown adipose tissue lipoprotein lipase activity and lipogenesis rate during pregnancy and lactation in the rat

Brown fat lipoprotein lipase activity did not change in the first two weeks of pregnancy whereas it decreased on day 18 of gestation and was lower during late pregnancy and lactation. Fatty acid synthesis rate, measured in vivo with (3H)H2O, showed a progressive increase until day 18 of gestation followed by a decrease on day 20 of pregnancy and a reduced lipogenesis rate throughout lactation. The early reduction in the pathways of fatty acid uptake and synthesis in brown fat during the breeding cycle of the rat suggests the possibility that a decline in the substrate supply was a factor contributing to the reduced thermogenic activity of brown adipose tissue after parturition.     

Reproduction in mice: liver enlargement in mice during pregnancy and lactation

The mechanism of liver enlargement during pregnancy was investigated in the C57BL/6J strain of mice. The C57BL/6J female exhibited a two-fold increase in liver mass during pregnancy. After the completion of lactation the size of the liver was reduced. Liver growth was accomplished with no increase in hepatocyte number and without an increase in total liver DNA content. During the early stages of liver expansion in pregnant females, DNA synthesis could be turned on by partial hepatectomy. However, during the last few days of gestation DNA synthesis and liver growth in response to partial hepatectomy were inhibited. During lactation this inhibition of growth was maintained, but inhibition of DNA synthesis was partially lifted. DNA synthesis and liver growth in response to partial hepatectomy were normal after the termination of lactation. Because of the limited scope of this investigation the full implications of these findings are not yet certain.     

Effects of dietary energy intake during gestation and lactation on milk yield and composition of first, second and fourth parity sows

In order to determine the effects of a varied level of dietary energy intake during pregnancy and lactation on milk yield and composition, first, second and fourth parity sows (Large White x German Landrace) were provided with energy at a level of either: (i) 100% of ME requirement (MEreq) during pregnancy and lactation, (ii) 120% MEreq during pregnancy and 80% during lactation, and (iii) 80% MEreq during pregnancy and 120% during lactation. In spite of equal target levels feed analysis revealed that gestating first parity sows with 120/80 treatment combination and lactating sows of 80/120 treatment combination received 25, and 11-17% more digestible N than in the respective 100/100 treatment combination. Irrespective of this 120/80 sows responded with the highest milk DM, fat, and energy contents, and the lowest lactose concentrations whereas protein levels where not affected, irrespective of parity (p < 0.05). Milk yield of sows in 1st and 4th lactation was 85 and 106% of that in 2nd lactation, respectively. Average milk composition was 18.1% DM, 4.9% protein, 6.8% fat, 5.6% lactose, and 0.8% ash. Milk composition changes ceased at day 7 of lactation with a reduction of milk GE and protein, and an increase of lactose content. Concentrations of threonine, arginine, valine, leucine, tyrosine, phenylalanine, cystine, and tryptophan, as well as stearic, oleic, and linoleic acid were higher in colostrum than in milk at later lactation stages. In contrast, laurine, myristic, palmitic, and palmitoleic acids were lower concentrated in colostrum. In conclusion, these results illustrate the importance of body reserve mobilization for milk production in sows and indicate that low energy supply during gestation cannot be compensated by higher energy supply during lactation.     

Co-ordinate changes in enzymes of fatty acid synthesis, activation and esterification in rabbit mammary gland druing pregnancy and lactation.

1. The activities of fatty acid synthetase, acyl-CoA synthetase, glycerol phosphate acyltransferase and phosphatidate phosphatase were measured in the mammary glands of rabbits from day 16 of pregnancy to day 15 of post partum. 2. There were significant correlations between the increases in activities of these enzymes during this period. This was the case whether the activities were expressed per mg of homogenate protein, per g wet wt. of tissue or per total wet weight of the whole glands. The only exception was the lack of correlation between the activities of fatty acid synthetase and of phosphatidate phosphatase per g wet wt. of tissue. 3. These co-ordinate increases are discussed in relation to the changes which occur in fatty acid metabolism in the mammary gland during pregnancy and lactation.     

Variation of DNA polymerase activities and DNA synthesis in mouse mammary gland during pregnancy and early lactation

The rate of DNA synthesis and the activity of DNA polymerases and thymidine kinase were measured during the endocrine-regulated cellular growth and differentiation of mouse mammary gland. Using specific assays, the activity of the DNA polymerases, alpha, beta and gamma, was determined in tissue extracts of mammary glands of mice at various stages of pregnancy and early lactation. In addition, extracts of the mammary tissue of virgin, mid-pregnant and early lactating mice were fractionated on sucrose density gradients, and the activity of DNA polymerase alpha and beta was assayed in the gradient fractions. It was demonstrated that the activity of DNA polymerase alpha varied considerably during pregnancy and after parturition, showing peaks on day 12 of pregnancy and days 3-4 of lactation. In pregnancy, there was an apparently parallel correlation between the amount of DNA-polymerase-alpha activity and the rate at which the cells incorporated labelled thymidine into DNA, but the relationship was less clearly expressed during early lactation. The activity of the DNA polymerases, beta and gamma, as well as that of thymidine kinase showed little variation during these periods. Thus, in the developing mammary gland, no correlation was found between DNA synthesis and the activity of the DNA polymerases, beta and gamma, or thymidine kinase.     

Reproductive Performance of Sows Supplemented with Dietary L-carnitine over Three Reproductive Cycles

The effect of L-carnitine supplementation during pregnancy and lactation on the reproductive performance of sows was studied in two separate trials over three reproductive cycles. Both trials were identical in design and conduct but were performed with different animals. The trials comprised of a total of 127 sows (trial 1) and 100 sows (trial 2) which were divided into control and treatment groups. All animals were fed individually and received basic feed mixtures with low native carnitine concentrations. The rations of the sows in the treated group were supplemented with 125mg L-carnitine per head and day during pregnancy and 250mg L-carnitine per head and day during lactation. The animals of the control group received identical feed mixtures in identical amounts, but without the L-carnitine supplement. In the first trial, 212 litters were produced and evaluated for number and body weight of the animals, in the second trial, 173 litters were produced. L-carnitine supplementation significantly increased body weight gains of the sows between day 1 and day 85 of weaning. The number of born piglets, stillborn piglets and piglets fit for rearing was not influenced by dietary L-carnitine supplementation. However, L-carnitine supplementation significantly increased the weights of piglets and litters at birth, weight gains of litters during suckling and weights of litters at weaning. These effects of L-carnitine were seen in both trials; they were independent of the age of the sows and remained over three reproductive cycles in which the sows where continuously treated with L-carnitine. Overall, the study shows that dietary supplementation with L-carnitine during pregnancy and lactation improves the reproductive performance of sows over several reproductive cycles, independent of the age of the sows.     

Metabolic adaptations in goat mammary tissue during pregnancy and lactation

Metabolic adaptations of goat mammary tissue during pregnancy and lactation were monitored in serial biopsies of the tissue. Changes in the synthetic capacity of secretory cells were studied by combining measurements of enzyme activities with short-term culture of mammary explants to measure lactose, casein and total protein synthesis. By these criteria, the main phase of mammary differentiation began in late pregnancy and was essentially complete by Week 5 of lactation, coinciding with the achievement of peak milk yield. While milk yield declined after Week 5, the activities of key enzymes expressed per mg DNA and the rates of lactose and casein synthesis in mammary explants were maintained over a considerable period. The results suggest that changes in the synthetic capacity of epithelial cells may account for much of the rise in milk yield in early lactation, but are not responsible for the declining phase of milk production characteristic of lactation in ruminants.     

Maternal supplementation with dietary arachidonic and docosahexaenoic acids during lactation elevates bone mass in weanling rat and guinea pig offspring even if born small sized

Whether post-natal long chain polyunsaturated fatty acids (LCPUFA) elevates bone mineral content (BMC) of small and normal neonates was studied using pregnant rats and guinea pigs fed a control (C) diet or low protein (LP) diet to induce small neonates followed by C or LCPUFA diets during lactation. Measurements (days 3 and 21 post-partum) included BMC and density (BMD) plus bone metabolism. In rats LP reduced birth weight but at day 21 elevated weight and whole body BMC; LCPUFA enhanced spine BMC, tibia BMC and BMD and whole body BMD. In guinea pig pups, at days 3 and 21, LP reduced weight, whole body and regional BMC and BMD whereas LCPUFA reduced day 3 osteocalcin and elevated day 21 spine BMD. LCPUFA minimized loss of whole body BMC in dams and elevated osteocalcin in sows. LCPUFA during lactation enhances bone in normal and small neonates without compromising maternal bone.     

水貂妊娠与泌乳期的能量代谢

孕貂摄入日粮比孕前高8.03%,即摄入总能量高11.70%。产后,母貂摄入日粮与总能量的变化,近似S型曲线。孕貂体重与妊娠时间呈正相关,与泌乳时间呈负相关。妊娠期,孕貂每天摄入总能量超过呼吸量与粪便排出量之总和,则体重增加。泌乳期,母貂每天摄入总能量少于呼吸量、粪便排出量及泌乳量之总和,故体重减轻。